A Peer-Reviewed Publication for Medical Directors and Healthcare Executives The Official Journal of the NATIONAL ASSOCIATION OF MANAGED CARE PHYSICIANS AMERICAN ASSOCIATION OF INTEGRATED HEALTHCARE DELIVERY SYSTEMS AMERICAN COLLEGE OF MANAGED CARE MEDICINE AMERICAN ASSOCIATION OF MANAGED CARE NURSES Journal of Managed Care Medicine Vol. 9, No. 1 JMCM ➤ A Collaborative Model for Delirium Detection and Early Intervention: A Five-Year Study ➤ Osteoporosis: Prevention and Treatment ➤ Beta-Blockers: Class Effect in Heart Failure—Fact or Fiction? ➤ Treatment Options for Osteoarthritis of the Knee Special Section ➤ Next Generation of Biopharmaceuticals ➤ Implementing an Outcome Improvement Program for Multiple Sclerosis by Integrating With a Specialty Pharmacy Partner
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A Peer-Reviewed Publication for Medical Directors and Healthcare Executives
The Official Journal of the NATIONAL ASSOCIATION OF MANAGED CARE PHYSICIANSAMERICAN ASSOCIATION OF INTEGRATED HEALTHCARE DELIVERY SYSTEMSAMERICAN COLLEGE OF MANAGED CARE MEDICINEAMERICAN ASSOCIATION OF MANAGED CARE NURSES
Journal of Managed Care Medicine
Vol. 9, No. 1
JMCM
➤ A Collaborative Model for Delirium Detection and Early Intervention: A Five-Year Study
➤ Osteoporosis: Prevention and Treatment
➤ Beta-Blockers: Class Effect in Heart Failure—Fact or Fiction?
➤ Treatment Options for Osteoarthritis of the Knee
Special Section
➤ Next Generation of Biopharmaceuticals
➤ Implementing an Outcome Improvement Program for Multiple Sclerosis by Integrating With a Specialty Pharmacy Partner
you can trustfrom people you trust
RESULTS
*TVG Marketing Research & Consulting. August-November 2004.† David Shore, 2005 Trust and Trustworthiness in the Pharmaceutical Industry.
The Journal of Managed Care Medicine is pub-lished by Association Services Inc. Corporate andCirculation offices: 4435 Waterfront Drive, Suite101, Glen Allen, VA 23060; Tel (804) 527-1905; Fax(804) 747-5316. Editorial and Production offices:8730 Stony Point Parkway, Suite 250, Richmond, VA23235; Tel (804) 272-9100; Fax (804) 272-1694.Advertising offices: Jack Klose, 804 Broadway, W.Long Branch, NJ 07764; Tel (732) 229-8845; Fax(856) 582-9596. Subscription Rates: one year $95 inthe United States; one year $105 in Canada; oneyear $120 international. Back issues are availablefor $15 each. All rights reserved. No part of thispublication may be reproduced or transmitted inany form or by any means, electronic or mechanical,including photocopy, recording, or any informationstorage or retrieval system, without written con-sent from the publisher. The publisher does notguarantee, either expressly or by implication, thefactual accuracy of the articles and descriptionsherein, nor does the publisher guarantee theaccuracy of any views or opinions offered by theauthors of said articles or descriptions.
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JMCM
Journal of Managed Care Medicine Instructions for AuthorsThe Journal of Managed Care Medicine is a peer-reviewed national publication. Original articles
dealing with the business or clinical side of managed care are welcome. Manuscript length gen-
erally should range between 10 to 15 typed pages, including a summary with key points, exhibits,
and references. All submissions should include the following elements:
• One printed copy of the manuscript, including illustrations/figures/tables
• Contact numbers (phone and fax), complete mailing address, and e-mail address for designated
corresponding author
• Electronic version on CD or via e-mail in Microsoft Word
• Bibliography/References, following the format of the AMA Manual of Style, 9th Ed.
• Brief biography of author(s) < 50 words and including academic/corporate affiliations
AMERICAN ASSOCIATION OF INTEGRATED HEALTHCARE DELIVERY SYSTEMS
AMERICAN COLLEGE OF MANAGED CARE MEDICINE
AMERICAN ASSOCIATION OF MANAGED CARE NURSES
A Publication for Medical Directors and Healthcare Executives Vol. 9, No. 1
Alan Adler, MD, MSVice President, Health ServicesHorizon MercyTrenton, NJ
Glen F. Aukerman, MDMedical DirectorNationwide Health PlansDublin, OH
Alan B. Bernstein, MDSenior Vice President/Chief Medical OfficerLenox Hill Healthcare NetworkNew York, NY
Jan Berger, MD, MJMedical DirectorCaremarkNorthbrook, IL
Charles N. BurgerExecutive DirectorBurke Health Care Inc.Valdese, NC
Gerald Del Rio, MDMedical DirectorEast County Medical GroupAntioch, CA
Howard Fillit, MDExecutive DirectorInstitute for the Study of AgingNew York, NY
Joseph B. Fox, MDVice PresidentPharmacy Services/Medical DirectorThe Healthcare GroupIndianapolis, IN
Uwe G. GoehlertPrincipalGoehlert & AssociatesSouth Burlington, VT
Barry K. Herman, MD, MMMDirector, Regional Medical ResearchSpecialistPfizer Inc.Radnor, PA
Rodney K. Ison, MDCEO Community Health CareFulton, OH
Peter R. Jungblut, MD, MBAMedical DirectorSaint Peter’s University HospitalNew Brunswick, NJ
Surinder K. Kad, MD, FACP, MS, MPH, MBAMedical DirectorLexington-Fayette County Health DepartmentLexington, KY
Thomas Kaye, RPh, MBA, FASHPSenior Pharmacy DirectorPassport Health PlanLouisville, KY
Lowell H. Keppel, MD, CPE, FACPE, FAAFPMedical Director, QI and
Care ManagementBlue Cross Blue Shield of WisconsinBrookfield, WI
Thomas Kim, MD, MBA, MPHAssociate Medical DirectorAnthem, BCBS VirginiaRichmond, VA
Herbert C. Kimmons, MD, MMMMedical DirectorChildren’s SpecialistsSan Diego, CA
Randall Krakauer, MD, MBAMedical Director, MedicareAetnaJersey City, NJ
Bradley Kupferberg, MBA, CMPEExecutive DirectorChildren’s Faculty Practice Plan Inc.Chicago, IL
Fernando C. Larach, MD, FACR, MBAPresidentA-Bay Area Medical Clinics, PASafety Harbor, FL
Jeffrey L. Leno, MD, JDMedical DirectorJeff Care Inc.Philadelphia, PA
David Lorber, MD, FCCPVice President, Clinical Division AdvancePCSScottsdale, AZ
Jerome Massenburg, MDMedical DirectorMountain State Blue Cross Blue ShieldCharleston, WV
Peter W. McCauley, MDMedical DirectorGottlieb/West Tours PHO Inc.Melrose Park, IL
Lawrence Mullany, MD, MBARegional Medical Director/
Pharmacy Medical DirectorAvMed Health PlanGainesville, FL
Barbara Nabrit-Stephens, MDMedical DirectorOmniCare Health PlanDetroit, MI
Ester J. Nash, MDSenior Medical DirectorIndependence Blue CrossPhiladelphia, PA
Michael Pine, MD, MBAPresidentMichael Pine and Associates Inc.Chicago, IL
John W. Richards Jr., MD, MMM, CPE, DABFP
President/CEOInnovative Health StrategiesMartinez, GA
Aran Ron, MD, MBA, MPHSenior Vice President/
Chief Medical OfficerGroup Health Inc.New York, NY
John R. Schottland, MD, MBAAssociate Medical DirectorMedsolutions Inc.Franklin, TN
Joseph Schwerha, MD, MPHDirector–Occupational & Environmental
MedicineUniversity of Pittsburgh,
School of Public HealthPittsburgh, PA
Nancy Single, PhDVice President Cancer ControlAmerican Cancer Society, Ohio DivisionDublin, OH
Jacque J. Sokolov, MDChairmanSokolov, Sokolov, BurgessPasadena, CA
Scott Spradlin, DO, FACOIMedical DirectorCarelink Health PlansCharleston, WV
Bruce Steffens, MDSenior Vice President/
Chief Medical OfficerJohn Deere HealthMoline, IL
Ron Suprenant, MD, MBAPresidentMED2ORDERDayton, OH
Michael C. Tobin, DO, MBA, CMCMExecutive Vice President/
Chief Medical OfficerProvidia Healthcare Group Inc.Roswell, GA
Derek van Amerongen, MD, MSChief Medical OfficerHumana Health Plans of OhioCincinnati, OH
José Villaplana, MDCenter Medical DirectorJSA Healthcare GroupTampa, FL
4 Journal of Managed Care Medicine Vol. 9, No. 1
Editorial Review Board
Journal of Managed Care Medicine Vol. 9, No. 1 5
WHEN THE DISTURBANCE OF AFFECT,behavior, and cognition become unmanageable, olderpersons with acute mental status changes oftenpresent to hospital emergency departments (EDs).However, differential diagnosis can be difficult. Anaccurate diagnosis is complicated by the absence ofaccurate medical and mental health histories and thetimely transfer from the ED to an appropriate level ofcare.The consequence is under-detection of deliriumand ineffective treatment, often marked byinappropriate admissions to inpatient psychiatric care.
Delirium, as defined by the American PsychiatricAssociation, is a disturbance in consciousness and
cognition not accounted for by a pre-existing orevolving dementia. Evidence from a history, physical,or laboratory tests attribute the cause of delirium to ageneral medical condition, substance intoxication orwithdrawal, medication, or toxins.1 Delirium is oftenundetected or misdiagnosed, or superimposed onexisting illnesses, such as dementia.2 Under-detectionis associated with high rates of morbidity, prolongedhospitalization, and increased likelihood of an in-hospital death.3 These risks increase when diagnosesof chronic dementia, depression or psychotic illnesshide an underlying causative physical or toxicdisorder.4,5,6,7 In one ED study, 10 percent of persons
A Collaborative Model for Delirium Detectionand Early Intervention: A Five-Year Study
Jon D. Beaty, MSW, LCSW, CPHQ, and Christy L. Beaudin, PhD, LCSW, CPHQ
SummaryOlder persons with acute mental status changes and behavioral disturbances
often present in the hospital emergency department and are subsequently admittedto an inpatient psychiatric unit. Without a comprehensive medical evaluation, therisk of morbidity and mortality from undetected medical conditions is increased.By collaborating with managed care organizations (MCOs), a managed behavioralhealthcare organization (MBHO) developed and implemented an integratedapproach for managing delirium prior to hospital admission.
Key Points• A five-year case study shows a 283 percent increase in comprehensive medicalevaluations completed in the decision-making process prior to an inpatientadmission. Attention in the care-management process to the potential risks ofundetected medical conditions in older persons can direct treatment to theappropriate level of care, either acute psychiatric or medical.• The MBHO experienced a 23 percent reduction in cost per 1,000 memberyears, from $5,859 in 2000 to $4,492 in 2002, for the target diagnostic categoriesdetermined to be the most likely diagnoses for patients with undetected delirium.The cost benefit correlates to reduced utilization.• Interventions included providing MBHO care managers with guidelines forescalating pre-certification decisions to a psychiatrist, training for care managersto identify persons at risk for delirium, implementation of a joint policy for theMBHO and MCOs on the care of persons at risk for delirium, and outreach tomedical and behavioral health clinicians.• A consumer-centered healthcare system has developed model processes todirect resources to meet consumer needs efficiently and effectively. An integratedapproach to care allows clinicians to address the complexities of the differentialdiagnosis of behavioral and physical disorders in older persons.
6 Journal of Managed Care Medicine Vol. 9, No. 1
over 65 years of age were found with delirium; theED physician positively identified only 35 percentof those.8 Another study of older personsdiagnosed with depression and psychosis on auniversity geropsychiatric unit found 34 percentwith unrecognized medical disorders.9
Successful management of medical conditionstypically associated with delirium and prevention ofadverse outcomes require early identification andintervention, particularly for persons beingconsidered for placement in a psychiatric unit.6,10
Common contributors to misdiagnosis of deliriumhave been identified:11
• failure to conduct an appropriate mental statusevaluation • intoxication with alcohol or illicit drugs• inadequate physical examination• failure to obtain available history• failure to obtain indicated laboratory studies.
Processes for the differential diagnosis of deliriumvary and lack standardization.An organized approachis recommended to discover symptom causes and inordering appropriate laboratory studies.12
Although difficult to achieve, it is possible formultiple entities to work together on managing theprocess of care, reducing the potential for adverseoutcomes with at-risk populations, and improvingpatient safety. Collaboration and coordination of theassessment and treatment for both behavioral healthand physical health are critical. At the micro-level,clinicians involved in the day-to-day caremanagement can implement comprehensivetreatment strategies for persons with multiple andcomplex healthcare needs.
PacifiCare Behavioral Health (PBH) is a networkmodel managed behavioral healthcare organization(MBHO). It administers behavioral health benefitsfor MCOs and employer-sponsored plans. One ofits regional service centers manages benefits forthree MCOs serving commercial and MedicareAdvantage (formerly Medicare+Choice) enrolleesin Washington and Oregon. In 1999, care managersin the regional service center provided anecdotalreports of undetected delirium in older persons.This resulted in longer lengths of stay in psychiatricunits, transfers from psychiatric to medical units,increased morbidity, and, in some instances, death.Thorough assessment and triage of persons at-riskfor co-morbid conditions became a priority.Seniors (age 65 years and older) enrolled inMedicare Advantage in 1999 represented 24percent of the PBH region’s membership, andaccounted for 46 percent of all psychiatricinpatient days for commercial and Medicareenrollees. The region’s experience was
disproportionate to the experience of theorganization nationally, where Medicare enrolleesrepresented 10.8 percent of the membership, andaccounted for 14 percent of all psychiatricinpatient days.
PBH sought to improve collaboration withrelevant medical delivery systems for personspresenting for inpatient psychiatric care, to ensureolder persons with acute mental status orbehavioral changes receive a comprehensivemedical evaluation. Several avenues of system entryexist for a person seeking inpatient behavioralhealth services:
• Contact PBH via a toll-free telephone numberfor triage, pre-certification, and referral by a PBHcare manager.
• Present at a network facility for triage andadmission, if appropriate.
• Present in an emergency department forevaluation and referral.
In the latter scenario, a physician (e.g., the person’sprimary care physician, an emergency physician, or apsychiatrist) completes an assessment of the person’sneeds. A determination is made as to whetherinpatient psychiatric care is indicated. For admission,a facility representative telephones PBH and requestspre-certification. The request is accompanied by apresentation of the patient’s clinical disposition andis reviewed against utilization management criteria.When the person’s clinical disposition satisfiescriteria for admission to the level of care requestedby the facility representative, care is pre-certified.The person’s clinical disposition and rationale forpre-certification are documented in an electronicdatabase. Considering several opportunities toreduce risk, PBH prioritized changes to its care-management processes, specifically at the point ofentry into the behavioral health system.
MethodsCase study series were conducted over a five-year
period (1999 to 2003). Using quantitative andqualitative data, the study evaluated PBH’s processesfor delivering acute inpatient psychiatric care toolder persons at-risk for delirium and the effect ofinterventions intended to ensure timely detectionand treatment for delirium. Baseline data werecollected through case review. The case reviewdetermined the extent to which PBH caremanagers considered comprehensive medicalevaluation of persons age 65 years and older indecisions about the level and setting of treatment.Using an internally developed audit tool, auditorsexamined individual case documentation. Audittool criteria included information related to medical
Journal of Managed Care Medicine Vol. 9, No. 1 7
history, physical, and laboratory studies.This permittedauditors to score each case record based on whetherthe spectrum of clinical information was consideredin the certification decisions prior to a hospitaladmission. Cases including all three of theseelements received a score of 1; those lacking any ofthese three elements received a score of 0.
At the baseline measurement, records wererandomly selected from the database containing230 records for persons age 65 years and older whowere pre-certified for acute inpatient psychiatriccare over a 12-month period. The sample wasselected from the total number of claims forinpatient admissions for persons age 65 and older.Arandom number was assigned to each claim, andclaims were sorted in ascending order by therandomly assigned numbers.The first 50 percent ofthe cases (n=115) were selected for case review.The sample size is sufficient to detect a modesteffect size (approximately 10 percent) with a 0.05significance level with a power of 0.8. Auditorswere uniformly trained, provided with instructionson data collection, and tested for Inter-Raterreliability to ensure consistency. Confidentiality ofMedicare beneficiary information was protected.Auditors were selected from the organization’sclinical services staff, who had signedconfidentiality agreements as a condition ofemployment. Subsequent measurements appliedthe same methodology.
ResultsEvidence of the audit elements was found in only 17
percent of the cases at the baseline measurement.Qualitative analysis revealed barriers and opportunitiesfor improvement in processes, both internal andexternal to PBH.Top-priority opportunities included:
1. Improve care manager review skills in assessmentof risk for delirium.
2. Increase psychiatric consultation for care managersduring pre-certification reviews.
3. Increase comprehensive medical evaluations byhealthcare providers to rule out delirium forpatients at risk.
4. Clarify delineation of responsibility betweenmedical and behavioral health delivery systems inmanagement of patients at risk for delirium.
PBH subsequently implemented training of itscare managers. A 60-minute in-service trainingconducted by the PBH regional medical director,who was a board-certified geriatric psychiatrist,focused on identifying and managing patients atrisk for delirium. Protocols for pre-certificationreviews of older persons were added to theInpatient Care Manager’s Escalation Guide (Exhibit 1).
Training on specific clinical information requiredto rule out delirium was reiterated in the guide.This enabled inpatient care managers to determinewhen consultation was needed with the regionalmedical director. In consultation, the medicaldirector advised whether evaluation wassatisfactory or when additional evaluation wasneeded. The regional medical director facilitatedoutreach activities to medical providers, increasingtheir awareness of under-detected delirium and ofthe opportunity to collaborate with managed carefor persons at risk.
A joint policy and procedure on the managementof persons at-risk for delirium and dementia withagitation was developed and implemented withcontracted health plans. Delineated were theprocedures to be followed by both the PBH caremanagers and the medical delivery system to ensureeffective treatment planning. Principal responsibilitywas placed on primary care physicians (PCPs), or anappropriate proxy, to complete a comprehensivemedical evaluation to rule out delirium. Inconfirmed cases with delirium, treatment wasarranged in a medical setting. Psychiatricconsultation was pre-certified by PBH for medicalsettings as needed. Once the person presenting withdelirium was medically stable and appropriate forambulatory care, PBH facilitated ongoingpsychiatric treatment to address cognitivedisturbances or behavioral dyscontrol.
Remeasurement was conducted for the 12months subsequent to the baseline period. Therewas a 15-percentage-point improvement in themedical evaluation completion rate over baselineto 32 percent. A Chi-square test showed thedifference in rates for baseline to remeasurementwas statistically significant (χ2 = 6.34 [P <0.025]).Qualitative analysis underscored the need for morecomprehensive training of PBH care managers inthe steps of identifying at-risk individuals andensuring delirium was ruled out.
External to PBH, opportunity remained formedical physicians to take initiative in conductingcomprehensive medical evaluations to rule outdelirium for at-risk persons. This was particularlytrue of PCPs who may not see the person. Oftenwhen hearing of acute changes in the person’smental status, PCPs would direct caregivers to thenearest ED to request a psychiatric admission. Inresponse, the PBH regional medical director andclinical manager regularly presented the deliriumprotocol at meetings with MCOs and medicaldirectors of contracted physician groups. Inaddition, the PBH regional medical director andclinical manager met with staff at psychiatric
8 Journal of Managed Care Medicine Vol. 9, No. 1
hospitals to collaborate on procedures formanaging older persons at risk for delirium. Thisintervention targeted hospitals serving a high-volume of PBH Medicare beneficiaries.
A second remeasurement was conducted for the 12-month period subsequent to the first remeasurement.Actions resulted in a 15-percentage-point improve-ment over the first remeasurement to 47 percent, a176 percent relative change over the baseline.Comparing the first remeasurement to the secondremeasurement, a Chi-square test demonstratedimprovement of statistical significance (χ2 = 6.82 [P <0.01]). Qualitative analysis concluded that compre-hensive training was needed for newly hired caremanagers to ensure procedures to rule out deliriumare consistently followed and considered in the processof patient placement. Also, additional interventionswith physicians and the delivery system would supportthe efforts of care managers.
A third remeasurement was conducted for thenext 12-month period.The result of 46 percent wasnot statistically significant from the secondremeasurement (χ2 = 0.028 [P < 1]). Mapping the
process of pre-certification review for acutepsychiatric inpatient care for older personshighlighted the lack of a standard tool or template tosupport care manager adherence to the definedprocedures for inpatient pre-certification decisions.Modifying care management software to supportthis process was proposed as the greatest opportunityfor improvement, but has not been implemented.
A fourth remeasurement was conducted for thenext 12-month period.The result of 53 percent wasnot statistically significant over the previousmeasurement (χ2 = 0.25 [P > 0.10]). However, theresult of this latest measurement represents a 283percent increase (χ2 = 25.34 [P < 0.001]) overbaseline in pre-certifications for inpatientpsychiatric care, taking into consideration acomprehensive medical evaluation in the decision-making process. Improvement of performance overthe third remeasurement, although not statisticallysignificant, is attributed to recurring training ofcare managers to review history, physical, andlaboratory studies in the pre-certification processfor inpatient psychiatric care. Meaningful attention
Exhibit 1: Inpatient Care Manager’s Escalation Guide
An Inpatient Care Manager Should Consult With aPBH Medical Director or Psychiatric Advisor When:
• Acute mental status changes suggest the possibility of delirium that is not being appropriately evaluated by the practitioner or facility; thus, a PBH psychiatrist is needed to review the general medical and psychiatric care provided to the member.
• Significant co-morbid medical conditions exist and a PBH psychiatrist is needed to assess the thorough-ness of the diagnostic work-up and treatment planning for the member.
• Anorexia nervosa is the admission diagnosis.
• Autism or Pervasive Development Disorder is the admission diagnosis.
• Dementia is suspected or confirmed and appears to be the basis for the psychiatric symptoms being described.
• The member’s detoxification protocol is unorthodox or it is not familiar to the care manager of clinical operations treatment, or it’s a difficult case that has first been discussed with the team leader and it has been determined that review with a PBH psychiatrist is needed.
• Inpatient care has extended, and the case has not previously been presented to a PBH psychiatrist.
An Inpatient Care Manager Should Contact theAttending Physician Directly When:
• The facility’s reviewer has inadequate clinical information and can’t answer questions with sufficient detail. The issue is not necessarily whether inpatient care is necessary, but rather whether an appropriate treatment plan is being implemented. Care managers shape appropriate treatment plans.
• The facility’s reviewer provides information that seems vague and untrustworthy. The concern is that the poor quality of information being provided may result in the consideration of a denial when the member’s clinical status actually warrants inpatient care. Care managers advocate necessary care for members and avoid unnecessary involvement by PBH medical directors as well as inappropriate denials.
• The facility’s reviewer is slow to respond. Care managers work with the facility’s utilization review staff as intermediaries for attending practitioners, ensuring that the practitioner is directly involved in the care management process when the intermediary is not cooperative.
Journal of Managed Care Medicine Vol. 9, No. 1 9
in the care-management process yieldedidentification of the potential risks of undetectedmedical conditions and early intervention witholder persons presenting for acute psychiatric care.Exhibit 2 summarizes the methods and results forthe five years. Exhibit 3 summarizes interventions.
There was an unanticipated cost benefit associatedwith this study. A retrospective cost analysis forinpatient psychiatric treatment for 2000 through
2002 was conducted using the entire population ofinpatient service users age 65 and older. The datashowed nearly a 23 percent reduction in cost per1,000 member years, from $5,859 in 2000 to $4,492in 2002 for the target diagnostic categories ofdementia, depression not otherwise specified (NOS),and psychotic disorder NOS. These diagnoses aredetermined to be the most likely diagnoses for patientswith undetected delirium.The cost benefit correlates
Exhibit 2: Completion Rates for Comprehensive Medical Evaluations
Period Sampling Method Results
115/230 Simple random sample 17%
*This sample size is sufficient to detect a modest effect size (approximately 10%) with a 0.05 significance level with a power of 0.8.† The distribution is significant.
Sample Size/Total Population
1999
117/234 Simple random sample32%
Baseline to Remeasurement 1:χ2 = 6.34 [P < 0.025] †
2000
161/321 Simple random sample
47%Remeasurement 1 to Remeasurement 2:
χ2 = 6.82 [P < 0.01] †Baseline to Remeasurement 2:
χ2 = 26.29 [P < 0.001] †
2001
147/292 Simple random sample
46%Remeasurement 2 to Remeasurement 3:
χ2 = 0.028 [P < 1]Baseline to Remeasurement 3:
χ2 = 24.1 [P < 0.001] †
2002
130/259 Simple random sample
53%Remeasurement 3 to Remeasurement 4:
χ2 = 0.25 [P > 0.10]Baseline to Remeasurement 4:
χ2 = 25.34 [P < 0.001] †
2003
Exhibit 3: Key Interventions to Improve Comprehensive Medical Evaluation
• Protocol for management of delirium and dementia for use by PBH care managers
• Medical Evaluation for All Members With Probable Delirium, desktop guide for reviewing inpatient psychiatric admissions for older adults
• Inpatient Care Manager Escalation Guide. The desktop tool directs care managers to consult with the psychiatric physician consultant when acute mental status changes suggest the possibility of delirium.
• Joint Policy on the Management of Delirium and Agitation Associated with Dementia implemented with health plan medical groups by the health plan medical management teams
• Training of all care managers in PBH procedures for identifying and managing persons with delirium
• Delirium Protocol Training with in-network general psychiatric and geropsychiatric facilities
• Orientation to Joint Policy on the Management of Delirium and Agitation Associated with Dementia for 29 health plans’ medical providers and representatives from medical groups. Materials included:> Guidelines for a Comprehensive Medical Evaluation of Older Adults for Probable Delirium> Rolodex card including the physician consultation service telephone number for consultation with a PBH psychiatric
consultant> Training of PBH care managers on laboratory studies that should be routinely requested for older adults presenting for
acute psychiatric admissions to rule out medical conditions that may be causing psychiatric symptoms
10 Journal of Managed Care Medicine Vol. 9, No. 1
to reduced utilization. In 2002, persons 65 years andolder represented 28 percent of the PBH region’s totalmembership, four percentage points more than in1999, and utilized 20 percent of all psychiatricinpatient days, down from 46 percent in 1999.
Because this study was non-experimental, it islimited by the absence of case controls for anymeasurement, and there was no random assignmentfor the multiple interventions implemented by PBH.The mixing of effects may lead to the incorrectinferences about change in the rate of medicalevaluations considered. However, healthcare providersare often at a disadvantage when conducting“research” in natural settings. It is not always possibleor ethical to produce a true experimental, or even aquasi-experimental study design.
DiscussionA consumer-centered healthcare system models
processes and directs resources to efficiently andeffectively meet the needs of consumers.The result isan integrated approach to care, allowing clinicians toaddress the complexities of the differential diagnosisof behavioral and physical disorders in older persons.Effective interventions likely to make a differenceinclude the adoption and implementation of clinicalguidelines with the obligatory mental stateexaminations, steps for ruling out delirium duringthe initial assessment of acute mental status andbehavioral changes, and training to increase clinicalexpertise in treatment planning for older persons.
Referenced existing research supports earlyidentification and intervention as effectivedeterrents to increased morbidity and mortality.More research, advocacy, and action are needed inthis area. As declared by the Institute of Medicine,healthcare is fragmented and the persons placed atgreatest risk by insufficient coordination of care arethose most in need of healthcare.13 Artificial and realdivisions between healthcare disciplines anddelivery systems—in particular behavioral andphysical medicine—complicate diagnosis and createinefficiencies in the continuity and delivery of carethat cannot be easily navigated or overcome bypersons seeking care. Collaboration betweenMBHOs and MCOs can produce processes thatensure collaboration in the differential diagnosis andtreatment planning for older persons, improving theintegration of care needed to increase patient safety,reduce medical costs, and improve outcomes. JMCM
Jon D. Beaty, MSW, LCSW, CPHQ, is corporate manager of qualityimprovement for PacifiCare Behavioral Health in Hillsboro, Ore. ChristyL. Beaudin, PhD, LCSW, CPHQ, is corporate director of quality improve-ment for PacifiCare Behavioral Health in Van Nuys, Calif.
AcknowledgementsThe authors wish to acknowledge PacifiCare Health Plans for its
contributions to the development of a joint protocol with PacifiCare BehavioralHealth for the management of older persons with delirium. Specifically,PacifiCare of Oregon and PacifiCare of Washington are recognized forproviding a collaborative environment where opportunities to improve the careof older persons could be explored and pursued. Finally, the authors expressgratitude to Gigi Mathew, DrPH, and Eric Hamilton, MS, for statistical analysis.
References1. American Psychiatric Association: Diagnostic and Statistical Manual ofMental Disorders, Fourth Edition, Text Revision. Washington, D.C.: AmericanPsychiatric Association, 2000.2. Fick DM, Agostini JV, Inouye SK. Delirium superimposed on dementia: asystematic review. J Am Geriatr Soc. 2002;Oct;50(10):1723-32.3. Pompei P, Foreman M, Rudberg MA, et al. Delirium in hospitalized olderpersons: outcomes and predictors. J Am Geriatr Soc. 1994;42:809-815.4. Johnson J. Identifying and recognizing delirium. Dement Geriatr Cogn Disord.1999;10:353-358.5. Armstrong SC, Cozza KL, Watanabe KS. The misdiagnosis of delirium.Psychosomatics. 1997;38:433-439.6. Kunkel EJ, Aliu O. Management of the agitated patient. Del Med J.2000;72:473-478.7. Murphy BA. Delirium. Emerg Med Clin North Am. 2000;18:243-252.8. Elie M, Rousseau F, Cole M et al. Prevalence and detection of delirium inelderly emergency department patients. Can Med Assoc J. 2000;163:977-981.9. Woo BK, Daly JW, Allen EC et al. Unrecognized medical disorders in olderpsychiatric inpatients in a senior behavioral health unit in a university hospital.Geriatr Psychiatry Neurol. 2003;Jun;16(2):121-5.10. Jacobson SA. Delirium in the elderly. Pediatr Clin North Am. 1997;20:91-110.11. Reeves RR.; Pendarvis EJ; Kimble R. Unrecognized medical emergenciesadmitted to psychiatric units. Am J Emerg Med 2000;18:390-393.12. Packard RC. Delirium. Neurology. 2001;Nov;7(6):327-40.13. Institute of Medicine. Crossing the Quality Chasm: A New Health Systemfor the 21st Century.Washington, D.C.: National Academy Press, 2001.
Journal of Managed Care Medicine Vol. 9, No. 1 11
OSTEOPOROSIS IS A DEGENERATIVEskeletal disease that increases bone fragility and is thecause of more than 1 million painful and oftendebilitating fractures each year. The World HealthOrganization defines osteoporosis as a bone mineraldensity (BMD) >2.5 standard deviations (SDs) belowthe mean peak BMD of young normal adultsmeasured at any skeletal site. Osteopenia is defined asa BMD >1 but <2.5 SD below the mean for youngnormal adults. The number of standard deviationsthat the BMD is above or below the young normalmean is referred to as the T-score.1
Osteoporosis affects mainly post-menopausalwomen but also men, in either primary or secondaryforms. Approximately 50 percent of Caucasianwomen and a lower percentage of men and non-Caucasian women will experience an osteoporoticfracture in their lifetime.2 Of the 25 million livesaffected, four in five are women.Although other sitesmay be affected, there are three major fracture sites inosteoporosis: the hip, the vertebrae, and the distalradius. Frequently, psychological symptoms such asdepression are associated with osteoporotic fractures.3
After the third to fourth decade of life, age-associatedbone loss in women occurs at a rate of approximately1 percent per year and at menopause, due to estrogendeficiency, accelerated bone loss occurs at a rate ofapproximately 1.5 percent to 3.9 percent per year for aperiod of about five years.4 Testing for BMD may beappropriate for: 1) diagnosis, to aid in treatmentdecisions; 2) monitoring response to therapy; or 3)evaluating the effect of concomitant medications likeglucocorticoids or medical conditions such ashyperthyroidism on BMD. In addition, testing forBMD may be appropriate for postmenopausal womenunder age 65 who have >1 risk factors forosteoporotic fractures other than menopause, andpostmenopausal women who present with fractures.Hip fractures affect more than 250,000 people in theU.S. and are associated with high morbidity andmortality rates. Approximately 20 percent of patientswill die within one year of sustaining an osteoporotichip fracture. Those who survive their injuries mayrequire placement in a long-term care facility. By theyear 2040, it is expected that the number of hipfractures in developed countries will have tripled.
Osteoporosis: Prevention and TreatmentSaira A. Jan, MS, PharmD, and Alan F. Kaul, PharmD, MS, MBA, FCCP
SummaryThis article discusses the incidence, morbidity and mortality, and common
prevention and treatment options for osteoporosis. A MEDLINE search usingselected key words was used to gather data. In the United States, osteoporosiscauses more than 1 million painful and often debilitating fractures each year.The financial implications of osteoporotic fractures are significant and accountfor more than 2 million healthcare practitioner visits each year, with projectedcosts in the billions of dollars. There is no cure for osteoporosis, but preventivemeasures can be taken to halt its onset or slow its progression.
Key Points• Approximately 20 percent of patients will die within one-year of sustaining anosteoporotic hip fracture.• Vertebral fractures total more than 500,000 annually, resulting in chronic backpain and diminished quality of life, and possibly loss of height and kyphosis.• Therapeutic options include bisphosphonates, estrogens alone or in combinationwith progestins, calcitonin, SERMS, and parathyroid hormone (hPTH [1-34]).• Of the therapeutic options, most data on fracture risk reductions have beenreported with bisphosphonates. Caution in comparing data among studiesshould be exercised due to differences in study design and patient populations.
12 Journal of Managed Care Medicine Vol. 9, No. 1
Vertebral fractures total more than 500,000 in theU.S. annually, resulting in back pain and diminishedquality of life due to loss of height and kyphosis.Limitations in activity such as bending and reachingare often associated with the postural and heightchanges seen with kyphosis. Altered thoracic andabdominal anatomy secondary to multiple thoracicfractures may result in additional morbidity.5
The financial implications of osteoporotic fracturesare significant and account for more than 2 millionhealthcare practitioner visits each year. The costs ofthese visits and associated treatments are projected tobe in the billions of dollars.2 Preventive strategies,including the use of both pharmacological therapiesas well as scanning devices, are increasinglyrecognized as important means of averting largerexpenses in the future.
Risk FactorsFracture risk is increased in those individuals with
low BMD. The relative risk of vertebral fracturedoubles and that of hip fracture increases by 2.5 timesfor each decrease of one S.D. (SD) in BMD.3,6
Numerous nonmodifiable risk factors are associatedwith the incidence of osteoporosis and low BMD.Some of these include a first-degree family history ofosteoporosis, Caucasian or Asian race, female gender,prior vertebral fracture, advanced age, dementia, and
frailty. Potentially modifiable risk factors include lowbody weight or low body mass index (BMI), estrogendeficiency from early menopause or a premenopausalbilateral oophorectomy, chronic corticosteroid use,prolonged bed rest, cigarette smoking, high intake ofalcohol or caffeine-containing beverages, lowcalcium intake, high protein or phosphate intake, andinadequate physical activity.3
Prevention and TreatmentThere are various medications approved by the
United States Food and Drug Administration (FDA)for the prevention and treatment of osteoporosis.(Exhibit 1) At this time there is no cure for osteo-porosis, but there are measures that can be taken tohalt its onset or slow its progression.
BisphosphonatesBisphosphonates provide antiresorptive therapy.They
have been shown to reduce bone loss and increaseBMD in both the spine and hip. Risedronate (RSN)has been shown to reduce the risk of vertebral andnonvertebral fractures.Hip fracture risk was reduced by30 percent in a large study with hip fracture as theprimary endpoint.7 Alendronate (ALN) has beenshown to reduce the risk of vertebral and nonvertebralfractures and to reduce the risk of hip fracture by 50 per-cent.8 Significant risk reduction has been consistently
Exhibit 1: Agents for Managing Osteoporosis
Versus Placebo BMD Spine % BMD Hip %Vertebral
Fracture % Hip Fracture %
BMD (bone mineral density)HRT (hormone replacement therapy)NR (no record)NS (not significant)F (female)M (male)
1 Treatment dosage with alendronate is 40 mg daily for six months; risedronate 30 mg daily for two months
2 If >5 years postmenopause
Glucocorticoid-Induced
OsteoporosisIndication1
F M
TreatmentIndication
F M
PreventionIndication
F M
4.9-8.8 3.4-5.9 44-48 51 Yes No Yes Yes Yes YesAlendronate
5 & 10 mg8,20-22,49
4.9-8.8 3.4-5.9 44-48 51 Yes No Yes Yes No NoAlendronate 35 & 70 mg30
5.4-5.9 1.6-3.1 41 30 Yes No Yes No Yes YesRisedronate
5 mg16 7,17
4.3-5.1 NR NR NR No No No No No NoZoledronic acid14
9-13 2.7 65-69 NR No No Yes Yes No NoTeriparatide40
5.1 2.4 NS* NS* Yes No Mngt No No NoHRT31
2.62 2.1 30-50 NS Yes No Yes No No NoRaloxifene60 mg 35,51
2.62 2.1 30-50 NS Yes No Yes No No NoCalcitonin
Nasal Spray 200 mcg20,36,52
Journal of Managed Care Medicine Vol. 9, No. 1 13
shown across treatment studies.9 ALN and RSN areapproved for the prevention and treatment of osteo-porosis in females. Only ALN has been approved forthe treatment of osteoporosis in males. Both agents areapproved for treating glucocorticoid-induced osteo-porosis.The effect of antiresorptive therapy in reducingnonvertebral fractures in women without osteoporosisin unclear.Also, the efficacy of this therapy in childrenand young adults has not been evaluated.10,11
Zoledronic acid (ZometaTM), is a relatively new andpotent addition to the bisphosphonates. It has beenapproved by the FDA for use in hypercalcemia ofmalignancy and bone metastases associated with can-cer.12 Recently, the role of zoledronic acid has beenevaluated in treatment of bone loss associated withandrogen deprivation therapy (ADT) and osteoporosisin postmenopausal women. 14,13 Like other bisphospho-nates, zoledronic acid slows osteoclastic activity resultingin decreased bone resorption.Zoledronic acid, however,differs from most bisphosphonates in that it is admin-istered intravenously, every three to four weeks.12 Thisroute of administration may help in avoiding gas-trointestinal adverse effects associated with orallyadministered bisphosphonates. Accumulated dataindicate that the dose of an individual bisphosphonateand the dosing interval are extremely important factorsin the determination of fracture prevention efficacy.13,14
Osteoporosis studies using tiludronate were stoppeddue to failure to show an effect on fracture, seeminglybecause of a lack of proper dose range finding studies.Although the dosing of zoledronic acid for investiga-tional indications is not clearly defined, investigatorsbelieve that it may be given every three months oreven at yearly intervals.14 The Health Outcomes andReduced Incidence with Zoledronic Acid Once Yearly(HORIZON) clinical trial program is recruitingparticipants to determine the safety and effectivenessof once-yearly zoledronic acid for treating osteoporosis.This dosing schedule could be attractive to manypatients who currently take oral bisphosphonates on adaily or weekly interval and could result in improvedpatient adherence.14,15
Bisphosphonate Efficacy StudiesSelected findings from some of the key bisphospho-
nate antifracture efficacy studies are outlined inExhibit 2.ALN was introduced to the U.S. market in1995 and RSN in 2000.The reduction in risk of newvertebral fractures versus placebo for RSN (41 per-cent, p=0.003) was similar to that of ALN (47 percent,p=0.02).8,16 Caution in comparing data among studieshas been recommended due to differences in studydesign and patient populations.16 For example, 16types of nonvertebral fracture sites (hip, wrist, shoulder,arm, hand, fingers, other small wrist bones, ribs,
chest/sternum, pelvis, coccyx/sacrum, leg, ankle,foot/metatarsal, toes, periprosthetic) were followed inthe Fracture Intervention Trial (FIT) trial with ALNcompared to six sites in two Vertebral Efficacy withRisedronate Therapy (VERT) trials thus precludingdirect comparisons of total nonvertebral fracturesreported.8,16,17 Different statistical analyses of fractures,different definitions of vertebral fracture reductions,and different endpoints such as new fracture analysiswith RSN versus new and worsening fracture analysiswith ALN make it difficult to assess comparability.
AlendronateIn an early major double-blind placebo-controlled
multicentered study of ALN by Liberman et al., 994postmenopausal osteoporotic women 45 to 80 years ofage were studied for change in BMD.18 Fracture pres-ence was not a criterion for study inclusion and only20 percent of patients had a baseline vertebral fracture.Women were treated with either ALN 5 mg/day or 10mg/day for three years,ALN 20 mg/day for two yearsfollowed by 5 mg/day for one year,or placebo for threeyears.18 After three years of treatment, the overall inci-dence of new vertebral fractures was reduced by 48percent with ALN versus placebo (p <0.03).Althoughthere was a demonstrated trend in benefit of ALN forprevention of nonvertebral fractures, the risk of non-vertebral fractures was not statistically different thanplacebo.At the 10 mg dose of ALN, lumbar BMD wasincreased by 8.8 percent, femoral neck BMD by 5.9percent, and trochanter BMD by 7.8 percent. In a 24-month continuation of the same study, Favus et al.demonstrated continuation of the increased BMDeffect with ALN. 19 In a further two-year extensionbringing the duration of use to seven years, ALN 10mg daily increased BMD at the lumbar spine by 11.4percent.The proportion of women whose spine BMDincreased relative to that at month 0 was 97 percent.19
The FIT research group evaluated 2,027 women 55to 81 years of age with >1 vertebral fractures at base-line and a reduced BMD.8 Patients were randomized toreceive either ALN 5 mg/day for two years followedby 10 mg/day in year three or placebo. After threeyears, the ALN-treated patients had a 47 percent riskreduction in vertebral fractures, a 20 percent riskreduction in nonvertebral fractures, and a 51 percentrisk reduction in hip fractures.This study was stoppedearly by an independent safety and monitoring boarddue to the dramatic decrease in hip fractures amongthe ALN-treated patients. In another FIT study, 4,432women with mildly low BMD (mean total hip T-score-1.6) but no vertebral fractures were randomized toreceive ALN 5 mg/day for two years followed by 10mg/day or placebo.20 The incidence of vertebralfracture was reduced by 44 percent.
14 Journal of Managed Care Medicine Vol. 9, No. 1
In a multinational double-blind, placebo-controlledtrial, 1,908 postmenopausal women with a lumbarBMD > 2SDs below the postmenopausal adult meanwere randomly assigned to receive either ALN 10 mgor placebo for one year. 21 Compared to placebo atone year, mean increases in BMD were 4.9 percent atthe lumbar spine, 2.4 percent at the femoral neck, and3.6 percent at the trochanter.The incidence of non-vertebral fractures was lowered by 47 percent in justone year. In a two-year double-blind study of 241men aged 31 to 87 years with primary osteoporosis,significant increases in BMD were demonstrated inthe group treated with ALN 10 mg/day compared toa placebo-treated group.22 The incidence of vertebral
fractures and decreases in height loss were also lowerin the ALN-treated group.
To investigate whether the incidence of vertebralfractures is related to the magnitude of change in BMDwith ALN therapy, Hochberg et al. enrolled 2,984women aged 55 to 81 in a study who were already par-ticipating in the FIT trial.23 While participating in FIT,patients were treated with ALN 5 mg/day for twoyears, then 10 mg/day for the remaining 12 to 30months of the study. After 12 months of therapy, 35percent of study population experienced increases of>3 percent in total hip BMD, and 21 percent hadeither decreased total hip BMD or no change. Only3.2 percent of women with increases of >3 percent in
Exhibit 2: Antifracture Efficacy Studies With Alendronate or Risedronate
Trial/Investigator
Time Frame(Months) Methods % ∆
Lumbar Spine% ∆
Femoral Neck*% ∆
Trochanter
RiskVertebralFracture
36
ALN (n=526)a) 5 mg/day or 10 mg/day
for 3 yearsb)20 mg/day for 2 years,
then 5 mg/day for 1 yearPBO (n=335)
8.8% 5.9% 7.8%48%
(pooled doses)55%,10 mg
NS –Liberman24
24 Same as above 9.4% 4.8% 9.1% – – –Favus19
36
ALN 5 mg/day for 2 yearsthen 10 mg/day for year3 (n=1,022), or PBO(n=1,005)
6.2% 4.1% 6.1% 47% –
51% of hipfractures; 90%of multiplevertebral fracture; 48%wrist fracture
Age 70-79 withosteoporosis:RSN 2.5 mg (n=1,812)RSN 5.0 mg (n=1,812)PBO (n=1,821)
Age > 80 and > 1 riskfactor for hip fracture:RSN 2.5 mg (n=1,281)RSN 5.0 mg (n=1,292)PBO (n=1,313)
2.1% 3.8%
3.4% 4.8%
Reported asrelative riskreduction
Significant hip fracturerisk reductionin elderlywomen withconfirmedosteoporosis,age 70-79, butnot amongelderly womenselectedprimarily onthe basis ofrisk factorsother than low BMD
McClung7
BMD (bone mineral density)ALN (alendronate) RSN (risedronate)PBO (placebo)NS (not significant)
All p values statistically significant at a minimum of < 0.05Note: Severity of baseline disease may have an effect on short-term outcome. Baseline hip T scores range from (-1.6) to (-4.0). It is easier to demonstrate fracture effect at three years in patients with high immediate fracture risk based on bone density due to the larger numbers of events.
RiskOther
Fractures
RiskNonvertebral
Fracture
Journal of Managed Care Medicine Vol. 9, No. 1 15
total hip BMD experienced new vertebral fractures.Fifty percent more women, whose BMD stayed thesame or declined, experienced new fractures: 6.3percent versus 3.2 percent (adjusted odds ratio of 0.45,95 percent CI 0.27-0.72).Women with increases of >3percent in BMD during the first one or two years ofALN treatment had the lowest incidence of new ver-tebral fractures. Among women taking ALN, thosepatients experiencing greater increases in BMD had adecreased risk of new vertebral fractures.
In an alternate dosing schedule of alendronate,Rizolli et al. looked at 70 mg weekly, 35 mg biweekly,and 10 mg daily of alendronate and the effects onBMD.24 The two-year study enrolled 1,258 post-menopausal women age 42 to 95 with osteoporosis.The results showed increased BMD of the spine in theweekly, biweekly, and daily alendronate by 6.8 percent,7.0 percent, and 7.4 percent, respectively. Increases inBMD of the hip, femoral neck, and total body werealso seen. The study notes that the three treatmentgroups had similar rates of fractures and adverse events.
RisedronateIn the VERT study, a randomized, double-blind,
placebo, parallel-group study,Harris et al. placed 2,458women <85 years of age, >5 years postmenopausal,with >2 vertebral fractures or one fracture with lowBMD into three treatment groups: RSN 2.5 mg/day,RSN 5 mg/day, or placebo.16 After one year the 2.5mg/day group was discontinued by protocol amend-ment because of lack of efficacy. After three years oftreatment, 450 patients in the placebo group and 489in the RSN 5 mg/day were compared. Mean BMDincreases at three years in the RSN group were 4.3percent at the lumbar spine, 2.8 percent at the femoralneck, and 3.9 percent at the trochanter. The overallincidence of new vertebral fractures was reduced by41 percent and new nonvertebral fractures by 39 per-cent. No difference in hip fractures between the treat-ment and control groups were reported.
Reginster et al. conducted a double-blind, random-ized, placebo-controlled trial in 1,226 postmenopausalwomen >2 vertebral fractures. Fracture rates werecompared in patients treated with either 2.5 mg/dayor 5 mg/day of RSN with patients receiving placebo.17
At the end of three years, the risk of new vertebralfractures was reduced by 49 percent and new non-vertebral fractures by 33 percent, although the latterdid not achieve statistical significance (p=0.063). Nodifference in hip fracture risk was demonstrated.Meanincreases in BMD were 5.9 percent at the lumbarspine, 3.1 percent at the femoral neck, and 6.4 percentat the trochanter.
In a study of two groups of elderly women,McClung et al. evaluated 5,445 women age 70 to 79
with confirmed osteoporosis who were treated withRSN 2.5 mg (n=1,812), RSN 5 mg (n=1,812), orplacebo (n=1,821) and a second group of women >80years of age and >1 risk factor for hip fracture treatedwith RSN 2.5 mg (n=1,281), RSN 5 mg (n=1,292),or placebo (n=1,313).7 The original plan was to com-pare each individual dose against placebo.The analysiswas modified to pool both doses of RSN compared toplacebo.There was a significant reduction in the risk ofhip fracture in elderly women age 70 to 79 but notamong women over age 80 who were selected pri-marily on the basis of risk factors other than low BMD.
McClung’s findings warrant further examination.7
The reduction in the fracture rate was not observed inwomen who were selected based on risk factors otherthan low BMD.The reduction in radiographically con-firmed hip fractures included both symptomatic andasymptomatic fractures.The hip fracture results includedpooled data from 2.5 and 5.0 mg/day treatmentgroups.However, in the 70 to 79 age group,when theRSN treatment groups were looked at separately, the2.5 mg/day treatment group showed a statistically sig-nificant increase in hip fracture risk but the 5 mg/daytreatment group did not. In the study by Harris et al.,the results with the 2.5 mg dose were comparable toplacebo.16 Based on NHANES data, the incidence ofosteoporosis is very high in women over age 80.Among the 941 older women with known low BMD(T score ≤2.5), the incidence of hip fracture was 7.2percent with RSN vs. 9.7 percent with placebo(p=n.s.) showing no benefit with RSN therapy.7
To determine the effect of risedronate on vertebralfractures in high risk patients,Watts et al. pooled datafrom previous studies and selected a subset of olderpatients with prior vertebral fractures or lowerBMD.25 Risedronate 5 mg/day was found to reducethe relative risk of a vertebral fracture by 62 percent(p <0.001), and multiple new fractures by 90 percent(p <0.001) when compared to placebo at one year.
A two-year randomized,double-blind study evaluatedrisedronate 35 mg or 50 mg weekly versus risedronate5 mg daily in 1,456 postmenopausal women withosteoporosis.13 Measurements at one year showed anincrease in BMD of the lumbar spine by 3.9 percent,4.2 percent, and 4.0 percent for the participantsreceiving 35 mg weekly, 50 mg weekly, and 5 mg dailyregimens, respectively.The study concluded that onceweekly regimens of risedronate provided the samesafety and efficacy, as measured by gastrointestinal sideeffects, as daily regimens.
controlled trial investigated the optimal dosing of zole-dronic acid in 351 postmenopausal women with low
16 Journal of Managed Care Medicine Vol. 9, No. 1
BMD of the lumbar spine. Patients were randomizedto one of seven regimens, which included zoledronicacid 0.25 mg, 0.5 mg, or 1 mg given every threemonths; zoledronic acid 2 mg at six-month intervals ora single infusion of zoledronic acid 4 mg at the begin-ning of the trial; or placebo.14 All participants received1 gram oral calcium supplementation daily.The studymeasured the changes in lumbar spine, femur, forearm,and total body BMD using Dual-Energy X-rayAbsorptiometry (DEXA).The results showed that theincreased BMD of the lumbar spine (up to 5.1 percent)and femur (up to 3.5 percent) were significantly greaterin patients receiving zoledronic acid versus placebo(p <0.001). The total body BMD and forearm alsoresponded favorably to treatment with zoledronic acidbut to a smaller degree.The results did not show a sig-nificant difference in lumbar spine BMD among thedifferent regimens of zoledronic acid.14
In a multicenter, double-blind, placebo-controlledtrial, 106 men beginning androgen deprivation therapy(ADT) for nonmetastatic prostate cancer, wererandomly assigned to 4 mg zoledronic acid or place-bo every three months for one year. ADT reducestestosterone and estrogen and can cause bone loss, orosteoporosis.26 The study looked at the change inBMD of the lumbar spine, measured by DEXA, afterone year of zoledronic acid therapy.The results showeda 5.6 percent increase in BMD of the lumbar spine inthe patients treated with zoledronic acid versus aBMD decrease of 2.2 percent in the patients receivingplacebo (p <0.001).26
Gastrointestinal Side Effects of the Bisphosphonates
The major safety concern with bisphosphonates isthe irritant effect that they may have on the gas-trointestinal tract and their association with pain,esophagitis, and gastritis. Details of selected analysesof gastrointestinal side effects can be found in Exhibit3. Caution is recommended in comparing resultsamong studies because of varying populations andco-morbidities. Of note, many controlled trials forboth ALN and RSN, the adverse occurrence ratesdid not differ between placebo controls and treatedpatients.27-29 Outside of carefully controlled clinicaltrial environments, patients may not be compliantwith instructions to take the drug with a full glass ofwater upon rising, to remain in the sitting or standingpositions, and to avoid any food for 30 minutes.Noncompliance with recommended instructionsmay affect the potential for adverse effects as well asaffecting bioavailability and efficacy.
As the gastrointestinal intolerance to bisphospho-nates has been shown to relate in part to its exposuretime to the esophageal and stomach mucosa, reducing
the dosing interval from daily to biweekly or weeklymay help to reduce the iatrogenic effect. In a recentstudy, Schnitzer et al. compared the effect of dosing ofALN 70 mg/week, 35 mg/twice weekly, and 10mg/daily on GI side effects.30 The authors’ findingssuggested that, consistent with earlier animal models,once weekly dosing has the potential for improvedgastrointestinal tolerability.They concluded that onceweekly dosing of 70 mg ALN will provide patientswith a more convenient, therapeutically equivalentalternative to daily dosing, and may enhance com-pliance and long-term persistence with therapy.
Hormone Replacement TherapyIn postmenopausal women, estrogen or estrogen in
combination with progestin (hormonal replacementtherapy,or HRT) has been shown to reduce bone loss,and increase bone density in both the spine and hip.31
However, fracture benefit has not been establishedwith HRT in a large, prospective, randomized fracture-endpoint study. In the Heart and Estrogen/progestinReplacement Study (HERS), a prospective placebo-controlled trial looking at secondary prevention ofcardiovascular disease, no statistically significantreduction in hip or any other fracture was demonstratedamong 2,700 women, in up to 4.1 years follow-up.31 Inanother large prospective trial, the WHI (Women’sHealth Initiative) evaluated the role of HRT in primaryprevention of CHD with invasive breast cancer as theprimary adverse outcome.The combined HRT com-ponent of the study was terminated early due to anincreased risk of invasive breast cancer. Somewhatunexpectedly, an increased risk for CHD, stroke, andpulmonary embolism was also seen.Among the benefitsobserved were a decreased risk of hip fractures, col-orectal cancer, and endometrial cancer.32,33 HRT isFDA indicated for prevention but not for treatmentof osteoporosis.
like raloxifene, appear to prevent bone loss at the spine,hip, and total body and are approved for preventing andtreating osteoporosis in women. Unlike estrogens,SERMs do not appear to stimulate uterine or breasttissue. Raloxifene has been shown to prevent morpho-metric vertebral fractures, but has not demonstratedefficacy in preventing hip or other nonvertebralfractures.34 In a large clinical trial, raloxifene reducedthe risk of vertebral fractures among women treated for36 months by 30 to 50 percent.35 In the same study, by40 months raloxifene-treated women had an increasedrisk of venous thromboembolism versus placebo (RR,3.1; 95 percent CI, 1.5-6.2) and comparable to that ofestrogen (RR ≈ 3) reported in observational trials.35
Journal of Managed Care Medicine Vol. 9, No. 1 17
CalcitoninCalcitonin is a hormone involved in calcium
regulation and bone metabolism. The drugcompound calcitonin salmon cannot be takenorally due to its low bioavailability and is generallyadministered as a nasal spray daily. In a five-yeardouble-blind randomized placebo-controlledstudy, at 200 IU daily, calcitonin salmon nasal spraysignificantly reduced the risk of newmorphometric or radiographic vertebral fracturesin postmenopausal women with osteoporosis by 36percent.36 In the trial, a dose-response curve was notdemonstrated since the reductions in vertebralfractures at the 100-IU and the 400-IU groupswere not significantly different from placebo.
Lumbar spine bone mineral density increasedsignificantly from baseline at all three dose levels,but not significantly from placebo. Risk reductionfor nonvertebral fractures was not significant.Overall, only 41 percent of subjects completed thefive-year trial.
TeriparatideTeriparatide (rDNA origin) is a 34-amino acid
analogue of parathyroid hormone (hPTH [1-34])and is indicated in the treatment of osteoporosis inpostmenopausal women at high risk for fractures aswell as men with osteoporosis of hypogonadal oridiopathic origin.37 It is not currently recommendedfor more than two years of therapy because clinical
Primary Phase III Trial Data and Fracture Intervention Trial
Phase III Trials—OverallALN 5 mg=40.2ALN 10 mg=42.3ALN 20 mg/5 mg=36.6PBO=39.0
FITALN=41.3%PBO=40.1%
In Phase III Trials, of all upperGI AEs only abdominal painand dysphagia occurred signifi-cantly more often with ALN 10mg than PBO (20%,10% vs.13.9%,9.6%).
Watts29
RSN 5 mg (n=255)ALN 10 mg(n=260)X 2 weeks
Randomized controlled RSN=4.1%ALN=13.2%
Results of gastric ulcer occurrence reported.Difference is significant at p<0.001.
Lanza55
ALN 10 mg/dailyPBO Randomized, crossover ALN=38%
PBO=13%
Therapy evaluated at 7 and14days. Endoscopic presence ofmucosal damage evaluated.
Overall similar incidence. Trend to fewer serious GI and esophageal events withweekly dosing.
Schnitzer30
ALN 10 mg/day orNaproxen 500 mg twice daily or the combination ofALN 10 mg/day plusNaproxen 500 mg twice daily
Randomized, single center,crossover
ALN=8%Naproxen=12%Combination=38%
P<0.5 for the combination vs.either drug regimen. Resultsconflict with large body of clinicaldata looking at patients treatedwith NSAIDS while on ALN.
Graham57
ALN (alendronate)RSN (risedronate)
PBO (placebo)ASA (aspirin)
GI (gastrointestinal) AE (adverse event)
trials have not been conducted to provide outcomesof long-term efficacy and safety. Teriparatide is apeptide that must be injected on a daily basis.Teriparatide has been shown to restore bone andincrease BMD. Its actions are similar to those ofendogenous PTH, regulating calcium resorption inbone, calcium, and phosphate excretion in the kidney,and intestinal calcium absorption.37 Once dailyadministration of teriparatide preferentially activatesosteoblastic activity and increases bone mass, boneformation, and BMD.37-39 Teriparatide has also beenshown to reduce the relative risk of vertebral andnonvertebral fractures in postmenopausal women byup to 65 percent and 47 percent respectively, asmeasured by radiographic assessment.40 Reportedside effects were mild and included nausea andheadache.40 Osteosarcoma was observed in rats treatedwith high doses of teriparatide, but neoplastic activityhas not been observed in humans.37 Teriparatide useis contraindicated in pediatric patients and in thetreatment of Paget’s disease because these populationshave an increased rate of bone turnover, and may beat higher risk of developing osteosarcomas. Becauseof this potentially serious association with osteosar-coma, teriparatide carries a black box warning.
Teriparatide Efficacy StudiesIn a three-year randomized controlled trial of 34
postmenopausal women with osteoporosis, Lindsay etal. examined the effect of hPTH [1-34] on vertebralbone mass measured by DEXA.41 The study comparedthe effects of hPTH [1-34] and HRT versus HRT only,with lumbar vertebral BMD as the primary endpoint.BMD of the hip, forearm, and total body were alsomeasured.The 17 patients randomized to take 25 mcghPTH daily in addition to HRT showed a significant13 percent increase in BMD of the vertebrae, whereasthe group receiving only HRT showed no increase invertebral BMD (p <0.001).There was a small but sig-nificant increase (2.7 percent) in BMD of the hip in thehPTH treated group versus no change in the controlgroup (p=0.05).The study also showed an increase intotal body BMD increase of 7.8 percent in the hPTHtreated group versus no change in the control group (p<0.002).Although a reduction in vertebral fractures wasnot a defined endpoint of this study, a difference wasnoted. Of the 13 vertebral fractures occurring duringthe study, 10 (77 percent) were noted in the controlgroup (p <0.03).The authors of the study note, how-ever, that these findings should be validated in a largerstudy with vertebral fractures as a defined endpoint.41
In a multinational, double-blind, placebo-controlledtrial, 1,637 postmenopausal women with known ver-tebral fractures were randomly assigned to 20 mcg or40 mcg teriparatide, or placebo. All participants also
received 400 IU Vitamin D and 1,000 mg calciumsupplements daily. The primary endpoint was newradiographically diagnosed vertebral fractures. Theaverage follow-up time was 19 months. Results indi-cated that teriparatide reduced the relative risk of anew vertebral and nonvertebral fracture by 65 percentand 53 percent, respectively. Teriparatide was alsoshown to significantly increase BMD of the lumbarspine, hip, neck, as well as total body BMD.40
Combination TherapyMore recent studies sought to examine the potential
benefits of concomitant therapy with parathyroidhormone and alendronate. A 12-month randomized,double-blind, placebo-controlled trial of 238 womenwith loss of BMD at hip or spine (T >2.5 or T >2.0with one risk factor for osteoporosis) compared thebenefits of using each agent alone daily (10 mg alen-dronate or 100 mcg of parathyroid hormone, PTH(1-84)) versus a daily combination of parathyroid hor-mone and alendronate.42 In contrast to the hypothesisthat a combination of these agents would providebenefits superior to those produced with either agentalone, a synergistic effect between alendronate andparathyroid hormone was not evident.42 A secondstudy investigated the use of alendronate, parathyroidhormone (synthetic hPTH(1-34), or a combination ofthese medications in men. 43This trial involved 83 menwho were randomly assigned to alendronate 10mg/day, parathyroid hormone 40 µg, or a combinationof these treatments.43 Because parathyroid hormoneincreases bone formation, it was theorized that com-bining hPTH (1-34) with an antiresorptive agentwould increase BMD more than either agent alone.Atthe conclusion of the trial, however, it appeared thatalendronate may actually decrease parathyroid hor-mone’s beneficial effects on bone mineral density.43
Another study treating men and women with osteo-porosis compared daily versus cyclic PTH 25 mcgwith alendronate to alendronate alone in treatingosteoporosis.44 In the interim analysis of the study of83 patients completing nine months of therapy, PTHwas shown to increase BMD and stimulate bonegrowth in patients already established on long-termalendronate therapy.The authors conclude that shortcyclic challenges with PTH might be an efficient andeconomical way to use PTH in treating osteoporosis.
Treatment of Glucocorticosteroid-InducedOsteoporosis
Although it is well known that therapy withhigh-dose glucocorticoids can cause osteoporosis, ithas recently become evident that low-dose gluco-corticoids can also induce bone loss, particularly oftrabecular bone. Bone loss occurs rapidly during the
18 Journal of Managed Care Medicine Vol. 9, No. 1
first six months of glucocorticoid use, and persiststhereafter at a slower rate, with overall bone lossoccurring at a rate of 3 percent to 10 percent peryear. Daily doses of prednisone or its equivalent aslow as 5.0 mg can result in substantial bone loss andincreased fracture risk.45 Up to one quarter ofpatients receiving long-term glucocorticoid therapysustain osteoporosis fractures.46
Some, but not all, studies suggest that calciumsupplementation alone may help to maintain bonemass in patients treated with low to medium dosesof glucocorticoids. Vitamin D3 and its analogsimprove calcium absorption and stabilize bonemineral density of the lumbar spine. Hormonereplacement therapy may also maintain bone mineraldensity in postmenopausal women with glucocorti-coid-induced osteoporosis.The bisphosphonates alsomaintain or modestly improve lumbar spine andmaintain bone mass, and are the only agents that havebeen shown to reduce fracture rates in patients onglucocorticoid therapy.45
In July 2001, the American College ofRheumatology Task Force on Osteoporosis updatedguidelines for the prevention and treatment of
glucocorticoid-induced osteoporosis.The Task Forcerecommended that all patients maintain an adequateintake of calcium (1,000 mg daily) and Vitamin D(800 IU daily).45 Bisphosphonates are recommendedto prevent and treat bone loss in men andpostmenopausal women. In hypogonadal patientsfor whom long-term glucocorticoid therapy (>3months) at doses >5 mg/day is being initiated, HRTis recommended. It is reasonable to predict that theguidelines will be updated to reflect new findingsfrom clinical trials, as well as information regardingnew agents and combination therapies.
Several retrospective and prospective cohort studiesregarding the treatment of corticosteroid-inducedosteoporosis with bone-sparing agents exist, butthese studies are open to more types of bias than arecontrolled trials.47 Exhibit 4 presents a number ofcontrolled clinical trials utilizing bisphosphonatesand showing good evidence for reducing boneloss in patients with glucocorticoid-inducedosteoporosis.48,46,49 There is considerable variation inthe magnitude of the effects of bisphosphonatetherapy across studies and in the baseline and placebofracture rates. Therefore, Homik and colleagues
Journal of Managed Care Medicine Vol. 9, No. 1 19
Exhibit 4: Treatment of Glucocorticosteroid-Induced Osteoporosis
Trial
Saag58
Drug/Dose Control Duration Patient Type % ∆ BMDLumbar Spine
% ∆ BMD inFemoral Neck
% ∆ BMD inTrochanter
RiskVertebral Fracture
ALN 5 mg/day(n=161)
ALN/10 mg/day(n=157)
PBO(n=159)
Ca + VitD 48 weeks477 men andwomen, age
17-83
2.1%
2.9%
-0.4%
1.2%
1.0%
-1.2%
1.1%
2.7%
-0.7%
Overall incidenceof 2.3% in ALN-treatedgroup and 3.7% in PBO group
Cohen46
RSN 2.5 mg/day(n=75)
RSN 5.0 mg/day(n=76)
PBO(n=77)
Ca 12 months228 men andwomen, age
18-85
-0.1%
0.6%
-2.8%
-4
0.8
-3.1%
-2%
1.4%
-3.1%
Trend towardreduction in number of fractures
Reid48
RSN 2.5 mg/day(n=94)
RSN 5 mg/day(n=100)
PBO(n= 95)
Ca + VitD 12 months290 men andwomen, age
18-75
1.9%
2.9%
0.4%
-0.2%
1.8%
-0.3%
0.1%
2.4%
1.0%
Though not powered to showfracture efficacy,70% reduction invertebral fractures
Eastell59
RSN 2.5 mg/day(n=40 )
RSN 15 mg/day for 2, then PBO daily for 10 weeks, then repeat(n=40)
PBO (n=40)
24 months
12-month no-treat
follow-up*
120 women
1.4%
-0.05%
-2.3%
-1.0%
0.9%
-4.0%
-0.4%
1.3%
-4.0%
Not reported
Adachi49
(Extension ofSaag study)
ALN 5 mg/day(n=63)
ALN/10 mg/day(n=55)
PBO(n=61)
ALN 2.5.g/10 mg/day(n=29)
Ca + VitD 24 months 208 patients,age 21-79
2.84%
3.85%
-0.77%
3.69%
0.11%
0.61%
-2.93%
-0.43%
2.16%
3.91%
-1.21%
1.73%
Overall incidenceof 0.7% in ALN-treatedgroup and 6.8% inPBO group; 90% reduction in vertebral fracture
BMD (bone mineral density)PBO (placebo)
T (treatment group) Ca (calcium)
RA (rheumatoid arthritis)
20 Journal of Managed Care Medicine Vol. 9, No. 1
conducted a meta-analysis on the use of bisphos-phonates in corticosteroid-induced osteoporosisthat included studies using cyclic etidronate,pamindronate, and some but not all of the studiespresented in Exhibit 4.50 Homik et al. concludedthat bisphosphonates are effective at preventing andtreating corticosteroid induced bone loss at thelumbar spine. Bone density changes are correlatedwith fracture risk and bisphosphonates whiledemonstrating a statistically significant treatmenteffect on femoral BMD, the magnitude was lessthan that seen at the lumbar spine.50
ConclusionThere is no cure for osteoporosis, but there are
preventive measures that can be taken to halt itsonset or slow its progression. Therapeutic optionsinclude bisphosphonates, estrogens alone or incombination with progestins, calcitonin, SERMS,and parathyroid hormone (hPTH [1-34]). Of thetherapeutic options, most data on fracture riskreductions have been reported with bisphospho-nates. Caution in comparing data among studiesshould be exercised due to differences in studydesign and patient populations.
Bisphosphonates provide antiresorptive therapy,which reduces bone loss and increases BMD in boththe spine and hip. Although estrogen alone or incombination with progestin in postmenopausalwomen has been shown to reduce bone loss andincrease bone density and reduce fractures in boththe spine and hip without noted fracture benefit,concern has been noted with its combined use dueto an increased risk of invasive breast cancer, CHD,stroke, and pulmonary embolism.31 Salmon calci-tonin nasal spray significantly reduced the risk ofnew morphometric or radiographic vertebral frac-tures in postmenopausal women with osteoporosis.Selective estrogen receptor modulators appear toprevent bone loss at the spine, hip, and total bodyand are approved for preventing and treating osteo-porosis in women. Unlike estrogens, SERMs do notappear to stimulate uterine or breast tissue.Raloxifene has been shown to prevent morphome-tric vertebral fractures, but has not demonstratedefficacy in preventing hip or other nonvertebralfractures. Teriparatide has been shown to restorebone and increase BMD. JMCM
Saira A. Jan MS, PharmD, is director of clinical programs in pharmacymanagement and associate professor at Rutgers State University of NewJersey. Jan is also the director of research program at Horizon Blue CrossBlue Shield of New Jersey. At Rutgers, her areas of expertise are man-aged care, pain management and connective tissue disorders. Alan F.Kaul, PharmD, MS, MBA, FCCP, is president of Medical OutcomesManagement Inc. and has more than 30 years of healthcare clinical, man-
agement and consulting experience. He holds appointments as adjunctprofessor of pharmacy practice at the Massachusetts College ofPharmacy and Health Sciences (Boston) and as adjunct professor of phar-macy practice at the University of Rhode Island College of Pharmacy.
AcknowledgementThe authors wish to thank Brandon Cherenzia, PharmD candidate, for his assistancein the preparation of this manuscript.
Data SourcesA MEDLINE literature search (1966-2004) was conducted using the key wordsof osteoporosis, osteopenia, bisphosphonates, alendronate, risedronate, calcitonin,selective estrogen receptor modulators, raloxifene, and parathyroid hormone.Information provided by established un-based organizations such as theNational Osteoporosis Foundation were also researched. Additional referenceswere added based on the bibliographies of the articles selected for inclusion.
parison of esophageal and gastroduodenal effects of risedronate and alendronate in
postmenopausal women [see comments]. Gastroenterology. 2000;119:631-638.
56. Graham DY, Malaty HM.Alendronate gastric ulcers. Alimentary Pharmacology &
Therapeutics. 1999;13:515-519.
57. Graham DY, Malaty HM. Alendronate and naproxen are synergistic for devel-
opment of gastric ulcers. Arch Intern Med. 2001;161:107-110.
58. Saag KG, Emkey R, Schnitzer TJ et al.Alendronate for the prevention and treat-
ment of glucocorticoid-induced osteoporosis. N Engl J Med. 1998;339:292-299.
59. Eastell R, Devogelaer JP, Peel NF et al. Prevention of bone loss with risedronate
in glucocorticoid-treated rheumatoid arthritis patients. Osteoporosis International.
2000;11:331-337.
Journal of Managed Care Medicine Vol. 9, No. 1 21
22 Journal of Managed Care Medicine Vol. 9, No. 1
OSTEOARTHRITIS IS THE MOST prevalentchronic joint disorder worldwide and is associated withsignificant pain and disability.1 It has been estimatedthat OA costs approach $150 billion annually in theU.S.2 and affects 20 million people.3 The disease is twotimes more frequent in females than males, and itaffects 70 percent of the population over age 65.2 Thisis a relentlessly progressive disease that continues toworsen with aging.
Osteoarthritis OverviewFocusing on the knee,OA is progressive deterioration
of the articular cartilage of the tibiofemoral and/orpatellofemoral compartments.2 The etiology of OA isthought to be multifactorial,with genetics being one ofthe driving forces.3 Some common contributors to OAdevelopment are trauma to the articular cartilage, pooralignment of the joint, anatomy of the patella, jointinstability, meniscus tear, obesity, athletic training, andsmoking.3 Typical symptoms of OA of the knee include• diffuse activity-related pain• localized pain that may radiate up or down the leg• pain exacerbated by activity, stairs, squats, or hills• clicking, catching, grinding, grating sounds
• mechanical symptoms• night pain• recurrent swelling• post inertial dyskinesia• pseudoinstability/pseudo locking of the joint.
Patients may experience mechanical symptomsbecause of loose fragments of articular cartilage. Asthe disease progresses, night pain develops and isuncontrollable in some cases. Disturbed sleep is oftenwhat prompts a patient to seek a knee replacement.Post-inertial dyskinesia is stiffness in the knees thatoccurs after a period of immobility, such as after a longflight or movie.Patients will often have episodes of theirknee giving away, or instability called pseudoinstabilityor pseudolocking, which is a pain response.
Osteoarthritis is traditionally thought of as a nonin-flammatory type of arthritis, but inflammatory mecha-nisms can be present.Pain with OA can derive from sev-eral sources resulting from the disease process. Pain canoriginate from the synovial membrane, joint capsule,periarticular muscles and ligaments, and periosteum andsubchondral bone, among other sources.2 One source ofdeep pain is vascular congestion in the subchondralbone that happens late in the disease process. Another
Treatment Options for Osteoarthritis of the KneeRobert Dimeff, MD
SummaryOsteoarthritis of the knee is a common, costly disorder. The etiology is multi-
factorial, with genetics playing a large role. Treatment should be individualizedand may include nonpharmacologic, pharmacologic, and surgical treatments orsurgery to improve pain. Of the pharmacologic options, glucosamine and chon-droitin supplements and hyaluronans may promote cartilage growth and possiblyalter the disease process. Future research will focus on combination therapy,gene therapy, and cartilage transplants.
Key Points• Osteoarthritis (OA) affects 20 million people in the United States.• OA of the knee is progressive deterioration of the articular cartilage of theknee joint, which is important for optimal functioning of the knee joint.• Significant pain results from changes in the joint. Although analgesics canhelp relieve the pain, they do not alter the course of the disease.• Hyaluronans are as effective as NSAIDs for pain relief and have a longerduration of action than articular steroid injections.• Growing evidence suggests that glucosamine, chondroitin supplements, andhyaluronans may promote cartilage growth and possibly alter the OA disease process.
Journal of Managed Care Medicine Vol. 9, No. 1 23
source of pain is joint contracture secondary to fibrosis.Irritation of the synovium by osteophytes (bone spurs)that form can sometimes be a source of pain. Musclespasms surrounding the joint can cause discomfort.
The evaluation of a patient with knee OA wouldinclude a history of symptoms and injuries, an exami-nation of the knee, and radiographs.2,5 Because articularcartilage is not visible on X-ray,OA of the knee is iden-tified on radiographs as a narrowing of the joint space.
Articular CartilageArticular cartilage covers the ends of the bones
within the joint.The cartilage facilitates joint move-ment by providing a smooth surface, absorbs forces ofimpact and weight delivered to the joints, and helpsmaintain joint structure.2
Articular cartilage is composed of chondrocytes,matrix, and water. Articular cartilage is primarilywater, as is the rest of the body. Chondrocytes makeup about 1 to 5 percent of the tissue volume.2 Theextra cellular matrix is 70 percent type II collagen and30 percent proteoglycans.2 Under normal circum-stances, articular cartilage undergoes continuousbreakdown and renewal. Chondrocytes control therate of cartilage synthesis and breakdown in partthrough secretion of proteolytic enzymes.Chondrocytes use amino acids, carbohydrates, andwater to make glycosaminoglycans (GAGs), whichare the building blocks of the matrix. 2 Chondrocytesrelease GAGs, which combine with collagen fibrils toform the matrix.The predominant GAGs in cartilageare chondroitin sulfate, keratan sulfate, and hyaluron-ic acid. With the exception of hyaluronic acid, allGAGs bond with a core protein to form proteoglycanmonomers that provide compressive strength.2
Collagen in the matrix provides tensile strength.When considering treatment, it’s especially important
to consider that the articular cartilage has no blood,nerve, or lymphatic supply. Its nutrition comes eitherfrom the subchondral bone or from the synovial fluid.
With aging, the matrix experiences an increase inwater, a decrease in the quality of the proteoglycans,smaller aggrecan molecules, a decrease in collagencontent, and a conversion from type II to type I (scar)cartilage (see Exhibit 1).6 Numerous changes occurthat ultimately result in a decrease in articular cartilagestrength, increased stiffness, and increased nitric oxide,an oxidating agent. Nitric oxide leads to cell death, orapoptosis of the chondrocyte. Metalloproteinases,which basically destroy articular cartilage, also increasewith aging.With the onset of OA, hyaluronic acid—acomponent that gives the joint fluid elasticity andcompression qualities—tends to be smaller and pro-duced in smaller quantities, and works less efficiently.The aging process, unfortunately, means that synovial
fluid is less effective because of alterations in hyaluronicacid function and production.Aging also decreases theability of chondrocytes to maintain and restore articularcartilage and, thereby, increases the risk of degenerationof the articular cartilage surface.6
Treatment of OsteoarthritisThe two major objectives of treatment are to
decrease pain and attempt to delay the progressionof osteoarthritis. The management of osteoarthriticpain involves nonpharmacologic, pharmacologic,and surgical modes of therapy.
Nonpharmacologic TherapyThe American College of Rheumatology (ACR)
guidelines recommend patient and family education,support groups,weight loss, physical therapy, exercise,and occupational therapy.4
Helping overweight patients with knee OA loseweight will improve pain and may prevent progressionof the disease. Assistive devices, such as heel wedgesand neoprene sleeves to correct abnormal biomechan-ics of the knee joint, may also be used.
Pharmacologic TreatmentOral pharmacologic options for pain management
include acetaminophen, nonsteroidal anti-inflamma-tory agents (NSAIDs), and cyclooxygenase type 2(COX-2) inhibitors (see Exhibit 2).4 Acetaminophen(Tylenol) is recommended as first line therapy formild to moderate pain. Over the counter NSAIDsand topical analgesic creams are also options. TheACR guidelines recommend COX-2 inhibitors andprescription NSAIDs for moderate to severe pain.4
Because of the adverse effects associated with theseagents, many clinicians are avoiding their long-termuse. Short courses are used during flare-ups.
Corticosteroid injections are also used for acuteflare-ups.Although the role of corticosteroid injectionsin OA is not well defined, many times these agents areused to decrease inflammation in a joint so that thepatient can move better and be able to fully participatein and benefit from physical therapy.
Hyaluronan InjectionsBecause of the many significant systemic adverse
effects of analgesics and the fact that they only con-trol pain and do not alter the course of the disease,many clinicians have begun using intra-articularhyaluronan injections earlier in the course of the OAdisease process.The ACR guidelines also recommendearly considerations of these agents.4 When initiallyapproved, these agents were primarily used forpatients who had failed other forms of therapy.
Five hyaluronan injection products are available inthe U.S. (see Exhibit 3).The products differ in size ofthe hyaluronan and origin. Four products are extractedfrom rooster combs.7-8 The fifth, Euflexxa®, is differentin that it’s bioengineered through bacteria fermenta-tion, thereby avoiding patient exposure to proteinsfrom an animal source.8 These agents are FDAapproved for the treatment of pain in OA of the kneein patients who have failed to respond adequately toconservative nonpharmacologic therapy and simpleanalgesics (e.g., acetaminophen).7-8
Hyaluronan has many action mechanisms (seeExhibits 4 and 5).9-10 There is laboratory evidence thathyaluronan injections may stimulate synovial mem-brane cells to make more hyaluronan and aggrecan,which, theoretically, may be reversing osteoarthritis.9
Hyaluronan injections also have been shown to havedisease-modifying activity.9 This stems from 1) thecomplex biochemical effects of hyaluronans in thesynovium and extracellular matrix of the articular car-tilage, including interactions between exogenouslyadministered hyaluronans and articular cartilage, sub-chondral bone, matrix proteoglycans, and collagens;2) the effects of hyaluronan administration in animalmodels of OA, including total or partial meniscectomyand anterior cruciate ligament transectomy; and 3)
results of clinical trials using one product, Hyalgan(sodium hyaluronate, molecular weight 500-730 kDa)that evaluated structural outcomes, such as joint-spacewidth, chondrocyte density and vitality, and arthro-scopic evaluation of chondropathy. Growing evidencesupports the notion that, in addition to relieving thesymptoms of OA, hyaluronans also modify the struc-ture of the diseased joint and the rate of OA diseaseprogression, at least early in the evolution of the diseaseprocess.9 Viscosupplementation does not appear to bevery effective when used late in the disease process.
Modawal and colleagues conduced a meta analysisof 11 trials of hyaluronan injections or derivatives.10
Their conclusion was that intra-articular viscosupple-mentation with hyaluronan injections was moderatelyeffective in relieving knee pain in patients withosteoarthritis for up to 10 weeks after the last injectionbut not at 15 to 22 weeks.10
A Cochrane analysis published in 2005 found that at5 to 13 weeks post-injection there was an 11 to 54percent improvement in pain and a 9 to 15 percentimprovement in function.11 This analysis concluded thatviscosupplementation is an effective treatment for OA ofthe knee with beneficial effects on pain, function andpatient global assessment, and at different post-injection
> Extracted, separated, and purified tissue> Avian combs
• Synvisc> High MW cross-linked HA polymers> Avian combs
• Euflexxa®> Bioengineered via bacterial fermentation
Surgical Intervention
• Arthroplasty, osteotomy• Mosaioplasty, OC
transplant• Uni/TKR
Mild to Moderate Pain
• Simple analgesics (acetaminophen)
• OTC NSAIDs• Topical creams
Injection Therapies
• Hyaluronan • Steroids
Moderate to Severe Pain
• COX-2 selective inhibitors
• Rx NSAIDs plus gastro-protective agent
• Tranadol• Opioids
Source: Adapted from American College of Rheumatology Subcommittee onOsteoarthritis Guidelines. Arthritis Rhem. 2000;43:1905-1915.
Journal of Managed Care Medicine Vol. 9, No. 1 25
periods, but especially at the 5- to 13-week post-injec-tion period.It should be noted that the magnitude of theclinical effect is different for different products, compar-isons, time points, variables, and trial designs. However,there are few randomized head-to-head comparisons ofdifferent viscosupplements, and conclusions regardingthe relative value of different products cannot be made.11
In general, hyaluronan injection has comparableefficacy against NSAIDs and longer-term benefitswhen compared against intra-articular corticos-teroids.11 Few significant adverse events are reportedwith hyaluronans.7-8 The majority of adverse effects arelocal reactions at the injection site.There is a potentialfor allergic reactions with the rooster-derived productsin patients with avian allergies.7
Pharmacoeconomics of HyaluronansTorrance and colleagues evaluated the cost effec-
tiveness and cost utility of hyaluronan injections usingdata from a one-year double-blind trial conducted inCanada. Pharmacoeconomic analyses in U.S. dollarshave not been published.12 Over the year, the hyaluro-nan treatment group had higher costs ($2,125 to $1,415= CAN$710, P < 0.05), more patients improved (69percent to 40 percent = 29 percent, P = 0.0001), andincreased quality-adjusted life years (QALYs) (0.071, P< 0.05). The incremental cost-effectiveness ratio was$2,505/patient improved. The incremental cost-utilityratio was $10,000/QALY gained. The authors statedthat their results provide strong evidence for adoptionof hyaluronan treatment in Canada in the patients andsettings similar to those studied in the trial.
SupplementsThe supplements glucosamine and chondroitin sul-
fate have some clinical evidence to support their use inaltering the course of OA.13 Both are building blocks ofarticular cartilage. Both also appear to have some anti-inflammatory activity. Although not all patients appearto gain benefit, many do and are able to decrease theirdosage of analgesics.The adverse effects of these agentstend to be minor gastrointestinal reactions. Based onother studies that looked at joint space narrowing overtime, the combination of these two supplementsappears to slow the progression of joint space narrowing.
Whether this is the disease slowing or a rebuilding ofarticular cartilage is unknown at this time.
SurgeryVarious surgical procedures are used to relieve the
pain and deformities caused by OA. Examples includearthroscopy and lavage to remove cartilage fragments,chondrocyte transplantation, implantation of joint spac-ers, reshaping of the knee bones, and knee replacement.
ConclusionPain is a significant part of the OA disease process.
Current therapy aims to reduce pain and alter the pro-gression of the disease. Analgesics, which have manyadverse effects, improve pain. Hyaluronan injectionsand glucosamine and chondroitin supplements appearto reduce pain and improve the disease process. JMCM
Robert Dimeff, MD, is medical director of sports medicine at TheCleveland Clinic Foundation and director of the Primary Care SportsMedicine Fellowship. He is associate professor of Orthopedic Surgery atthe Cleveland Clinic Lerner College of Medicine at Case WesternUniversity, assistant clinical professor of Family Practice at Case WesternReserve University and associate profess or Family Practice at the OhioState University.
References1.D’Ambrosia RD.Epidemiology of osteoarthritis.Orthopedics. 2005;28(2 Suppl):s201-5.2. Klippel JH. Primer on the Rheumatic Diseases. 12th edition.Atlanta, Ga.:ArthritisFoundation. 2001.3. Radin EL.Who gets osteoarthritis and why? An update. J Rheumatol. 2005;32:1136-8.4.American College of Rheumatology Subcommittee on Osteoarthritis Guidelines.Recommendations for the medical management of osteoarthritis of the hip and knee:2000 update. Arthritis Rheum. 2000 Sep;43(9):1905-15.5. Rubin BR. Management of osteoarthritic knee pain. J Am Osteopath Assoc.2005;105( Suppl 4):S23-8.6. Buckwalter JA, Mankin HJ, Grodzinsky AJ.Articular cartilage and osteoarthritis.Instr Course Lect. 2005;54:465-80.7. Drug Facts and Comparisons. St. Louis, MO: Facts and Comparisons. 2006.8. Euflexxa® (1% sodium hyaluronate) package insert. Suffern, N.Y.: FerringPharmaceuticals Inc. October 2005.9. Goldberg VM, Buckwalter JA. Hyaluronans in the treatment of osteoarthritis of theknee: evidence for disease-modifying activity. Osteoarthritis Cartilage. 2005;13:216-24.10. Modawal A, Ferrer M, Choi HK, Castle JA. Hyaluronic acid injections relieveknee pain. J Fam Pract. 2005;54:758-67.11.Bellamy N,Campbell J,Robinson V,Gee T,Bourne R,Wells G.Viscosupplementationfor the treatment of osteoarthritis of the knee. Cochrane Database Syst Rev.2005;2:CD005321.12. Torrance GW, Raynauld JP, Walker V, Goldsmith CH, Bellamy N, Band PA,Schultz M,Tugwell P; Canadian Knee OA Study Group.A prospective, randomized,pragmatic, health outcomes trial evaluating the incorporation of hylan G-F 20 intothe treatment paradigm for patients with knee osteoarthritis (Part 2 of 2): economicresults. Osteoarthritis Cartilage. 2002;10:518-27.13. Owens S, Wagner P, Vangsness CT Jr. Recent advances in glucosamine andchondroitin supplementation. J Knee Surg. 2004;17:185-93.
• Chondroprotective> Stimulate TIMP-1 synthesis> Inhibit pmn mediated cartilage degradation> Attenuate effects of IL-1, degradative enzymes, and oxygen
free radicals on chondrocyte injury and matrix degradation
26 Journal of Managed Care Medicine Vol. 9, No. 1
HEART FAILURE IS A SIGNIFICANT problem,with 5 million people affected in the United States.1
The incidence of HF in the U.S.has doubled in the lastdecade.The prevalence is particularly high in peopleover 65 years of age, with 6 percent to 10 percenthaving some degree of heart failure.2 It accounts forabout 6.5 million hospital days a year and 300,000deaths per year. 1 Heart failure also causes two thirds ofall cardiovascular disease deaths. 1 Eighty percent ofmen and 70 percent of women who have heart failureunder the age of 85 will die within eight years.3 Heartfailure accounts for $30 billion in annual costs.1
Overview of Heart FailureFifty percent of patients with HF have hypertension
as a contributing factor.4 In addition to hypertension,smoking, obesity, diabetes, and lipid disorderscontribute to the development of left ventricularhypertrophy or myocardial infarctions,which both leadto HF. Numerous factors aggravate HF (see Exhibit 1),while Exhibit 2 illustrates the pathologic progressionfrom an insult to the myocardium to the developmentof HF, arrhythmias, and, ultimately, death.5 TheAmerican College of Cardiology/American HeartAssociation (ACC/AHA) has characterized symptoms,
clinical characteristics, and treatment for the evolutionarystages of heart failure (see Exhibit 3).7 In this example,the A and B groups are asymptomatic,while the C andD groups are symptomatic. Group A is at risk of HF.Group B has heart disease with left ventriculardysfunction but does not yet exhibit symptoms. GroupC is the typical heart failure group, exhibitingsymptoms as well as structural heart disease or a historyof symptomatic HF. Group D has severe refractory HF.
Although evidence-based guidelines for HF haveexisted for several years, there is still variation in
Beta-Blockers: Class Effect in Heart Failure–Fact or Fiction?
Jay Johnson, MD, FACC
A CME version of this article is available at www.namcp.org/cmeonline.htm.
SummaryHeart failure (HF) is a significant national problem, in terms of morbidity, mortality,
and costs. Today, a number of beta-blockers are being used to improve symptoms,reduce remodeling, reduce hospitalization, reduce sudden death, and improve HFsurvival rates. Three agents have been extensively studied and shown to beeffective in treating HF. These include metoprolol succinate extended release(Toprol-XL®), bisoprolol (Zebeta®), and carvedilol (Coreg®). Although beta-block-ers are currently underused in HF treatment, increasing appropriate use shouldimprove clinical outcomes and reduce costs.
Key Points• Beta-blockers are underused in HF, especially in the elderly.• Three agents (bisoprolol, stained-release metoprolol succinate, and carvedilol)have proven effects on reducing morbidity and mortality related to HF.• Based on current data, all beta-blockers do not appear to be effective for HF.• Improved use of beta-blockers would reduce costs related to HF.
Exhibit 1: Aggravating Factors
• Medications
• New heart disease
• Myocardial ischemia
> Pregnancy
> Arrhythmias (AF)
> Infections
> Thromboembolism
> Hyper/hypothyroidism
> Endocarditis
> Obesity
> Hypertension
> Physical activity
> Dietary excess
Journal of Managed Care Medicine Vol. 9, No. 1 27
actual heart failure management. A study of 2,000patients with heart failure found that 23 to 79percent of eligible HF patients had standard therapywith an angiotension converting enzyme inhibitor(ACE-I) prescribed.8 A similar trend was seen interms of counseling on salt intake. Other studies haveshown that only 30 percent of post-MI patients withHF actually receive beta-blocker therapy.9
In general, the treatment objectives in HF are to • increase survival• decrease morbidity• increase exercise capacity• increase quality of life
• decrease neurohormonal changes • decrease progression of CHF.7
All HF patients should have risk factors controlled,lifestyle changes, treatment for underlying causes, andstandard medications. As noted in Exhibit 3, standardmedications include ACE inhibitors and beta-blockersas tolerated.Additional agents that may be used includediuretics, digoxin, aldosterone inhibition, vasodilators,and angiotension receptor blockers. For patients withsevere disease, other therapies that may be used includerevascularization, implantable cardiac defibrillator,ventricular resyncronization, ventricular assist devices,heart transplant, and artificial heart.
Exhibit 3: Stages of the Evolution of Heart Failure7
Beta-Blocker Under-UseAlthough beta-blocker use after a heart attack is one
of the most scientifically substantiated, cost-effectivemedical services, they are substantially underused,especially in the elderly.10 A beta-blocker used after aheart attack decreases cardiovascular mortality andreinfarctions by 20 to 40 percent.7 Beta-blockerunder-use leads to excess two-year mortality andre-hospitalization for cardiovascular disease.
In a survey of New Jersey Medicare beneficiaries,only 21 percent received beta-blocker therapy post-MI.10 Calcium channel blockers were used almost threetimes more often than beta-blockers despite a lack ofefficacy evidence.The use of a calcium channel blockerinstead of a beta-blocker doubled the risk of death.Patients on beta-blockers were re-hospitalized 22percent less often and had 43 percent lower mortality.10
Efficacy of Beta-Blockers in Heart FailureIn HF, beta-blockers improve symptoms, reduce
remodeling, reduce hospitalization, reduce suddendeath, and improve survival. Not all beta-blockers areeffective for, or have been studied for,HF.Three agentshave been extensively studied and shown to beeffective in treating HF. These include metoprololextended release (Toprol-XL®), bisoprolol (Zebeta®),and carvedilol (Coreg®). As noted in the ACC/AHAguidelines, positive findings with these three agents,however, should not be considered indicative of abeta-blocker class effect, as shown by the lack ofeffectiveness of bucindolol and the lesser effectivenessof short-acting metoprolol in clinical trials.7
Data from landmark beta-blocker studies in HFappear in Exhibits 4-7. The U.S. Carvedilol HeartFailure Trials Program study showed a 65 percent
reduction in death for patients with class I and class IIheart failure.11 The Cardiac Insufficiency BisoprololStudy (CIBIS)-II and Metoprolol CR/XLRandomized Intervention Trial in Congestive HeartFailure (MERIT-HF) trials showed a 34 percent reduc-tion in all-cause death with bisoprolol and metoprololtherapy in patients with class II-III heart failure.12,13Data from Carvedilol Prospective RandomizedCumulative Survival (COPERNICUS),with a 35 per-cent mortality reduction, extended this benefit to classIV patients treated with carvedilol who do not requireintravenous diuretics or positive inotropes.14
Metoprolol extended release,bisoprolol,and carvedilolare indicated for symptomatic heart failure,asymptomatic ventricular dysfunction (left ventricularejection fraction [LVEF] < 35 to 40 percent) and recentor remote MI regardless of LVEF.7 Patients who haveStage C HF should be treated with one of these threebeta-blockers.The relative efficacy among these threeagents is not known,but available evidence does suggestthat beta-blockers can differ in their effects on survival.In the COMET trial,carvedilol (target dose 25 mg twicedaily) was compared with immediate-release metoprololtartrate (target dose 50 mg twice daily).15 In that trial,carvedilol was associated with a significantly reducedmortality rate compared with metoprolol tartrate.
Although both the dose and the formulation ofmetoprolol (metoprolol tartrate) used in the above-referenced trial are commonly prescribed byphysicians for the treatment of HF, they were neitherthe dose nor the formulation used in the controlledtrials that show that sustained-release metoprolol(metoprolol succinate) reduces the risk of death.7,13 Todate, there are no published head-to-head comparisonswith any of the three preferred agents.
Exhibit 4: β−Adrenergic Blockers11
U.S. Carvedilol HF
0 50 100 150 200 250 300 350 400
Surv
ival
(%
) I-
II H
F
1.0
0.9
0.8
0.7
0.6
Days
Carvedilol(n=696)
Placebo(n=398)p<0.001
Risk reduction=65%
Journal of Managed Care Medicine Vol. 9, No. 1 29
Beta-blockers should be prescribed to all patientswith stable HF due to reduced LVEF unless they havea contraindication to their use or have been shown tobe unable to tolerate treatment with these drugs.7
Because of the favorable effects of beta-blockers onsurvival and disease progression, treatment with a beta-blocker should be initiated as soon as LV dysfunctionis diagnosed.7 Even when symptoms are mild or haveresponded to other therapies, beta-blocker therapy isimportant and should not be delayed until symptomsreturn or disease progression is documented duringtreatment with other drugs.Therefore, even if patients
do not benefit symptomatically because they have littledisability, they should receive treatment with a beta-blocker to reduce the risk of disease progression, futureclinical deterioration, and sudden death.7
Cost Effectiveness of Beta-BlockersSeveral studies have examined the cost effectiveness
of beta-blocker therapy in HF.16-20 Two of these ana-lyzed data from two carvedilol studies, COPER-NICUS and U.S. Carvedilol Heart Failure TrialsProgram.16,17 One estimated an 11.1 percent reduc-tion in healthcare costs in favor of carvedilol.17 The
Exhibit 5: β−Adrenergic Blockers12
CIBIS-II
0 200 400 600 800
Surv
ival
1.0
0.9
0.8
0.7
0.6
0.5
Days
Bisoprolol11.8%
Placebo17.3%
p < 0.00005
ICC NYHA III-IVn=2,647
Annual Mortality: bisoprolol=8.2%; placebo=12%
Mean follow-up: 1.4 years
Exhibit 6: β−Adrenergic Blockers13
MERIT-HF
0 3 6 9 12 15 18 21
Mo
talit
y %
15
10
5
0
Months
Metoprolol
Placebo
p = 0.0062
NYHA III-IVn=3,991
Risk reduction=34%
30 Journal of Managed Care Medicine Vol. 9, No. 1
Exhibit 7: β−Adrenergic Blockers14
COPERNICUS
0 4 8 12 16 20 24 28
Surv
ival
(%
)
100
90
80
70
60
50
Months
Carvedilol
Placebo
p=0.0001435% RR
NYHA III-IVn=2,289
Exhibit 8: AHRQ Study–Cost of Beta-Blockers in CHF20
Major Finding: Decision model indicates that Medicare costs would decrease if the use of beta-blockers were more widespread for patients with heart failure.
Estimated cost for Medicare to treat heart failure per-person over a five-year period
no beta blocker
with beta blocker
$39,739
$33,675savings of $6,000 per patient
Source: Duke Center for Education and Research on Therapeutics,
Economic effects of beta-blocker therapy in patients with heart failure, American Journal of Medicine, January 2004.
Exhibit 9: Cost Savings With Beta-Blocker20
No BB +BB Difference
Inpatient $37,294 $29,697 -$7,597
Outpatient $12,817 $14,000 $1,183
Medication $2,888 $5,343 $2,455
TOTAL $52,999 $49,040 -$3,959
Total societal costs over five years
Journal of Managed Care Medicine Vol. 9, No. 1 31
cost effectiveness of carvedilol for HF comparedfavorably to that of other generally accepted medicalinterventions, even under conservative assumptionsregarding the duration of therapeutic benefit.
In a retrospective cohort study based on claims andmedical chart data,carvedilol use in HF resulted in a sig-nificant economic reduction in the overall expendituresby approximately $14,530. Hospital expenditures wereapproximately $9,000 lower for the carvedilol groupthan for the control group. Carvedilol-treated patientshad less frequent hospital admissions and shorter lengthsof stay compared with patients not receiving carvedilol.
In a cost analysis by Cowper and colleagues, beta-blocker therapy increased survival in HF patients by0.3 years per patient and reduced societal costs by$3,959 per patient over five years (see Exhibit 8).20
Medicare costs declined by $6,064 per patient, dueprimarily to lower hospitalization rates (see Exhibit 9). 20
Hospitalization contributes between 60 and 75percent of the total expenses related to HF. Theaddition of ß-blockers to conventional HF therapyresults in a significant reduction in hospitalization.Beta-blocker therapy in heart failure is cost-effectiveand compares favorably to that of other generallyaccepted medical interventions.
ConclusionLong-term treatment with beta-blockers can lessen
the symptoms of HF, improve the clinical status ofpatients, and enhance patients’ overall sense of wellbeing.Like ACE-I’s,beta-blockers can reduce the risk ofdeath and the combined risk of death or hospitalization.These benefits are seen in patients with or withoutcoronary artery disease and in patients with or withoutdiabetes mellitus, as well as in female and black patients.The favorable effects of beta-blockers are also observedin patients already taking ACE-Is,which suggests that acombined blockade of the two neurohormonal systemscan produce additive effects. JMCM
Jay Johnson, MD, FACC, is a board-certified cardiologist and currently astaff attending physician at Stanford University. He also serves as chiefmedical officer to WorldDoc Inc., an online consumer education and deci-sion support service based in Las Vegas.
References1. 2005 Heart and Stroke Statistical Update. Dallas, Texas. American Heart
Association, 2005.Available at www.americanheart.org.
2. Gottdiener J, Arnold A, Aurigemma G, Polak J, Tracy R, Kitzman D, Gardin J,
Rutledge J, Boineau R. Predictors of congestive heart failure in the elderly: the
Cardiovascular Health Study. J Am Coll Cardiol. 2000;35:1628-37.
3. Haldeman G, Croft J, Giles W, Rashidee A. Hospitalization of patients with heart
failure:National Hospital Discharge Survey,1985 to 1995.Am Heart J.1999;137:352-60.
4. Kannel W, Belanger A. Epidemiology of heart failure. Am Heart J. 1991;121:951-7.
5.Yancy C, Fonarow G;ADHERE Scientific Advisory Committee. Quality of care
and outcomes in acute decompensated heart failure:The ADHERE Registry. Curr
Heart Fail Rep. 2004;1:121-8.
6. Cohn J.The management of chronic heart failure. N Engl J Med. 1996;335:490-8.
7. American College of Cardiology/American Heart Association Task Force on
Practice Guidelines. ACC/AHA 2005 guideline update for the diagnosis and
management of chronic heart failure in the adult. J Am Coll Cardiol. 2005;46:1116-43.
8. Luthi J, et al.Variations among hospitals in the quality of care for heart failure. Eff
Clin Pract. 2000;3:69-77.
9. Spencer F, Meyer T, Gore J, Goldberg R. Heterogeneity in the management and
outcomes of patients with acute myocardial infarction complicated by heart failure:
the National Registry of Myocardial Infarction. Circulation. 2002;105:2605-10.
L. Adverse outcomes of underuse of beta-blockers in elderly survivors of acute
myocardial infarction. JAMA. 1997;277:115-21.
11. Packer M, Bristow M, Cohn J, Colucci W, Fowler M, Gilbert E, Shusterman N.
The effect of carvedilol on morbidity and mortality in patients with chronic heart
failure.U.S.Carvedilol Heart Failure Study Group.N Engl J Med. 1996;334:1349-55.
12. The Cardiac Insufficiency Bisoprolol Study II (CIBIS-II): a randomized trial.
Lancet. 1999;353:9-13.
13. Effect of metoprolol CR/XL in chronic heart failure: Metoprolol CR/XL
Randomised Intervention Trial in Congestive Heart Failure (MERIT-HF). Lancet.
1999;353:2001-7.
14. Packer M et al. Carvedilol Prospective Randomized Cumulative Survival Study
Group. Effect of carvedilol on survival in severe chronic heart failure. N Engl J Med.
2001;344:1651-1658.
15. Torp-Pedersen C et al. COMET Investigators. Effects of metoprolol and
carvedilol on cause-specific mortality and morbidity in patients with chronic heart
failure—COMET. Am Heart J. 2005;149:370-6.
16.Vera-Llonch M, Menzin J, Richner RE, Oster G. Cost-effectiveness results from
the U.S. Carvedilol Heart Failure Trials Program. Ann Pharmacother. 2001;35:846-51.
17. Stewart S, McMurray J, Hebborn A, Coats A, Packer M.The COPERNICUS
Study Group. Carvedilol reduces the costs of medical care in severe heart failure: an
economic analysis of the COPERNICUS study applied to the United Kingdom.
Int J Cardiol. 2005 Apr 8;100(1):143-9.
18. Najib M, Goldberg A, Kaniecki D, Pettit K, Roth D,Antell L, Xuan J. Medical
resource use and costs of congestive heart failure after carvedilol use.Heart Dis. 2002
Mar-Apr;4(2):70-7.
19. Gilbert EM. Cost-effectiveness of beta-blocker treatment in heart failure. Rev
Cardiovasc Med. 2002;3 Suppl 3:S42-7.
20. Cowper P, DeLong E,Whellan D,Allen LaPointe N, Califf R. Economic effects
of beta-blocker therapy in patients with heart failure. Am J Med. 2004;116:104-11.
Journal of Managed Care Medicine Vol. 9, No. 1 35
A LOT HAS CHANGED SINCE THE FIRSTbiopharmaceutical—recombinant human insulin—was approved by the FDA in 1982.Approximately 175biotechnology products are currently marketed.1
Around 33 products are making their way through thefiling process for FDA approval.Another 426 productsare in phase I, II, or III trials.All of these products aretargeting more than 200 diseases including cancer,Alzheimer’s, cardiovascular diseases, multiple sclerosis,HIV/AIDS, and arthritis. The rate of growth ofbiotechnology product approvals has skyrocketed inthe last decade (see Exhibit 1).
Growth of Biotech CompaniesAs shown in Exhibit 2, biotechnology company
revenues grew by 17 percent and personnel increased5 percent between 2003 and 2004. Despite revenuegrowth, the companies continue to lose money over-all. Ninety percent of biotech companies are survivingon venture capital, do not yet have a single product onthe market, and are working hard to move products
through preclinical discovery and chemistry to clinicalinvestigation and then through FDA approval.
One of biotechnology’s greatest strengths is its breadthof coverage. Biotechnology companies focus on health,food and agriculture, and industrial and environmentalapplications. Within the healthcare-focused portion ofbiotechnology, many technologies are at work; seeExhibit 3. Relative to food and agriculture, companiesare working on genetically modified foods and animalsand a whole slate of issues that are designed to improvefood supply. Industrial and environmental applications ofbiotechnology include renewable bio-fuels.
Products in DevelopmentSeventy-eight vaccines for cancer are currently under
development,2 including dendritic, antigen-specific, andpolyvalent vaccines.Antigen-specific vaccines dominatethe research, representing 63 of the vaccines now in thepipeline. Of these vaccines, 18 percent are in Phase IItrials; 14 cancer vaccines are in Phase III development,including five for melanoma, two for pancreatic cancer,
Next Generation of BiopharmaceuticalsDebra Weintraub, PharmD, MPA
SummaryThe annual conference of the Genomics Biotech Institute of the National
Association of Managed Care Physicians (NAMCP) was held in Arlington, Va., inSeptember 2005. This article is based on a presentation from that conference. Thebiotechnology industry is rapidly growing, with numerous products now marketedand under development. The expanding introduction of biopharmaceuticals willhave a significant impact on all of healthcare, especially managed care.
Key Points• Numerous additional products will be coming to market within the next decade.• Cancer, diabetes, rheumatoid arthritis, lupus, hepatitis C, and HIV/AIDs are thetargets of many of these products.• Areas of continuing controversy related to biotechnology are follow-on biologics,stem cell research, cloning, patient access to biologics, and safety.
36 Journal of Managed Care Medicine Vol. 9, No. 1
three for non-Hodgkin’s lymphoma, two for prostatecancer, and two for breast cancer. Given that approxi-mately 50 percent of products in Phase III developmenteventually gain FDA approval, it is likely that seven ofthese vaccines will make it to market.
In addition to vaccines, there are monoclonal anti-bodies and antisense oligoneuclotides under devel-opment for breast cancer (see Exhibit 4). Beyond acurative treatment, the future in breast health needsto be focused on chemo-prevention, advances indiagnosis, and the potential role of complementaryand alternative medicine. Several studies are evaluat-ing alternatives to surgery and chemoprevention.
A large number of products are under developmentfor prostate cancer (see Exhibit 4). One is a genetherapy agent. Because of serious adverse effects insome of the early trials with gene-altering agents, thistype of research is proceeding quite slowly. Lookingtoward the end of this decade and moving into thenext, there likely will be more focus on gene therapiesbecause of expanding knowledge about the genetic
basis of disease. In the arena of prostate cancerresearch, an immediate goal is to determine whetherwidespread prostate specific antigen (PSA) screeningis effective in the reduction of prostate cancermorbidity and mortality, so as to establish effectiveguidelines and begin implementing them worldwide.A second priority is to develop effective treatmentsfor metastatic, hormone-refractory disease.
As with prostate and breast cancer, a tremendousnumber of products are under development for lungcancer (see Exhibit 4). Beyond the possibility of theseproducts, an immediate goal for improving survivalrates for lung cancer is the design and implementationof national screening programs for early detection ofdisease. Equally as important is the need to reducetobacco consumption through effective educationalprograms. Smoking cessation, together with experi-mental chemo-preventive strategies, perhaps representthe most promising areas for meaningful immediateimpact in this particular disease area.
In addition to the many products under development
Exhibit 1: New Biotech Drug and Vaccine Approvals/New Indication Approvals by Year
Num
ber
of
Ap
pro
vals
45
40
35
30
25
20
15
10
5
0
1982
1984
1986
1988
1990
1992
1994
1996
1998
2000
2002
2004
Year
20 0
2 2 35 5 5
3
7 7
16
20 1921 22
32
36 3740
24
5
Exhibit 2: Global Overview of Biotech Companies
2003Public Company Data 2004 Percent Change (%)
Revenues (millions) $46,553 $54,613 17
R&D Expense (millions) $18,636 $20,888 12
Net Loss (millions) $4,548 $5,304 17
Number of Employees 174,520 183,820 5
Source: Ernst & Young
Journal of Managed Care Medicine Vol. 9, No. 1 37
for diabetes mellitus (see Exhibit 4), inhaled insulin wasrecently approved by the FDA. Exubera, an inhaledpowder form of recombinant human insulin (rDNA)for the treatment of adult patients with type 1 and type2 diabetes, is the first new insulin delivery option intro-duced since the discovery of insulin in the 1920s.Exubera delivers short-acting insulin via an inhaler.The safety and efficacy of Exubera have been studiedin approximately 2,500 adult patients with type 1 andtype 2 diabetes.3 In clinical studies, Exubera reachedpeak insulin concentration more quickly than regularinsulin administered by an injection. Peak insulin levelswere achieved at 49 minutes (range 30 to 90 minutes)with Exubera inhaled insulin, compared to 105 min-utes (range 60 to 240 minutes) with regular insulin,respectively.3 In type 1 diabetes, inhaled insulin may beadded to longer-acting insulins as a replacement forshort-acting insulin taken with meals. In type 2 dia-betes, inhaled insulin may be used alone, with oraltherapy, or with longer-acting insulins. In addition tohypoglycemia, other side effects associated withExubera therapy seen in clinical trials included cough,shortness of breath, sore throat, and dry mouth. TheFDA recommends that patients have lung functiontested before beginning treatment and every six to 12months while treatment continues.
In the nearer term, the development of oral and addi-tional inhaled forms of insulin will significantly improvethe quality of life for insulin-requiring patients. Newtargets based on the insulin-signaling cascade are beingstudied, and preliminary results may have implicationsfor the development of new therapies for diabetes.Theimportance of improved, patient-friendly treatment fordiabetes cannot be stressed enough, given that tightcontrol of blood glucose levels is essential for avoidingthe often-devastating complications of the disease.
Autoimmune disorders, including rheumatoid arthritisand lupus, are another active area of biotechnologyresearch. Many of the agents in various stages ofdevelopment are listed in Exhibit 4. Promising future
treatments for rheumatoid arthritis include genetherapy and cytokine antagonists, as well as variouscombination therapies.Considerable research still needsto take place in determining the causes of autoimmunediseases. It is hoped that future developments willhelp prevent these devastating diseases and also be ableto reverse the damage already wrought in patients.
Turning to infectious diseases, two areas of significantresearch are hepatitis C and HIV/AIDS (see Exhibit 4).Interferons, monoclonal antibodies, immunoglobulins,and therapeutic vaccines are all under development forhepatitis C. In addition to other products, exciting butslow work is transpiring on a vaccine for HIV.
Another topical issue is the avian influenza vaccine.Because of the potential for an avian influenza pan-demic, many companies in multiple countries areworking to develop an effective vaccine in as timely amanner as possible.
Controversial IssuesA great unanswered question in biotechnology
involves what to do about biologic products reachingthe end of patent.This year, there will be about a dozenmajor biopharmaceuticals coming off patent, affecting$10 billion worth of product, including several of themost lucrative biopharmaceuticals.
Copies of biologic agents have been referred to bymany names: follow-on protein products (FOPP),post-patent biologics, follow-on biologics, biogener-ics, generic biologics, and biosimilars.5 The latter termis most common in the European Union. For thisarticle, the term follow-on biologics will be used.
The 1984 enactment of the Drug Price Competitionand Patent Term Restoration Act, popularly known asthe Waxman-Hatch Act, established the process of anabbreviated new drug application (ANDA) for genericversions of all chemical drugs approved after 1962.6
Manufacturers need only to provide manufacturingprocess data to show bioequivalence to the brandeddrug.No comparable legislation governing biopharma-ceuticals has yet been enacted.While consumer groupsand purchasers clamor for cheaper biopharmaceuticals,and biotech companies fiercely guard their hard-wonexpertise, patents, production processes, and clinicalknow-how,regulation remains unsettled.7 Laws govern-ing follow-ons are changing, but not as fast as the sci-ence, which is as convoluted as a folded protein.7
The difficulty in approving follow-on biologics isthat most biologics are not well characterized. Theexact structure is not known, so it is difficult to copy,unlike more traditional drug molecules that are easy toduplicate through chemistry. The major productionissues with follow-on biologics is characterizing theprotein and being able to duplicate the productionprocess. The production process is 90 percent of the
Exhibit 3: Biotechnology Processes Today
• Monoclonal antibodies
• Recombinant DNA
• Cell culture technology
• Cloning
• Protein engineering
• Nanobiotechnology> Systems/devices manufactured at the molecular level
• Gene Therapy > Correction of genetic mutations contributing to disease
• Stem cell technology
• Plant biotechnology
38 Journal of Managed Care Medicine Vol. 9, No. 1
Exhibit 4: Biotechnologies Under Development
Prostate Cancer
Type of Product Name/Manufacturer/Clinical Trial Phase
intellectual property related to the product. How thisdebate will be resolved is unknown. Savings related tofollow-on biologics also are unknown but are unlikelyto be of the same magnitude as traditional generics. Infact, because of costs related to manufacturing biolog-ics, the savings may be quite small.
Other hot-button issues in the biotechnologyindustry are cloning, stem cell research, patient accessto biologics, post-marketing surveillance, and safetyissues.8 Each issue requires more public education onthe value of biotechnology, including stem cells,cloning, and genetically modified plants and animals,as well as food animals that are now being cloned.Thewithdrawal of the multiple sclerosis drug nataluzimab(Tysabri) last year because of fatal adverse effects inpatients receiving the agent highlights the importance ofpost-marketing surveillance with biopharmaceuticals.9
ConclusionBiotechnology is improving therapies through bet-
ter delivery systems, better diagnostics, safer and moreeffective medicines,more patient access, and enhancedtherapeutic options for physicians and patients. In
coming years,much potential exists for more effective,more targeted, even more individualized medicaltreatments that can cure or at least slow or halt diseaseprogression. It also will be easier to determine inadvance which patients will actually benefit.The 21stcentury is poised to be the biomedical century. JMCM
Debra Weintraub, PharmD, MPA, FAPhA, is president and founder of Veracis LLC, a clinical pharmacy and business strategy consultant to thepharmaceutical industry. Weintraub previously worked in hospital andretail pharmacy practice and was the pharmacy director at SuburbanHospital in Bethesda, Md.
References1. Walsh G. Biopharmaceuticals: recent approvals and likely directions. Trends in Biotechnology. 2005:23:553-558.2.Booth BL.Therapeutic cancer vaccines.Nature Reviews Drug Discovery. 2005;4:623-624 3. FDA approves first ever inhaled insulin combination product for treatment ofdiabetes. FDA News. Jan. 27, 2006, available at www.fda.gov.4. National Institutes of Health. National Human Genome Research Institute.www.genome.gov.5. Felcone LH. The long and winding road to biologic follow-ons. BiotechnologyHealthcare. 2004;May:20-9.6. Grabowski H,Vernon J. Longer patents for increased generic competition in the US.The Waxman-Hatch Act after one decade.Pharmacoeconomics. 1996;10(Suppl 2):110-23.7. Carlson B. Road to developing regulatory pathway for biologic follow-ons hasmany turns. Biotechnology Healthcare. 2004;Dec:8.8. Silverman E.The 5 most pressing ethical issues in biotech medicine. BiotechnologyHealthcare. 2004;Dec:41-6.9. FDA Issues Public Health Advisory on Tysabri, a New Drug for MS. FDA News.Feb. 28, 2005.Available at: www.fda.gov/bbs/topics/news/2005/NEW01158.html.
Exhibit 4: Biotechnologies Under Development (continued)
Lupus
Type of Product Name/Manufacturer/Clinical Trial Phase
B cell targets • Epratuzumab (Immunomedics) – phase III • Belimumab (Human Genome Sciences) – phase II
Lupus nephritis • Abetimus sodium (La Jolla Pharm.) – NDA filed • Rituximab (Roche) – phase II
Cytokine modulators • IFN-alpha kinoid (Neovacs) – phase I • Tocilizumab (Roche) – phase I
Hepatitis C
Type of Product Name/Manufacturer/Clinical Trial Phase
Monoclonal antibodies • XTL-002 (XTL Biopharm.) – phase II
Immunoglobulins • Hepatitis C immune globulin (Nabi/NIH) – phase I/II
Therapeutic vaccines • InnoVax C (Innogenetics) – phase II • Transvax™ hepatitis C (Intercell) – phase II
Interferons • Interferon beta-1a (Serono) – phase III
• Human leukocyte interferon alpha (HemispheRx) – phase II/III
• Interferon gamma-1b (InterMune) – phase II
• Interferon omega (Intarcia) – phase II
HIV/AIDS
Type of Product Name/Manufacturer/Clinical Trial Phase
• Human leukocyte interferon alpha (HemispheRx) – phase II/III
Vaccines • ALVAC HIV vaccine (sanofi-aventis) – phase III
• HIV Vaccine (Oxford University) – phase II
• Vacc-4x (Bionor Immuno) – phase II
• Vacc-5q (Bionor Immuno) – phase II
• Tat Toxoid (Neovacs) – phase II
• Ad5 HIV-1 (Merck) – phase II
• IR-103 (Immune Response Corp.) – phase II
NEW INDICATION: PSORIATIC ARTHRITIS
TUBERCULOSIS (TB), INVASIVE FUNGAL AND OTHER OPPORTUNISTICINFECTIONS HAVE BEEN OBSERVED IN PATIENTS RECEIVING HUMIRA.SOME INFECTIONS HAVE BEEN FATAL. ANTI-TB TREATMENT OFPATIENTS WITH LATENT TB INFECTION REDUCES THE RISK OFREACTIVATION IN PATIENTS RECEIVING HUMIRA. HOWEVER, ACTIVETB HAS DEVELOPED IN PATIENTS RECEIVING HUMIRA WHOSESCREENING FOR LATENT TB INFECTION WAS NEGATIVE. PATIENTSSHOULD BE EVALUATED FOR LATENT TB WITH A TUBERCULIN SKINTEST. TREATMENT OF LATENT TB SHOULD BE INITIATED PRIOR TOTHERAPY WITH HUMIRA. PHYSICIANS SHOULD MONITOR PATIENTSRECEIVING HUMIRA FOR SIGNS AND SYMPTOMS OF ACTIVE TBINCLUDING PATIENTS WHO ARE TB SKIN TEST NEGATIVE.
SERIOUS INFECTIONS AND SEPSIS, INCLUDING FATALITIES, HAVEBEEN REPORTED WITH THE USE OF TNF-BLOCKING AGENTS,INCLUDING HUMIRA. MANY OF THESE INFECTIONS OCCURRED INPATIENTS PREDISPOSED TO INFECTIONS BECAUSE OF CONCOMITANTIMMUNOSUPPRESSIVE THERAPY IN ADDITION TO THEIR UNDERLYINGDISEASE. PATIENTS WHO DEVELOP A NEW INFECTION WHILE USINGHUMIRA SHOULD BE MONITORED CLOSELY. TREATMENT SHOULDBE DISCONTINUED IF A PATIENT DEVELOPS A SERIOUS INFECTION.DO NOT START HUMIRA IN PATIENTS WITH ACTIVE INFECTION(INCLUDING CHRONIC OR LOCALIZED), OR ALLERGY TO HUMIRA ORITS COMPONENTS. EXERCISE CAUTION IN PATIENTS WITH A HISTORYOF RECURRENT INFECTION OR WITH UNDERLYING CONDITIONS,WHICH MAY PREDISPOSE PATIENTS TO INFECTIONS OR PATIENTSWHO HAVE RESIDED IN REGIONS WHERE TB AND HISTOPLASMOSISARE ENDEMIC.
The combination of HUMIRA and anakinra is not recommended.TNF-blocking agents, including HUMIRA, have been associated in rarecases with new onset or exacerbation of demyelinating disease. Exercisecaution when considering HUMIRA for patients with these disorders. Morecases of malignancies have been observed among patients receiving TNFblockers, including HUMIRA, compared to control patients in clinical trials.These malignancies, other than lymphoma and non-melanoma skin cancer,were similar in type and number to what would be expected in the generalpopulation. In the controlled and open-label portions of HUMIRA clinicaltrials, there was an approximately four fold higher rate of lymphoma thanexpected in the general population. The potential role of TNF-blockingtherapy in the development of malignancies is not known.
Anaphylaxis has been reported rarely following HUMIRA administration.Rare reports of pancytopenia including aplastic anemia have been reported with TNF-blocking agents. Medically significant cytopenia (e.g. thrombocytopenia, leukopenia) has been infrequently reported withHUMIRA. The causal relationship of these reports to HUMIRA remainsunclear. Worsening congestive heart failure (CHF) has been observed withTNF-blocking agents, including HUMIRA, and new onset CHF has beenreported with TNF-blocking agents.
Most frequent adverse events vs placebo from rheumatoid arthritis placebo-controlled studies were injection site reactions (20% vs 14%),upper respiratory infection (17% vs 13%), injection site pain (12% vs 12%),headache (12% vs 8%), rash (12% vs 6%), and sinusitis (11% vs 9%).Discontinuations due to adverse events were 7% for HUMIRA vs 4% for placebo.
The safety profile for patients with psoriatic arthritis treated with HUMIRAwas similar to the safety profile seen in patients with rheumatoid arthritis.
HUMIRA has been studied in 395 patients with psoriatic arthritis in two placebo-controlled studies and in
an open-label extension study. The safety profile for patients with psoriatic arthritis treated with HUMIRA
40 mg every other week was similar to the safety profile seen in patients with rheumatoid arthritis.
Adverse Reaction Information from Spontaneous Reports:
Adverse events have been reported during post-approval use of HUMIRA. Because these events are report-
ed voluntarily from a population of uncertain size, it is not always possible to reliably estimate their frequen-
cy or establish a causal relationship to HUMIRA exposure
Hematologic Events: Thrombocytopenia (see WARNINGS, Hematologic Events).
Hypersensitivity reactions: Anaphylaxis (see WARNINGS, Hypersensitivity Reactions).
Respiratory disorders: Interstitial lung disease, including pulmonary fibrosis.
Skin reactions: cutaneous vasculitis.
OVERDOSAGE
The maximum tolerated dose of HUMIRA has not been established in humans. Multiple doses up to 10
mg/kg have been administered to patients in clinical trials without evidence of dose-limiting toxicities. In
case of overdosage, it is recommended that the patient be monitored for any signs or symptoms of adverse
reactions or effects and appropriate symptomatic treatment instituted immediately.
Reference: 03-5434-R7
Revised: October, 2005
U.S. Govt. Lic. No. 0043
05I-64C-K983-2 MASTER
DO NOT REDUCEAd unit Project # must match this project # 05G-64D-K368-1
05G-64D-K368-1Printed in U.S.A.
60081_P1 10/11/2005 12:09 AM Page 2
Journal of Managed Care Medicine Vol. 9, No. 1 43
MULTIPLE SCLEROSIS (MS) IS AN inflam-matory and neurodegenerative autoimmune disorderof the central nervous system (CNS), and the mostcommon disabling neurologic disease of youngadults, with a lifetime risk of 1 in 400.1,2 The peak ageof onset for MS is the third decade of life, with mostcases striking between ages 15 and 45.3 Like manyother autoimmune diseases, women with MS out-number men by a ratio greater than 2:1.4 One of themore puzzling aspects of MS is the increase in preva-lence with distance from the equator, which is notedin both hemispheres and similar in Europe and theU.S.2 There are between 8,500 and 10,000 new casesof MS diagnosed in the U.S. each year, and the diseaseaffects a total of approximately 350,000 people.1
Overview of MSThe clinical diagnosis of the disease is based on
demonstrating the dissemination of lesions in theCNS in time and space (i.e., the occurrence of a secondclinical episode at a different site in the CNS).5
Although the cause of MS is unknown, studies supporta complex interaction of environmental and geneticfactors.1 There are four MS subtypes:• Relapsing-remitting MS (RRMS)• Secondary progressive MS (SPMS)• Primary progressive MS (PPMS) • Progressive-relapsing MS (PRMS).2,5
The majority of MS patients (approximately 85percent) initially present with RRMS, characterizedby clearly defined episodes of neurologic disturbance
Implementing an Outcome ImprovementProgram for Multiple Sclerosis by Integrating
With a Specialty Pharmacy PartnerTom Morrow, MD
A CME version of this article is available at www.namcp.org/cmeonline.htm.
SummaryMultiple sclerosis (MS) is the most common disabling neurologic disease of
young adults. The costs to patients and to managed care are significant.Preventing symptomatic episodes of the disease through the use of biologicagents, such as glatiramer acetate and interferon-beta, may prevent or slow thedevelopment of disability. Managed care can cost-effectively improve clinicaloutcomes by implementing a disease-management program for MS patients.Partnering with a specialty pharmacy to provide portions of the disease managementprogram has many advantages for managed care.
Key Points• Multiple sclerosis is the most common disabling neurologic disease of young adults.• Conservatively, the national annual cost of MS is $6.8 billion, with the direct costsof MS related to the severity of relapses.• Biologic agents, glatiramer acetate and interferon-beta, are effective at reducingrelapses, but there is no evidence that any of the biologic agents are better atreducing the severity of relapses.• Reducing relapses and delaying disability with appropriately used biologicagents should reduce the overall cost of MS.• Specialty pharmacies have advantages in delivering disease management relatedto biologic agents in the treatment of MS.• In addition to other advantages, an MS disease-management program willallow the needed data collection to manage inappropriate use of new orunproven medications.
44 Journal of Managed Care Medicine Vol. 9, No. 1
(also known as attack or relapse) with full recovery, orwith sequelae and residual deficit upon recovery.RRMS is not classified as a progressive form of MS,but residual deficits can be established with each exac-erbation. At least 50 percent of patients with RRMSwill transition into SPMS,characterized by disease pro-gression with or without occasional relapses, minorremissions, and plateaus. Approximately 10 percent ofthe MS population present with a disease progressionfrom onset, with occasional plateaus and temporaryimprovements (PPMS). The least common form,PRMS, is a progressive disease from onset with acuterelapses,with or without full recovery, and with periodsbetween relapses characterized by continuous progres-sion.5 Although the course of the disease is variable, theaverage patient experiences two exacerbations (ofabout two to three weeks’ duration) every three years.6
Simplistically, MS is an imbalance betweeninflammatory (e.g., tumor necrosis factor [TNF],interleukin 12 [IL-12], interferon gamma [IFNg]) andanti-inflammatory (e.g., interleukin 4 [IL-4], interleukin10 [IL-10], transforming growth factor beta [TGFb])cytokines in the body (Exhibit 1).7 When inflammationis severe, damage goes beyond demyelination. Axonaldegeneration occurs, which leads to permanent loss ofaxonal function. The cumulative loss of axons is theprobable cause of permanent and progressiveneurological dysfunction and disability with MS.8
Normal CNS axons are surrounded by an insulatingmyelin sheath that speeds the conduction of actionpotentials that carry a signal from one neuron to another.During the relapse phase of RRMS, activation of theimmune system results in migration of T-cells andmacrophages, as well as increased amounts of tumornecrosis factor, nitric oxide, and antimyelin antibodieswithin the CNS.9 The macrophages and inflammatorycytokines act together to destroy myelin.As the myelinsheath is damaged,conduction velocity within the axon
decreases, and severe damage can lead to nerve con-duction block. Remodeling of the demyelinated axonmembrane is hypothesized to increase the number ofsodium channels in the remission phase of RRMS,resulting in improved conduction of action potentials.Remission may also result from remyelination.
In patients with MS, damage to white matteroccurs throughout the CNS, often near ventricularzones, which results in a broad spectrum of signs andsymptoms. During a relapse, a patient will suddenlyget much worse along one or more functionaldimensions for a few weeks to a few months. Fatigueis the most common symptom reported by 75 to 90percent of persons with MS.10 Fifty to 60 percent ofpatients report fatigue as the worst symptom of theirdisease.11 Up to 80 percent of MS patients suffer frompain syndromes, such as extremity dysesthesia, backpain, leg spasms, or abdominal pain.2 Other commonsigns or symptoms associated with MS are spasticity,bladder and bowel dysfunction, sexual dysfunction,and optic neuritis.12-19
Depression is another serious issue for MS patients.Forty to 50 percent of MS patients will experiencesignificant clinical depression at some point in time.Furthermore, MS patients are seven times more likelythan the general population to commit suicide.12,13
Depression is a side effect of several medicationsused in the management of MS or its symptoms,particularly glucocorticoids, interferon (IFN) beta,and benzodiazepines.
The natural history of MS is that the majority ofpatients will exhibit a progressive neurologic deterio-ration.Approximately 90 percent of MS patients willtransition to a progressive form of the disease 25 yearsfrom the time of diagnosis, and can be characterizedas having substantial clinical disability.8,20-21 The timingof accrued disability is strongly influenced by thenumber of exacerbations during the early phases of
Exhibit 1: Immune Imbalance in MS18
InflammatoryIFNγ, IL-12, TNF
Anti-inflammatoryIL-4, IL-10, TGFβ
Anti-inflammatoryIL-4, IL-10, TGFβ
InflammatoryIFNγ, IL-12, TNF
TH1
TH2
TH1 TH2
Normal MS
Journal of Managed Care Medicine Vol. 9, No. 1 45
the disease.20 Irreversible deficits can be establishedwith each exacerbation. Consequently, MS treatmentshould be initiated at the earliest possible time toprevent disability.5
Disability related to MS is most commonly assessedusing the Kurtzke Expanded Disability Status Scale(EDSS) (see Exhibit 2).22 A standard neurologic examis used to evaluate functional abnormalities involvingseveral systems:pyramidal, cerebellar, brain stem, sensory,bladder and bowel, visual, and mental. For example, anEDSS score of 4.0 to 4.5 means disability is moderate.The patient can only walk 330 to 550 yards withoutassistance or rest.22
Treatment of MSThe therapeutic approaches to the various forms
of MS have changed dramatically over the pastdecade, and various disease-modifying therapies havesuccessfully been introduced and established.23-25 Fiveagents are FDA approved for treating RRMS: subcu-taneous IFN beta-1b, Betaseron®; intramuscular IFNbeta-1a,Avonex®; subcutaneous IFN beta-1a, Rebif®;glatiramer acetate, Copaxone®; and mitoxantrone,Novantrone®.25-29 Mitoxantrone is reserved for severeMS because of its cumulative cardiac toxicity.
Interferon BetaInterferon (IFN) beta currently is recommended by
the American Academy of Neurology guidelines forthe management of patients with relapsing-remitting
MS, relapsing forms of secondary progressive MS, andin patients at high risk of developing clinically definiteMS.25 Its precise mechanism of action,however, remainsunclear. Nevertheless, several biological activities havebeen described such as inhibitory effects on the prolif-eration of leukocytes and antigen presentation, themodulation of cytokine production, and the potentialto inhibit T-cell migration across the blood-brainbarrier by down-regulating the expression of adhesionmolecules and inhibiting the activity of T-cell matrixmetalloproteinases.30-33
Although not curative, interferon beta appears toreduce the frequency of relapses and produces abeneficial effect on several magnetic resonanceimaging (MRI) measures of disease activity.33
Immunomodulators, such as interferon beta, appearto be of little use once axonal degeneration hasreached a critical threshold and clinical progressionof the disorder is established.33 Decisions to initiateinterferon beta therapy in clinical practice, however,must be tempered by an understanding that themagnitude of the reported clinical benefits of inter-feron beta is modest.The rate of neurologic attacksand disease severity measures used as outcomes inclinical trials has an uncertain relationship withlong-term disability outcome. Some patients willexperience notable adverse effects to therapy, andsome patients with MS (even without specific therapy)may have a relatively benign disease course.33
Although many patients subjectively report
Exhibit 2: Progression to Disability—EDSS22
10.0 = Death due to MS
9.0 - 9.5 = Completely dependent
8.0 - 8.5 = Confined to bed or chair; self-care with help
7.0 - 7.5 = Confined to wheelchair
6.0 - 6.5 = Walking assistance is needed
5.0 - 5.5 = Increased limitation in ability to walk
4.0 - 4.5 = Disability is moderate
3.0 - 3.5 = Disability is mild to moderate
2.0 - 2.5 = Disability is minimal
1.0 - 1.5 = No disability
0 = Normal neurologic exam
15 Years
8 Years
46 Journal of Managed Care Medicine Vol. 9, No. 1
improvement in various manifestations followinginitiation of interferon beta therapy, the drug isineffective in the treatment of some commonsymptoms of MS (e.g., bladder dysfunction, spasticity,fatigue), for which other pharmacologic agents(e.g., antispasmodic agents, skeletal muscle relaxants)generally are indicated.33
There currently are two types of recombinantinterferon beta commercially available in the U.S.,interferon beta-1a and interferon beta-1b.Important differences in beneficial effects (clinical,MRI measures of response) between these differenttypes of interferon beta have not been reported.33
The optimal preparation, dosage, and route ofadministration of interferon beta for themanagement of MS has not been determined. Inaddition, interferon beta preparations and otherdisease-modifying agents (e.g., glatiramer acetate,mitoxantrone) have not been compared in well-designed, controlled studies.
IFN beta therapy often causes side effects, such asflu-like symptoms, injection site reactions, andlaboratory abnormalities, such as elevation in liverfunction tests or lymphopenia.26-28 However, theseside effects are generally mild and tend to disappearwithin the first months of treatment. The adverseeffects frequently can cause patients to discontinuetherapy. Several switch studies have demonstratedeffectiveness of glatiramer acetate if side effects orinadequate response have caused a patient todiscontinue interferons.
Glatiramer Acetate Glatiramer acetate, a mixture of synthetic polypep-
tides composed of random sequences of the aminoacids L-alanine, L-glutamine, L-lysine and L-tyrosine,inhibits the binding of some myelin proteins to themajor histocompatibility complex.34 Its immunologicalmechanisms of action are not completely understood,and some differ from those known for IFN beta.
Glatiramer acetate reduces the rate of exacerbationand improves mean disability scale scores in patientswith RRMS.35-40 Exacerbation rate is decreasedapproximately 30 percent in patients with mildrelapsing-remitting disease. The number of CNSlesions decreases with treatment, and there is a ten-dency for the disease to progress in fewer patientswith relapsing-remitting disease who receive glatirameracetate than in placebo recipients. Mean disabilitystatus scores improve with treatment and deterioratewithout it.41 In patients with secondary progressivemultiple sclerosis, the rate of disease progression wasreduced, but not significantly, by treatment with glati-ramer acetate compared with placebo;however, furthertrials with larger patient numbers may be warranted.41
Potential limitations to glatiramer use are 1) thenumber of patients with relapsing-remitting diseaseprogression is not significantly different betweenactive and placebo treatment groups at 30 months,six years, and eight years; 2) reactive antibodies toglatiramer acetate form in most patients receivinglong-term therapy; the effect on efficacy is unclear;and 3) efficacy still has to be established in patients
Exhibit 3: MS Treatment Steps43
STEP 1Glatiramer acetate
OR
If treatment fails or patient is intolerant
If treatment fails or patient is intolerant
STEP 1Interferon #1
Patient meets diagnostic criteria for RRMS
STEP 2Interferon #1
or mitoxantrone
STEP 2Glatiramer acetate
or mitoxantrone
STEP 4Interferon #2
STEP 4Evaluate NAB titer and consider
other treatment options
STEP 3Consider other options or check for NABs if interferon was
used in step 1 or step 2 and was given at a low dosage
No NABs present NABs are present
Journal of Managed Care Medicine Vol. 9, No. 1 47
with secondary progressive multiple sclerosis.41
Glatiramer acetate,which is injected, is well tolerated.Local injection site reactions are the most commonadverse effect and are usually mild. A transient benignsystemic reaction occurs in some patients; theinfluenza-like symptoms commonly associated withIFN-beta treatment have not been reported.29
Comparison of AgentsThere have been no direct comparisons of
glatiramer, interferon-ß-1a, and interferon-ß-1b.Directcomparisons of these drugs in well-designed trials areobviously necessary before conclusions may be drawnabout their relative advantages and disadvantages.Thepotential advantages of combining these agents need tobe evaluated. Glatiramer acetate and interferon-ß-1b,both of which cause immunomodulatory changes in Thelper-1 cell lines, have been studied in combinationin one study.Their action was found to be additive.42
Based on available evidence, any of the threeagents could be chosen for initial therapy forRRMS. If the initial choice fails, then one of theother agents can be selected. A treatment algorithmfor MS is presented in Exhibit 3.43
Future AgentsThirty-six percent of agents in late-stage
development are for MS.44 A significant number ofthese agents are targeted toward altering theimmune system response and are injectable agentsthat will be expensive.
Disease Management of MSThe cost of treating MS, particularly since the
development of immunomodulators, is significant. Inthe United States, the annual per-patient cost of MShas been estimated at $34,000, with a total lifetimeper-patient cost of $2.2 million; a conservative estimateof the national annual cost is $6.8 billion.45 The annualcost for immunomodulators for MS is $2 billion.
As more biological agents become available fortreating MS, managed care organizations (MCOs) areapplying various strategies to control costs andimprove outcomes in their MS populations. Some ofthese possible strategies include • appropriateness of therapy • cost sharing• formulary management• reimbursement management• disease management/outcome improvement.
When managing any disease category, one of thefirst goals is to determine whether therapy is appro-priate for a given patient. Cost sharing by increasingco-pays or through tiered co-pays is one way to managethe costs, but it will not change the outcome and may
worsen it. Formulary management is tied into costsharing, but it too will not change the clinical out-come. Reimbursement management decreases thereimbursement for different products, but does notchange the outcome.A disease management programinvolves more than just drug maximization (i.e.,appropriate therapy, adherence, compliance). A truedisease management program targets various issues toimprove clinical outcomes with the result of reducingacute care costs (e.g., hospitalizations) significantlymore than the increased cost of medications whenpatients comply with appropriate therapy.
One method that may both improve outcomes andmanage costs of MS is the use of specialty pharmacyproviders for biologic agents. Distribution of biologicsthrough a specialty pharmacy may seem unrelated todisease management, but a specialty pharmacy mayactually be the best site of care for disease managementbecause of the way it operates.
Use of a specialty pharmacy by an MCO can assistphysician providers by helping them avoid the manyadministrative and legal issues related to obtainingand stocking medications within a physician’s office.These include ordering, up-front costs, collection ofco-pay or co-insurance, insurance billing, and legalstorage and handling requirements.
In addition to reducing workload issues related tobiologics, specialty pharmacies have other significantadvantages (see Exhibit 4). One of the most importantroles specialty pharmacies perform is to communicateby phone with the patient every month.At its essence,disease management is good personal communicationbetween two parties. Specialty pharmacy companiesroutinely call each patient every month to check inbefore sending a refrigerated, expensive medicationthrough the mail.
Beyond offering a communication system, otheradvantages of specialty pharmacies include a readydistribution system and the ability to bill bothpharmacy and medical benefit portions of a healthplan. Forty to 60 percent of specialty pharmacycharges are paid through the medical claim system,not pharmacy benefits.46
Exhibit 4: MS Disease Management–Most Efficient Site
Specialty Pharmacies
• Dispensing site for much of the medication
• Already knowledgeable
• Monthly calls to patients
• Integration of medical and pharmacy benefits
• Ability to collect/track data over time
• Differentation opportunity
48 Journal of Managed Care Medicine Vol. 9, No. 1
Specialty pharmacies address the reasons fornoncompliance and achieve savings for the payer byhelping to avoid the consequences of noncompliance.For one MCO, the mean unit cost in 2002 of a “low-intensity” MS relapse, which could result in physicianoffice visits and symptom-related medications,was $243per patient.46 The mean unit cost of a “high-intensity”episode, which could result in hospitalization and post-discharge rehabilitation, was $12,870 per patient.46
Adherence rates for injectable MS medications achievedby one specialty pharmacy were reported to be 98percent for Avonex® and Rebif®.46 Adherence rates forCopaxone® and Betaseron®, the other two commonMS therapies,were around 95 percent.46
Disease Management Process The initial step in building a disease management
program for MS is to identify and assess the plan’sMS population (see Exhibit 5). Interventions to alterthe disease outcomes can then be developed andimplemented.The components of a disease manage-ment program for MS include drug management(adherence and compliance to the medication, safety,tolerability), tracking of patient outcomes includingrelapses and disease progression, data analysis, andoutcome improvement (see Exhibit 6).
The major reasons MS patients stop takingmedications are intolerable side effects and a perceivedlack of treatment efficacy.An estimated 20 percent of
Exhibit 6: Component of MS Disease Management
• Monitoring/Documenting:
> Adherence
> Relapses
> Disease Progression
> Safety/Tolerability
> EDSS
• Interventions:
> Co-morbid condition(s)
> Symtom management assistance
• Data Analysis
• Outcome Improvement
Exhibit 7: Suboptimal Treatment ResponseLack of Efficacy
• Clinical Event
> Increase in severity and/or number of relapses
> Recovery time after a relapse
> Progression of EDSS
• MRI
> Increased lesion load (especially if Rx > 6 months)
• Neutralizing Antibodies
> Present with clinical change (especially if Rx > 6 months)
> Cross reactivity with interferons (1a & 1b)
Exhibit 5: Disease Management Process
Identify Members Invitation to Members toParticipate in the Program
Member Completes Various Assessments
Risk Stratification
Based upon relapse rate,severity, EDSS, other factors
Follow-up SurveysFollow-up Surveys
Mailings &Phone Calls
Level 2:
MoreIntensive
InterventionProgram
Level 1:
EducationalInterventions
Journal of Managed Care Medicine Vol. 9, No. 1 49
MS patients in the U.S have been on therapy but havestopped for some reason.46 Patients often have anunrealistic expectation of their MS therapy and arelikely to drop their injectable medications becausethey don’t feel they’re getting better,or they are havingadverse effects such as flu-like symptoms.In many suchcases, education about the common side effects of thebiologic agents will help patients complete the initialtreatment period when these effects are mostprominent. Encouraging patients to stay on therapythrough the initial tolerance building phase may helppatients stay on therapy long enough to determine ifefficacy has occurred. Although many of the adverseeffects of biologic agents are transient, some, such asliver function and blood cell abnormalities, are onlyamenable to therapy discontinuation.
Once patients have remained on therapy for anadequate amount of time, efficacy must beassessed. The only way for an MCO to know if
medications are working in a particular populationis to develop a tracking and intervention process.Markers of suboptimal treatment response in MSare provided in Exhibit 7.
A claims base analysis published in 2000 found thatthe yearly cost of MS increases with each exacerbation(see Exhibit 8).47 Economically, reducing relapses leadsto fewer acute care costs, decreases ancillary costs (i.e.,occupational therapy, physical therapy), and improvespatient productivity.The biologic agents, as discussedearlier, will reduce relapses.
Additionally, direct costs increase as the severityof relapses worsen.48 There is currently no data thatthe biologic agents vary in ability to control sever-ity of relapses. Because relapses are associated withincreasing disability, a disease management programneeds to monitor the severity of individual relapses,the recovery time, and how much therapy isrequired. Relapses may also indicate the need toswitch to immunologic therapy.
Using data from pre-marketing studies involvingbiologic agents,Ollendorf and colleagues published ananalysis of the clinical and economic impact of theseagents (see Exhibit 9).49 Study results indicate that useof glatiramer therapy in patients with MS results in alower rate of relapse relative to those receivinginterferon-beta therapies. In addition, therapy withglatiramer acetate appeared to be more “durable” thanthat of the interferon-beta—patients receiving the
Exhibit 8: Total MS Costs by Number of Exacerbations47
• Three to eight exacerbations . . . . . . . . . . . . . . $20,519
(Claim-based analysis, 1996 dollars)
Exhibit 9: Cost of MS Related Care49
Galtiramer acetate IFN -1a IFN -1b
Medication
Study Therapy $6,740 $7,547 $7,648 <0.001
Other MS-RelatedMedication
Total Medication
$7,256 $7,992 $8,083 <0.001
Outpatient care
$1,291 $1,202 $1,083 0.459
Inpatient care
$975 $763 $1,019 0.168
Total MS-Related Costs
$9,522 $9,957 $10,185 0.004
N=1,674 N=5,031 N=1,752 P value
$516 $445 $435 0.764
50 Journal of Managed Care Medicine Vol. 9, No. 1
former did not switch or add on immunomodulatorytherapy, while nearly 10 percent of those receivinginterferon beta therapy did experience a therapychange. Finally, total costs of MS-related care werereduced by $1,100 to $700 among glatiramer acetatepatients relative to the interferon-beta; findings persist-ed in multivariate analyses controlling for age, sex, andpropensity scores for immunomodulatory therapy.Based on this analysis, six years is required to preventone relapse with interferon beta-1a (Avonex®) andtwo years is required with interferon beta-1b(Betaseron®) and glatiramer (Copaxone®). One and athird years are required with interferon beta-1a(Rebif®) but because it is a high-dose therapy, fewpatients tolerate it well. This analysis illustrates a keypoint that pharmacy and total medical costs are differ-ent for different biologics. To identify the true costsand outcomes, the MCO should monitor relapses andhow each medication is being used.
Implementation of an MS disease managementprogram requires a database for tracking patients and
outcomes, telephone-based assessments and interactions,patient-based symptom and medication tracking(e.g., patient diary), procedures manual, and adequatepersonnel resources to implement the program andprovide programmed interventions.A patient diary isa way to get the patient involved in his or her care.For example, the diary can be used to track symptoms,medication and other therapy compliance, sideeffects, laboratory tests, relapses, and preventive healthmeasures such as an annual influenza vaccination.Thisauthor has published the MS Clinician’s Guidebook asa resource for MCOs in developing a MS diseasemanagement program (see Exhibit 10).
The average total annual costs for MS patients inremission are directly related to the level of disabilitypresent (see Exhibit 11).50 By preventing disability pro-gression through various interventions, the patient canbe maintained at a lower direct cost level. If disability isdelayed, there are fewer lost productive years and lowerindirect costs. Programmed interventions that can helpdelay disability progression in an MS population include• compliance monitoring• fall prevention• urosepsis prevention• side-effect management• depression screening/referral.
Falls related to neurologic deficits in MS patientscan have devastating consequences. Preventingurosepsis secondary to bladder dysfunction can avoidhospitalizations and a potentially life-threateningevent. Since depression is frequent in MS patients,screening, referral, and treatment will help avoid thecostly consequences of untreated depression.
Benefits of Disease ManagementA disease management program for MS offers
numerous benefits for patients and MCOs (see Exhibit12). One benefit is the ability of the MCO to markettheir MS management program with proven outcomes
Exhibit 11: Average Annual Costs per Patients While in Remission50
EDSS 1 EDSS 3 EDSS 6
Medical Costs $1,255 $2,825 $8,691
Patient TimeLosses-work $6,341 $15,995 $24,513
Patient TimeLosses-leisure $1,301 $4,705 $14,789
Unpaid caregiver time $1,701 $4,554 $3,704
TOTAL $10,064 $28,079 $51,697
Journal of Managed Care Medicine Vol. 9, No. 1 51
such as improved productivity for employers.Anothersignificant benefit for an MCO is the ability to iden-tify significant adverse events with new therapies.
For example, in 2004 a new biologic, natalizumab(Tysabri),was approved for treating RRMS.Use of thisagent skyrocketed from November 2004 to February2005 until the agent was removed from the marketbecause of significant adverse effects (including severaldeaths).51 Intense tracking of adverse effects through adisease management program will identify significantand potentially life-threatening events early. A diseasemanagement program will allow the needed data col-lection to manage inappropriate use of a new orunproven medication.
ConclusionThe aim of an effective therapy in MS is to reduce
the frequency and severity of relapses, shorten theirduration, limit side effects, relieve symptoms, preventdisability arising from disease progression, and promotetissue repair. Progress has been made during the lastdecade in treating MS, especially for RRMS. Benefitand risk need to be weighed carefully in each individ-ual patient. It is hoped that even more powerful therapieswill be available in the near future to fight this disablingdisease.Disease management programs,whether incor-porating a specialty pharmacy or not, can help improveclinical and financial outcomes. JMCM
Tom Morrow, MD, is president of the National Association of ManagedCare Physicians and has more than 20 years’ experience as a managed careexecutive. He also has served as an NCQA surveyor overseeing diseasemanagement programs such as inflammatory arthritis, depression, chronicpain syndrome, and multiple sclerosis, as well as common chronic diseases.
References1. Hemmer B,Archelos JJ, Hartung HP. New concepts in the immunopathogenesis
of multiple sclerosis. Nature Rev Neurosci. 2002;3:291-201.
2. Compston A, Coles A. Multiple sclerosis. Lancet. 2002;359:1221-1231.
3. Anderson DW, Ellenberg JH, Leventhal CM, Reingold SC, Rodriguez M,
Silberberg DH. Revised estimate of the prevalence of multiple sclerosis in the
United States. Ann Neurol. 1992;31:333-336.
4. Jacobson DL, Gange SJ, Rose NR, Graham NM. Epidemiology and estimated
population burden of selected autoimmune diseases in the United States. Clin
Immunol Immunopathol. 1997;84:223-243.
5. Kieseier BC, Hartung HP. Current Disease-Modifying Therapies in Multiple
Sclerosis. Semin Neurol. 2003;23:133-145.
6. Lublin FD, Reingold SC, National Multiple Sclerosis Society (USA) Advisory
Committee on Trials of New Agents in Multiple Sclerosis.Defining the clinical course
of multiple sclerosis. Results of an international survey. Neurology. 1996;46:907-11.
7. Dhib-Jalbut S. Mechanisms of action of interferons and glatiramer acetate in mul-
Silberberg DH, Stuart WH, van den Noort S. Disease modifying therapies in multiple
sclerosis: Subcommittee of the American Academy of Neurology and the MS Council
for Clinical Practice Guidelines. Neurology. 2002;58:169-178.
Exhibit 12: What Are the Benefits?
MCO
• Scientific evidence-based formulary:> “preferred therapies” prior to approval of
“new/novel” and off-label therapies
• Improved Outcome:> Reduced hospitalization> Improved productivity (if proven, can be used to
market to employers)
• Standard of Care:> Allows MCOs to evaluate therapies for safety
and tolerability
Patient
• Active involvement in therapy decisions
• Active involvement in management of overall disease
• Support of “appropriate” therapy
• Opportunity to discuss “side effects” regularly
• Teaching opportunity to prevent falls, improve management of depression, sign/symptom management, etc.
52 Journal of Managed Care Medicine Vol. 9, No. 1
National Association of Managed Care PhysiciansAmerican Association of Integrated Health Care Delivery SystemsAmerican Association of Managed Care Nurses
assessment of the cost of multiple sclerosis in the United States. Mult
Scler.1998;4:419-25.
46. Multiple Sclerosis and Managed Care. Specialty Pharmacy News, July 2005,
Washington, DC :Atlantic Information Services.Available at www.aishealth.com.
47. Grudzinski A N, Hakim Z, Cox E R, Labiner D M, Bootman J L. J Managed
Care Pharm. 2000:19-20.
48. O’Brien JA. Cost of managing an episode of relapse in multiple sclerosis in the
US BMC Health Serv Res. 2003;3:17-29.
49. Ollendorf DA, Jilinskaia E, Oleen-Burkey L. Clinical and economic impact of
glatiramer acetate versus beta interferon therapy among patients with multiple
sclerosis in a managed care population. J Managed Care Pharm. 2002;8:469-476.
50. Grima DT, Torrance GW, Francis G, Rice G, Rosner AJ, Lafortune L. Cost
and health-related quality of life consequences of multiple sclerosis. Mult Scler.
2000 Apr;6(2):91-8.
51. FDA Issues Public Health Advisory on Tysabri, a New Drug for MS. FDA News.
Feb. 28, 2005.Available at www.fda.gov/bbs/topics/news/2005/NEW01158.html
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Important Treatment ConsiderationsEUFLEXXA™ (highly purified hyaluronan) is indicated for the treatment of pain in osteoarthritis (OA) of the knee in patients who have failed to respond adequately to conservative nonpharmacologic therapy and simple analgesics (eg, acetaminophen). EUFLEXXA™ is contraindicated in patients who have a known hypersensitivity to hyaluronate preparations or who have knee joint infections or skin diseases in the area of the injection site. In a randomized, double-blind, multicenter clinical trial, the only adverse event reported with EUFLEXXA™ at an incidence greater than 5% was arthralgia (8.75%). Transient pain and swelling of the injected joint may occur after intra-articular injection with EUFLEXXA™. The safety and effectiveness of injecting EUFLEXXA™ in conjunction with other intra-articular injectables or into joints other than the knee have not been studied. The safety and effectiveness of treatment cycles of fewer than 3 injections or of repeated treatment cycles with EUFLEXXA™ have not been established. Strict aseptic technique must be followed to avoid joint infection.
Patients centrally randomized to receive EUFLEXXA™ (n=160) or Synvisc® (n=161) in three 2 mL intra-articular injections administered weekly. Patients screened at baseline and at 1, 2, 3, 6, and 12 weeks.
Primary end point: mean change in visual analog scale (VAS: 0-100 mm) score on the WOMAC Index pain subscale. Secondary end points: full WOMAC Index, patient global assessment, consumption of simple analgesics.
*Derived through bacterial fermentation.†Synvisc is a registered trademark of Genzyme Corporation.
Signifi cantly more patients weresymptom-free at study end (P=0.04)
In a prospective, randomized,double-blind, multicenter head-to-headstudy vs Synvisc®† (N=321)1