Principles of Geriatric Drug Therapy Beata Ineck, Pharm.D, BCPS, CDE University of Nebraska Medical Center College of Pharmacy Omaha VA.
Post on 21-Dec-2015
214 Views
Preview:
Transcript
Principles of Geriatric Drug Therapy
Beata Ineck, Pharm.D, BCPS, CDE
University of Nebraska Medical CenterCollege of Pharmacy
Omaha VA
Objectives1. Review predictors for adverse drug events
in the elderly.
2. Discuss pharmacokinetic changes in the elderly and how they alter medications.
3. Discuss pharmacodynamics and the effects of aging.
4. Review criteria for appropriate prescribing in the elderly.
• 30% of admissions due to drug related problems
• 2/3 of nursing facility residents have ADE over 4 years
• 106,000 deaths and $85 billion for medication related problems in 2000
• 5th cause of death
Arch Intern Med 2003;163:2716-2724
Predictors of Adverse Drug Events
• > 4 prescription medications
• Length of stay in hospital > 14 days
• > 4 active medical problems
• Admission to general medical unit
• History of alcohol use
• Lower mean MMSE score
• 2-4 new medications added during hospitalization Clin Geriatr Med 1998;14:681.
J Gerontol 1998;53A9A):M59
JAMA 2003;289:1107
AGE RELATED CHANGES
Geriatric Brain Function
• Brain mass and cerebral blood flow • BBB may become more permeable
• Secondary memory may be diminishedSecondary memory may be diminished
• Short term memory difficulties 2° to decline in – Learning– Information retrieval– Processing speed
Pharmacokinetics and Aging
• Behavior of drugs in the body
• Absorption, distribution, metabolism, elimination
• Removal of drugs from the body is slowed
Absorption• Increased GI pH
– Calcium carbonate, “azoles”, iron
• Slower gastric motility/emptying
• Increased fat/decreased muscle– Transdermal, IM, SQ
• Dysphagia may potentially alter absorption
Overall, extent or rate of absorption not significantly altered
Distribution
• Increased Vd for water soluble drugs
in body fat
in serum proteins
Pharmacokinetics and Aging
• Identify the drug below that is metabolized more slowly in elderly adults than in young adults.
Amlodopine Atorvastatin Metoclopramide Morphine
Pharmacokinetics and Aging
• Identify the drug below that is metabolized more slowly in elderly adults than in young adults.
Amlodopine Atorvastatin Metoclopramide Morphine
Metabolism
• Drugs with a high extraction ratio (ER)
• Decreased clearance:
• reduced hepatic blood flow • reduced liver mass
High Extraction
• Examples of high ER drugs with decreased clearance:
– Meperidine, morphine– Metoprolol, propranolol– Amitriptyline, nortriptyline– Verapamil
Metabolism
• Decreased oxidative (phase I, P-450) metabolism due to reduced liver volume and perfusion.
– Diazepam, piroxicam, theophylline, quinidine
– Confounded by smoking, diet, drug interactions, race, sex, and frailty
Patient Case An 82 year old white woman has been
having anxiety due to the anniversary of her husband’s death. Which one of the following would be the safest pharmacologic treatment for her anxiety?
• Alprazolam• Chlordiazepoxide• Diazepam• Lorazepam
An 82 year old white woman has been having anxiety due to the anniversary of her husband’s death. Which one of the following would be the safest pharmacologic treatment for her anxiety?
• Alprazolam• Chlordiazepoxide• Diazepam• Lorazepam
Metabolism
• No change in phase 2 metabolism
– Lorazepam, oxazepam, temazepam
Renal Elimination
• Identify the drug below that is renally excreted more slowly in elderly adults than in young adults.
Celecoxib Gabapentin Morphine Sertraline
Renal Elimination
• Identify the drug below that is renally excreted more slowly in elderly adults than in young adults.
Celecoxib Gabapentin Morphine Sertraline
Renal EliminationDecrease in:
• Kidney mass
• Nephron size and number
• Renal blood flow
• Tubular secretion
• Glomerular filtration rate
Examples of Renally Eliminated Drugs
– Metoclopramide, H2-blockers, digoxin, gabapentin, atenolol, nadolol, allopurinol, magnesium laxatives, chlorpropamide
– Aminoglycosides, cephalosporins, penicillins, quinolones, vancomycin
Renally-Eliminated Active Metabolites
• Meperidine (normeperidine)
• Morphine (M3G and M6G)
• Propoxyphene (norpropoxyphene)
• Venlafaxine (O-desmethylvenlafaxine)
• Carbamazepine (Carbamazepine-
10,11-epoxide)
Drug Dosing and Measures of Renal Function
• Use creatinine clearance– Calculated or measured
Estimated CrCl (ml/min) = (140-age) x (IBW) * 0.85 for females 72 x SCr
– If SCr < 1, use SCr = 1 to adjust for muscle mass
• Serum creatinine (used alone)– An unreliable marker in elderly
Example: Creatinine Clearance vs. Age in a 5’5”, 55 kg Woman
301.190
411.170
531.150
651.130
CrClScrAge
Pharmacodynamics and Aging
• Some effects are increased– alcohol increases drowsiness and lateral
sway– e.g. diazepam, morphine, theophylline
• Some effects are decreased– diminished HR response to -blockers
Pharmacodynamics: Acetylcholine Blockers
• Decreased tolerance to adverse effects
• Constipation, urinary retention
• Dry mouth, dry eyes, dry skin
• Memory impairment
• Delirium
Pharmacodynamics: Digoxin
• Pattern of toxicity – young vs. elderly
• Increased cardiac sensitivity to digoxin due to:– Hypokalemia, hypothyroidism,
hypomagnesemia, hypercalcemia, acute hypoxia
Pharmacodynamics: Dopamine Blockers
• CNS dopamine decline
• Adverse drug effects from antipsychotic agents, metoclopramide– Extrapyramidal effects– Parkinsonism– Tardive dyskinesia
Risk Factors for Drug Related Problems in the Elderly
• Suboptimal prescribing
• Medication Errors
• Medication nonadherence
Medication Appropriateness Index
1. Is there an indication?2. Is the medication effective for the condition?3. Is the dosage correct?4. Are the directions correct?5. Are the directions practical?6. Are there clinically significant drug-drug
interactions?7. Are there clinically significant drug-disease
interactions?8. Is there unnecessary duplication?9. Is the duration of therapy acceptable?10. Is this drug the least expensive alternative?
Additional Criteria for Drug Use• Compatible safety and side effect profile
• Low risk of drug/nutrient interactions
• T1/2 < 24h with no active metabolites
• No adjustments for renal/hepatic function
• Strength/dosage form match recommendations for older adults
Newer Drugs
• What is unique about the new drug?
• Is clinical data available?
• How does it compare with traditional therapy?
• Cost?
• Coverage by third party payers?
• Does potential advantage justify risk of new drug?
How to Prescribe Appropriately1. Obtain complete drug history
2. Avoid prescribing prior to diagnosis
3. Review medications regularly
4. Know actions, adverse effects, toxicity
5. Start at low dose and titrate
6. Try not to start two drugs at the same time
7. Reach therapeutic dose before
switching/adding
8. Consider non-pharmacological alternatives
How to Prescribe Appropriately
7. Educate patient/caregiver
8. Use one drug to treat two conditions
9. Keep regimen as simple as possible
10. Caution with combination products
11. Communicate with other prescribers
12. Avoid drugs from same class/similar actions
13. Avoid one drug to treat side effect of another
Prescribing Cascade
Drug 1
Adverse drug effect misinterpreted as
new medical condition
Drug 2
Adverse Drug Effect
BMJ. 1997;315:1097
Optimize Drug Therapy
Overprescribing
Underprescribing
Patient Case A 78 year old African American man has a hx of
falls. He also has a hx of DM, HTN, depression and insomnia. He is currently taking glipizide 5mg qd, HCTZ 25mg qd, sertraline 25mg qd, and diazepam 2mg prn insomnia. His BP is 126/62, HR 68, RR 18, CBC WNL, BUN/SCr 28/1.2, HbA1c 7.2%, Chol 109, TG 58, HDL 41, LDL 56. Which one of the following medications is underutilized?
a. Aspirinb. Beta blockerc. HMG CoA reductase inhibitord. Warfarin
a. Aspirin
b. Beta blocker
c. HMG CoA reductase inhibitor
d. Warfarin
Undertreatment
• CAD -blockers
– Aspirin
• Anticoagulation for A Fib
• HTN
• Pain
Drug-Food Interactions
• Warfarin and vitamin K
• Methotrexate and folate
• Phenytoin and vitamin D metabolism
• Impact on appetite– taste alteration– decreased saliva production
Drug-Disease Interactions
• Decongestants and anticholinergics BPH
• CCB’s and anticholinergics constipation
• NSAIDs Heart Failure
NSAIDs
• Side effects – GI hemorrhage– Decline in GFR
• Decreased effectiveness of diuretics and antihypertensives
• For mild OA, use acetaminophen
Anticipate Side Effects
• Narcotics– begin stimulant laxative– docusate not sufficient
• Steroids– osteoporosis prevention– hyperglycemia
Drug-Induced Osteoporosis
• Identify the drug listed below that has been associated with osteoporosis in elderly adults. a.Alprazolam
b.Divalproex
c.Fluoxetine
d.Risperidone
Drug-Induced Osteoporosis
• Identify the drug listed below that has been associated with osteoporosis in elderly adults. a.Alprazolam
b.Divalproex
c.Fluoxetine
d.Risperidone
Drug-Induced Osteoporosis
• Glucocorticoids
• Anticonvulsants
• Excessive thyroid replacement
• Gonadotropin-releasing hormone analogues
Potential Barriers to Improving Adherence
• Poor attitude• Memory deficits• Language• Literacy• Cultural beliefs• Alternative health
beliefs• Poor support• Pride
• Denial• Fear or
embarrassment• Side effects• Religious beliefs• Unable to “see”
results of drug therapy
• Lack of choices• Cost
Vermiere E, et al. J Clin Pharm Ther. 2001;26:331-342.
Factors Influencing Ability to Comply 3 chronic conditions
• > 5 prescription medications
12 medication dosages per day
• Regimen changed 4 times in past 12 months
3 prescribers
• Significant cognitive or physical impairment
• Living alone in community
• Recently discharged from hospital
• Reliance on caregiver
• Low literacy Medication cost
• Demonstrated poor compliance history Med Care 1991;29:989
Brown Bag
• Rx, OTC, Herbal, Vitamins, Supplements
• Ask what each medication for
• Ask how it is taken
• Discontinue unnecessary medications
Patterns of Herbal Therapy Use Among Men and Women 65+
Year Old• Men
– Garlic – Glucosamine– Saw palmetto– Ginkgo biloba– Lecithin– Chondroitin– Ginseng
• Women– Ginkgo biloba– Glucosamine– Garlic– Ginseng– Chondroitin– St. John’s wort– Echinacea
Kaufman DW et al, JAMA 2002.
OTC’s
• Elderly take average of 2-4 OTC’s qd
• Laxatives used in 1/3 to 1/2
• NSAIDs, antihistamines, H2 blockers
ALL CAN CAUSE SIDE EFFECTS!
Strategies to Ensure Adherence• Find out about patient/family expectations;
explain why some may not be met
• Provide information on illness / consequences of nonadherence
• Use a behavioral contract
• Increase motivation by enlisting patient/family in decision-making process
Haynes RB, et al. Patient Education and Counseling. 1987;10:155-166
Use Adherence Enhancing Aids
• Medication record
• Drug calendar
• Medication boxes
• Magnification for insulin syringes
• Spacers for MDI’s
Strategies to Ensure Adherence• Ask patient/family to repeat instructions
• Keep directions / labels simple,use lay terms
• Give clear instructions on drug regimen, preferably in writing
• Emphasize importance of adherence at each visit
• Involve patient’s spouse or partner
Haynes RB, et al. Patient Education and Counseling. 1987;10:155-166
•
Questions?
top related