Pulmonary Complications of Cystic Fibrosis Salia Farrokh, Pharm.D PGY2 Critical Care Pharmacy Resident Yale-New Haven Hospital December 9, 2012 Objectives Review the pathophysiology of Cystic Fibrosis (CF) List clinical manifestations of the disease Describe the pathogenesis of pulmonary complications Define treatment of pulmonary complications Provide evidence based clinical recommendations regarding medication management of respiratory complications Epidemiology Currently 70,000 people are diagnosed with CF in the world 30,000 in the US 54.9% men vs. 46.1% women More than 70% are diagnosed by age 2 Epidemiology Race Prevalence Whites of northern European origin * 93.7% Hispanics 3.2% African Americans 2.7% Other ethnicity 0.4% *Most common lethal genetic disease in the Caucasian population Epidemiology In the1950s, only few CF children lived to attend elementary school In 2012, the estimated median age of survival for a CF patient is in the late 30’s Currently, more than 45% of CF patients are 18 or older Background Cystic Fibrosis (CF) is an inherited chronic disease of the secretary glands CF is an autosomal recessive trait Source: http://www.healthtalkandyou.com/severity-of-cystic-fibrosis-linked-to-genetics/
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JT is 40 YO male with PMH significant for CF,anemia, and depression. He was admitted toBridgeport Hospital, with CC of SOB andtemperature of 38.4˚C. His sputum culture isgrowing PSA susceptible to tobramycin, doripenem,and ciprofloxacin.
JT has a normal renal function (Clcr ~ 70 mL/min)and NKDA Wt: 65 Kg
Ht: 170 cm
Question #3
How would you dose tobramycin for JT?
1) 450 mg IV every 24 hours
2) 650 mg IV every 24 hours
3) 80 mg IV every 8 hours
4) 120 mg IV every 12 hours
5) None of the above
Pathogen Specific Treatment
Pathogen Drug Amount Route Frequency
S. aureus
Oxacillin 2 gm IV Q4 h
Vancomycin 15 mg/kg IV Q6, Q8h,Q12
PSA Amikacin 7.5 mg/kg30 mg/kg
IV Q 8hDaily
Tobramycin 1.7 mg/kg10 mg/kg
IV Q 8hDaily
Ciprofloxacin 400 mg500- 750 mg
IVPO
Q 8h, Q12h
Ceftazidime 2 gm IV Q 8h
Pip/tazo 4.5 gm IV Q 6h
H.flu Amoxicillin 500-1000 mg PO Q12h
Amox/clav 875 mg (Amox) PO Q 12h
Ceftriaxone 1gm IV Q24h
Rare OrganismsOrganism Drug Amount Route Frequenc
y
B. cepacia complex Meropenem plus(choose one)MinocyclineAmikacinCeftazidimeChloramphenicolTimeth/sulf
Ciprofloxacin Decreased Decreased No change No change
Gentamicin No change Increased Increased Not reported
Tobramycin No change Increased Increased No change
Amikacin No change Increased Increased Increased
Meropenem Decreased Decreased Increased Increased
Doripenem No change No change No change No change
Antibiotics for Chronic Suppressive Therapy
Aerosolized Antibiotics
Rationale: to eradicate initial and suppress chronic PSAinfectionDrug Dose Patient Population CFF
Recommendation
Aerosolizedtobramycin (Tobi®) 300 mg BID
≥ 6 YO with +respiratory PSAculture and moderate– severe disease
Strongrecommendation forchronic use
≥ 6 YO with +respiratory PSAculture and milddisease
Recommendation forchronic use
Aerosolizedcolistin
50-75 mg2-3/day
≥ 6 YO with +respiratory PSAculture
Insufficient evidenceto recommend for oragainst chronic use
Aerosolizedaztreonam(Cayston®)
75 mg TID ≥ 7 YO with +respiratory PSAculture
?
Evidence
Two large, multicenter, double blind,placebo controlled trials
Method: 520 patients received 300mg of inhaled tobramycin orplacebo BID (3 on–off cycles for atotal of 24 weeks)
Primary endpoints:
Improved FEV1
Increase by 10% at week 20
Reduced sputum PSA density
Decrease by an average of0.8 log 10
26% less hospitalization
Ramsey BW. et al. N Engl J Med 1999;340:23-30
P < 0.001
Evidence
A multicenter, randomized clinical trial of nebulizedtobramycin or colistin in CF
Method: 115 patients received either Tobramycinor colistin, BID x 4 weeks
Primary Endpoints
Tobramycin improved FEV 1 by 6.7%
No improvement was observed with colistin
Both agents significantly reduced sputum PSA density
Eur Respir J 2002; 20:658-664
Evidence
Inhaled aztreonam trials
Trial N Dosing Regimen Results
Phase II doubleblinded
105 75 mg and 225 mg BID vs.placebo for 14 days
75 mg was selected forfuture studies due to doserelated respiratoryadverse effects
Phase III doubleblinded
164 75 mg TID vs. placebo for28 days
↑ FEV1 by 10.3%,
Phase III doubleblinded
211 75 mg BID or TID vsplacebo for 28 days (openlabel TIS)
↑ time-to- need abx by21 days
Elbon S. and Henig NR. Expert Opinion Pharmacotherapy 2010;11(8): 1373-1385
TIS vs. AZLI
A multicenter, randomized, parallel group study
28 day, intermittent, repeating cycles of Tobramycin InhalationSolution (TIS) vs. Aztreonam for Inhalation Solution (AZLI)
300 mg BID vs. 75 mg TID
N total = 268 CF patients with PSA
N aztreonam = 136
N tobramycin = 132
Oermann, CM et al. Ped Pulm 2010 in press
TIS vs. AZLI
Results: mean ∆ in FEV1% predicted at day 28 AZLI (8.35) vs. TIS (0.55)
AZLI TIS % ↓ p
Total number of respiratory hospitalizations 40 58 31% 0.044
Total number of respiratory events requiringIV and/or inhaled anti PSA abx
84 121 31% 0.004
Recombinant Human DNase
Rationale: to improve airway clearance bydegrading large amount of free DNA
Drug Dose Patient Population CFFRecommendation
Dornase alpha(Pulmozyme®)
2.5 mg once a day(BID?)
≥ 6 YO withmoderate –severe disease
Strongrecommendationfor chronic use
≥ 6 YO withmild disease
Recommendationfor chronic use
Evidence for moderate-severe disease
Trial Number o patients Duration FEV1 end points
Fuchs et al. 968 24 weeks ↑ by 5.8%
McCoy et al. 320 12 weeks ↑ by 7.3%
Total of 19 trials in moderate-severe CF patients Long term vs. short term Better FEV1 outcomes with long term trials Better FEV1 outcomes with larger trials
Evidence for mild disease
A 2 year randomized,multicenter, placebo-controlled trial
Method: 474 patientsreceived DNase orplacebo
Results: Respiratory
exacerbation wasreduced by 34%
Mean FEV1 improved by3.2% ± 1.2%(p=0.006)
Quan JM. et al. J Pedi 2001;139:831-820
Hypertonic Saline
Rationale: to increase hydration of respiratory tractand improve mucocilliary clearance
Drug Dose PatientPopulation
CFFRecommendation
Hypertonic Saline 4 ml BID ≥ 6 YO CFpatients
Recommendation forchronic use
Evidence
Multiple trials with conflicting results
Eng et al.
Effects of 6% inhaled saline BID in 58 patients x14 days
Mean FEV1 increase of 15% vs. 2.8% seen in 0.9% saline
Elkins et al.
Effects of 7% inhaled saline BID in 164 patients x 48 weeks
No change in FEV1 compared with 0.9% saline
56% reduction in pulmonary exacerbations
Anti-inflammatory Agents
Rationale: to prevent inflammation and subsequentobstruction and infection Excessive inflammatory response in CF patients
A multicenter, randomized,double-blind, placebo-controlled
Method: 185 patients withCF and PSA for > 1 year Azithromycin 250 mg (wt <
40 kg) or 500 mg (wt≥ 40kg) 3 days a week orplacebo for 168 days
Primary Endpoints: Improved FEV1by 4.4% Reduced exacerbation Increased body wt by 0.7 kg
Saiman L. et al. JAMA. 2003;290:1749-1756
Bronchodilators
Rationale: to provide symptomatic relief and tofacilitate clearance of the airways
Standard component of therapy
Drug Drug/Dose Population CFFRecommendation
Beta 2 receptoragonist
Albuterol neb (0.5-5mg/day)
≥ 6 YO CFpatients
Recommendation forchronic use
Inhaledanticholinergicagents
Ipratropium neb ( 50-500 mcg/day)
≥ 6 YO CFpatients
Insufficient evidenceto recommend for oragainst chronic use
N-acetylcysteine
Rationale: to improve mucus clearance by breakingdisulfide bonds
Clinical trials showed no benefit from inhaled ororal NAC
Drug Dose Patient Population CFF population
N-acetylcysteine oral ? ≥ 6 YO CF Insufficient evidenceto recommend for oragainst chronic use
N-acetylcysteineinhalation
3-5 ml of 20%6-10 ml of 10%
≥ 6 YO CF Insufficient evidenceto recommend for oragainst chronic use
Future Direction
Personalized Medicine
Kalydeco® by Vertex pharmaceuticals
Newest agent approved (January 31, 2012)
First to target the genetic defect
Targets G551d mutation
Makes CFTR protein structure open too slowly
Price? $294,000 for the BID dosing tablet/year
Duration? Life long!
Currently Vertex is studying a compound that will targetF∆508 mutation
F∆508 is the most common mutation
Thank you!
References
Farrell PM, Rosenstein BJ, White TB, et al. guidelines for diagnosis of cystic fibrosis innewborns through older adults: cystic fibrosis foundation consensus report. J Pediatr 2008:153 (2): S4-S14
Touw DJ. Clinical Pharmacokinetics of antimicrobial drugs in cystic fibrosis. Pharm World Sci1998;20(4):149-160
Flume PA, O’Sullivan BP, Robinson KA, et al. Cystic fibrosis pulmonary guidelines. Am J RspirCrit CareMed 2007; 176: 957-969
Ross LF. A re-examination of the use of ethnicity in prenatal carrier testing. Am J Med GenetPart A 2011;158A: 19-23
Quan JM, Tiddens HA, Sy JP, et al. A two-year randomized, placebo-controlled trial ofdornase alfa in young patients with cystic fibrosis with mild lung function abnormalities. JPediatr 2001;139:813–20
Saiman L, Marshall BC, Mayer Hamblett N. et al. Azithromycin in Patients With Cystic FibrosisChronically Infected With Pseudomonas aeruginosa. JAMA. 2003;290:1749-1756
Ramsey BW, Pepe Ms, Quan JM, et al. Intermittent administration of inhaled tobramycin inpatients with cystic fibrosis. N Engl J Med 1999;340:23-30
References
Smyth AR, Bhatt J. Once daily versus multiple daily dosing with intravenous aminoglycosidesfor cystic fibrosis. Cochrane Database of Systemic Reviews 2012. Issue 2. Art. No.: CD002009.DOI: 10.1002/14651858.CD002009.pub4.
Gibson RL, Burns JL, Ramsey BW. Pathophysiology and Management of Pulmonary Infectionsin Cystic Fibrosis. Am J Respir Crit Care Med 2003;168: 918-951.
Cirillo I. Vaccaro N, Redman R. et al. Pharmacokinetics of Single-Dose Doripenem in Adultswith Cystic Fibrosis. Journal of Clinical Pharmacology2011; 1-9.
Miall LS, McGinley NT, Brownlee KG, et al. Methicillin resistant Stphylococcus aureus (MRSA)infection in cystic fibrosis. Arch Dis Child 2001;84:160-162.
Ballmann M, Smyth A, and Geller DE. Therapeutic Approaches to chronic cystic fibrosisrespiratory infections with available, emerging aerosolized antibiotics. Respiratory Medicine2011; 105 (S2): S2-S8.