Transcript Methods

Pretreatment with Albuterol versus
Montelukast for Exercise-Induced
Bronchospasm in Children
Raissy HH, Harkins M, Kelly F, Kelly HW
Pharmacotherpay 2008 Mar;28(3):287-94. doi: 10.1592/phco.28.3.287.
Paul Khaper, PGY-2
2/18/2015
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More than 10 percent of the general population and up
to 90 percent of persons previously diagnosed with
asthma have experienced exercise-induced
bronchospasm
S/S: coughing, wheezing, and chest tightness with
exercise; however, many athletes will present with
nonspecific symptoms, such as fatigue and impaired
performance.
Peak about five to 10 minutes after vigorous exercise
Pathophysiology-> the underlying pathogenesis is
poorly understood, but nitric oxide, leukotrienes,
expression of mast cell genes, and epithelial shedding
into the airway lumen are potentially factors in
etiology
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Cys-LTs – cysteinyl leukotrienes LTC4, LTD4, LTE4 have been
detected in exhaled breath condensate in children with asthma
and reported to be higher in patients with exercise induced
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Albuterol rescue inhaler 15 minutes before
exercise. Lasts approximately 2 hours.
?inflammatory component of EIB?
?compliance?
?duration of action?
?long term relief?
What about athletes with prolonged exercise
regimens, playing multiple times a day,
tournaments,
*not all patients with EIB have asthma*
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Leukotriene receptor antagonist
Multiple studies suggesting children taking
montelukast have significant protection against
EIB (1)
Evidence of protection after 3 days of treatment
with Montelukast (2)
Maximum effect of Montelukast occurs 12 hours
after administration, persists up to 24 hours
3 day tx with montelukast lowers Cys-LT [ ]
Long term use of montelukast reduces EIB by 2050%
2007 FDA approved montelukast for prevention of
EIB in asthmatic patients >15yo (3,4)
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P – children/adolescents with EIB with poorly controlled
symptoms
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I – use of alternative pretreatment medication
C – use of singulair instead of albuterol for pretreatment of EIB
O – better prevention of EIB associated symptoms
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This is the first clinical trial comparing the
protective effects of montelukast with albuterol
Study subjects had mild-moderate asthma (193)
Prospective, randomized, double-blind, crossover study
Prospective, randomized, double-blind, crossover clinical trial was conducted from
November 1, 2005–April 30, 2007.
Patients aged 7–17 years with physician-diagnosed mild to moderate asthma for at
least 6 months in addition to self-reported exercise-induced .
Long term controller meds were allowed to be continued
Exclusion->history of cardiac dysfunction
unable to perform exercise challenge or spirometry
used montelukast for asthma management
had upper respiratory infection in the previous 4 weeks
used oral corticosteroids in the previous 3 months.
Study consisted of 4 visits: screening, baseline, study visit 1, study visit 2
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Screening and baseline visits: EIB was assessed
Patients were required to have a positive exercise challenge, defined as a
15% or greater decrease in FEV1 at both the screening and baseline visits
(1-14 days later) to qualify
the end of the baseline visit, eligible patients were randomly assigned to
receive either montelukast capsules 5–10 mg (depending on age) or
matching placebo capsules to be taken Every night for 3-7 days.
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Study Visit 1 : was scheduled 3–7 days later .
At this visit,
exhaled breath condensate was measured, and baseline spirometry was
performed.
Patients who had received montelukast were then instructed to use 2
puffs of a placebo metered-dose inhaler (MDI) 15 min before exercise
challenge.
patients who had received placebo used 2 puffs (90 µg/puff) of an
albuterol MDI 15 minutes before the exercise challenge. At the end of
study visit 1, patients were crossed over to the alternative therapy and
scheduled for study visit 2.
All visits were scheduled for 7:30 A.M. (± 30 min), so the exercise
challenge could be performed approximately 12 hours (± 30 min) after the
last dose of montelukast
Study Visit 2: Cross over
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Exercise Challenge:
Pre-exercise spirometry was performed 5 minutes before the challenge.
exercise challenge was performed on a treadmill. Workload was
increased until 80–90% of the maximum heart rate (220 minus age) was
achieved in the first 2 minutes, and exercise was sustained for 6 minutes.
Spirometry was performed immediately after exercise (time 0) and at 5,
10, 15, 20, 30, and 60 minutes.
A positive exercise challenge was defined as a decrease in FEV1 from
the preexercise value by at least 15%.
Patients were instructed to withhold their short-acting b2-agonist and
cromolyn for 6 hours and long-acting b2-agonist for 12 hours before the
exercise challenge.
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Exhaled Breath Condensate – collected at beginning of
visits 1 and 2.
Cys- LT concentration measured by specific enzyme immunoassay
The exhaled breath condensate was collected and analyzed in all of the
qualified patients and the last 11 patients with a negative exercise
challenge
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Primary Outcome - maximum change in FEV1
after exercise
Secondary Outcomesarea under the curve for FEV1 (expressed as
percentage decrease from baseline FEV1) in the
first 60 minutes (AUC0–60) after exercise
proportion of patients in whom exerciseinduced bronchospasm was prevented.
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91 pts recruited
13 lost to follow up/other reasons
78 completed screening test, 13 of whom had
EIB
11 of 13 completed study
100% adherence to study
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Pretreatment with albuterol had greater
efficacy than pretreatment with montelukast in
prevention of EIB
The FEV1 AUC 0-60 after exercise was
signficantly smaller with albuterol compared
montelukast
100% pts using albuterol pretreatment had
prevention of EIB symptoms
55% of those taking montelukast had
prevention of symptoms.
Cys-LT concentrations did not significantly differ
between patients receiving montelukast and
patients receiving placebo.
Pts with a negative exercise challenge test had
lower Cys-LT compared with EIB pts, but
difference was not statistically significant
(p=0.08)
No correlation between severity of EIB or
response to Montelukast and Cys-LT [ ]
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Study was designed to assess protective effect
of Montelukast against EIB at 12 hours after
ingestion (max effect)
Pts were allowed to continue taking B2
agonists previously prescribed
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Limitations: 11pt study. Difficult to get patients for EIB and go
through study (tests). Helpful to do a cross-over study for this
topic.
Question of every cross over study does the manner/timing of
giving medications have any effect on patient response
Was there enough time for washout period?
No long term effects studies of montelukast, studies have shown
optimal long term efficacy of montelukast up to 8 weeks
No studies with patients who have had failure with –beta 2
agonists
Decreased protection over time due to increased sensitivity to
exercise long term B2 agonists
Montelukast use in Adults, no significant studies since FDA
approval in 2007.
Clinical use
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2008 Feb;121(2):383-9. Epub 2007 Nov 5.
Effect of different antiasthmatic treatments on
exercise-induced bronchoconstriction in children
with asthma.
Stelmach I1, Grzelewski T, Majak P, Jerzynska J,
Stelmach W, Kuna P.
Regular antiasthma treatment with inhaled
glucocorticosteroids (ICSs) and leukotriene modifiers
alleviates exercise-induced bronchoconstriction in
children.4, 5 and 6 In contrast with bronchodilators, which
children often forget to take as needed, these
medications do not have to be taken immediately
before the exercise, and they modify airway
hyperresponsiveness
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Children 6 to 18 years of age with atopic asthma were randomized
to a 4-week, placebo-controlled, double-blind trial. Patients were
randomly allocated to receive:
daily 200 mcg budesonide (twice daily, 100 mcg per dose) + 9
mcg formoterol (twice daily, 4.5 mcg per dose; n = 20);
200 mcg budesonide + 5 or 10 mg montelukast (once daily at
bedtime; n = 20);
5 or 10 mg montelukast (n = 20);
200 mcg budesonide (n = 20);
or placebo (n = 20). A standardized treadmill exercise challenge
was performed before and after treatment.
Put under 4 week treatment then exercise challenged
All modalities improved EIB vs placebo but The protection
effect of monotherapy with montelukast and combined therapy
of montelukast with budesonide on EIB was greater than that of
other 2 active treatment groups.
Prolonged effect of montelukast in asthmatic children
with EIB. Pediatric Pulmonology 2005;39:162-6. Kim JH,
Lee SY, Kim et al
2. Montelukast versus Salmeterol in patients with asthma
and EIB. J Allergy Clin Immunology 1999;104:547-53.
Villaran C, O’Neill SJ, Helbling A et al
3. Effects of a Leukotriene receptor antagonist on exhaled
Leukotriene E4 and prostanoids in children with
asthma. J Allergy Clin Immunology 2006;118:347-53
Montuschi P, Mondino C, Koch P, Barnes PJ
4. Protection against exercise-induced bronchoconstriction
two hours after a single oral dose of montelukast. J
Asthma 2007;44:213-17. Philip G, Villaran C, Pearlman
DS, Loeys T
1.