Albuterol HFA MDI in Pediatric Participants With Asthma

Asthma Clinical Trial

Official title:

Phase 3 Study to Evaluate the Chronic-dose Safety and Efficacy of Albuterol-HFA-MDI Relative to Placebo in Pediatric Asthmatics

Clinical Trial Details — Status: Completed

Administrative data

• NCT number: NCT00577655
• Other study ID #: IXR-302-25-105
• Status: Completed
• Phase: Phase 3
• Start date: August 2007
• Est. completion date: July 2008

Study information

• Verified date: November 2021
• Source: Teva Branded Pharmaceutical Products R&D, Inc.
• Contact: n/a
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

The primary objective of this study is to evaluate the chronic-dose and efficacy of Albuterol-HFA-MDI relative to placebo in pediatric asthmatics.

Recruitment information / eligibility

• Status: Completed
• Enrollment: 103
• Est. completion date: July 2008
• Est. primary completion date: July 2008
• Accepts healthy volunteers: No
• Gender: All
• Age group: 4 Years to 11 Years

Eligibility

Inclusion Criteria:

• Male and female child aged 4-11 years, inclusive Asthma of a minimum of six months duration that has been stable for at least four weeks prior to screening.

Exclusion Criteria:

• Hospitalization for acute asthma exacerbation greater than two years in 12 months prior to screening and/or received ER treatment or hospitalization for asthma exacerbation.

Related Conditions & MeSH terms

• Asthma

Intervention

Drug:
• Albuterol
Albuterol HFA MDI 180 mcg four times a day (q.i.d) for a total daily albuterol dose of 720 mcg for 21 days.
• Placebo
Placebo HFA MDI four times a day (q.i.d) for 21 days.
• Proventil® HFA
Proventil® HFA (albuterol sulfate) Inhalation Aerosol (Key Pharmaceuticals) was used as rescue medication in this study. The rescue medication was over-labeled with instructions for emergency use in which subjects were instructed to self-administer up to two puffs every 20 minutes to a maximum of six puffs for any given episode while attempting to seek medical assistance.

Locations

Country	Name	City	State
United States	Regional Allergy & Asthma Consultants	Asheville	North Carolina
United States	Asthma & Allergy Associates, PC	Elmira	New York
United States	Pediatric Care Medical Group, Inc.	Huntington Beach	California
United States	Clinical Research Institute of Southern Oregan, PC	Medford	Oregon
United States	Carlos Piniella, MD	Miami	Florida
United States	ENT & Allergy Associates	Newburgh	New York
United States	Sneeze, Wheeze & Itch Associates, Inc.	Normal	Illinois
United States	California Allergy & Asthma Medical Group	Palmdale	California
United States	Center for Clinical Trials, LLC	Paramount	California
United States	Virginia Adult & Pediatric Allergy & Asthma	Richmond	Virginia
United States	Integrated Research Group, Inc	Riverside	California
United States	Center for Clinical Trials of Sacramento	Sacramento	California
United States	St. Elizabeth's Children Health Center	Utica	New York

Sponsors (1)

Lead Sponsor	Collaborator
Teva Branded Pharmaceutical Products R&D, Inc.

Country where clinical trial is conducted

United States, 

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	Maximum Percent Change From Baseline in Forced Expiratory Volume in One Second (FEV1) Observed up to Two Hours Post Dose (FEV1max%0-2) on Day 22	The FEV1 test is conducted by having a person empty their lungs of air into a mouthpiece attached to a sensor that measures the amount of air blown measured in liters. A standardized spirometer was used with the subject in the sitting or standing position (orientation had to be consistent for each subject during study visits) and wearing a nose clip. Whenever possible, evaluations were performed by the same respiratory therapist on the same calibrated spirometer at approximately the same time (±2 hrs).; The maximum percent change from baseline in FEV1 observed up to 2 hours following completion of dosing using Day 22 baseline. The baseline FEV1 was defined as the average of the two test-day pre-dose baseline FEV1 values.; The reason for the two primary endpoints was that FEV1 is difficult to obtain in children below 7 years of age.	35±5 and 10±2 min prior to dosing, and at 5±2, 15±5, 30±5, 45±5, 60±10, 120 ±10 post dosing on Day 22 or last observation
Primary	Maximum Percent Change From Baseline in Peak Expiratory Flow (PEF) Observed up to Two Hours Post Dose (PEFmax%0-2) on Day 22	The PEF test is conducted by having a person blow as hard as they can into a mouthpiece attached to a sensor that measures the rate of air blown. A standardized spirometer was used with the subject in the sitting or standing position (orientation had to be consistent for each subject during study visits) and wearing a nose clip. Whenever possible, evaluations were performed by the same respiratory therapist on the same calibrated spirometer at approximately the same time (±2 hrs).; The maximum percent change from baseline in the PEF observed up to 2 hours following completion of dosing using Day 22 baseline. The baseline PEF was defined as the average of the test-day pre-dose baseline PEF values.; The reason for the two primary endpoints was that FEV1 is difficult to obtain in children below 7 years of age.	30±5 and 5±2 minutes prior to dosing, and at 7.5±2, 20±5, 35±5, 50±5, 65±10, 125±10 post dosing on Day 22 or last observation
Secondary	Maximum Percent Change From Baseline in Forced Expiratory Volume in One Second (FEV1) up to Two Hours Post-Dose (FEV1max%0-2, %) on Study Days 1 and 22 Using Observed Cases	The FEV1 test is conducted by having a person empty their lungs of air into a mouthpiece attached to a sensor that measures the amount of air blown measured in liters. A standardized spirometer was used with the subject in the sitting or standing position (orientation had to be consistent for each subject during study visits) and wearing a nose clip. Whenever possible, evaluations were performed by the same respiratory therapist on the same calibrated spirometer at approximately the same time (±2 hrs).; The maximum percent change from baseline in FEV1 observed up to 2 hours following completion of dosing using test day baseline. The baseline FEV1 was defined as the average of the two test-day pre-dose baseline FEV1 values.	Days 1 and 22: 35±5 and 10±2 min prior to dosing, and at 5±2, 15±5, 30±5, 45±5, 60±10, 120 ±10 post dosing
Secondary	Maximum Percent Change From Baseline in Peak Expiratory Flow (PEF) up to Two Hours Post-Dose (PEFmax%0-2) on Study Days 1 and 22 Using Observed Cases	The PEF test is conducted by having a person blow as hard as they can into a mouthpiece attached to a sensor that measures the rate of air blown. A standardized spirometer was used with the subject in the sitting or standing position (orientation had to be consistent for each subject during study visits) and wearing a nose clip. Whenever possible, evaluations were performed by the same respiratory therapist on the same calibrated spirometer at approximately the same time (±2 hrs).; The maximum percent change from baseline in the PEF observed up to 2 hours following completion of dosing on study days 1 and 22. The baseline PEF was defined as the average of the test-day pre-dose baseline PEF values.; The reason for the two primary endpoints was that FEV1 is difficult to obtain in children below 7 years of age.	Days 1 and 22: 30±5 and 5±2 minutes prior to dosing, and 7.5±2, 20±5, 35±5, 50±5, 65±10, 125±10 post dosing
Secondary	Baseline Adjusted Area-under-the-Effect Curve for Percent of Predicted Forced Expiratory Volume in One Second (FEV1) Over 6 Hours Post-dose on Day 22 Using Both Day 1 and Day 22 Baselines	The FEV1 test is conducted by having a person empty their lungs of air into a mouthpiece attached to a sensor that measures the amount of air blown measured in liters. Values are then expressed as the percentage of FE1 values predicted for a 'normal' population. Predicted FEV1 values were computed and adjusted for age, height and gender according to Eigen et al. for subjects 4-5 years of age and to Quanjer et al. for subjects aged 6-11 years using American Thoracic Society (ATS) criteria.; The area under-the-effect curves for percent-predicted FEV1 were calculated according to the trapezoidal rule and were based on actual (not scheduled) measurement times.	Baseline (Day 1 or Day 22: 35±5 and 10±2 minutes prior to dosing), Day 22 (5±2, 15±5, 30±5, 45±5, 60±10, 120±10, 240±10, and 360±10 minutes post-dosing or last observation)
Secondary	Baseline-Adjusted Area-under-the Effect Curve for Peak Expiratory Flow (PEF) Over 6 Hours Post-dose on Day 22 Using Both Day 1 and Day 22 Baselines	The PEF test is conducted by having a person blow as hard as they can into a mouthpiece attached to a sensor that measures the rate of air blown.; The area under-the-effect curves for PEF were calculated according to the trapezoidal rule and were based on actual (not scheduled) measurement times.	Baseline (Day 1 or Day 22: 30±5 and 5±2 minutes prior to dosing Day 22: 7.5±2, 20±5, 35±5, 50±5, 65±10, 125±10 post dosing or last observation
Secondary	Maximum Percent-Predicted FEV1 (Max PPFEV1, %) Observed up to Two Hours Following Completion of Dosing on Study Days 1 and 22 (Observed Case)	The FEV1 test is conducted by having a person empty their lungs of air into a mouthpiece attached to a sensor that measures the amount of air blown measured in liters. Values are then expressed as the percentage of FE1 values predicted for a 'normal' population. Predicted FEV1 values were computed and adjusted for age, height and gender according to Eigen et al. for subjects 4-5 years of age and to Quanjer et al. for subjects aged 6-11 years using American Thoracic Society (ATS) criteria.	Days 1 and 22: 5±2, 15±5, 30±5, 45±5, 60±10, 120 ±10 post dosing
Secondary	Time To Maximum Forced Expiratory Volume in One Second (FEV1) Over Six Hours Post-Dose On Days 1 and 22	The FEV1 test is conducted by having a person empty their lungs of air into a mouthpiece attached to a sensor that measures the amount of air blown measured in liters.; Time to maximum FEV1 is defined as the number of minutes required for the baseline FEV1 to increase to the highest FEV1 post dose during the 6 hour observation period.; Median time and confidence intervals obtained via separate Kaplan-Meier estimates for each study day.	Days 1 and 22: 35±5 and 10±2 min prior to dosing, and at 5±2, 15±5, 30±5, 45±5, 60±10, 120 ±10 post dosing
Secondary	Time To Maximum Peak Expiratory Flow (PEF) Over Six Hours Post-Dose On Days 1 and 22	The PEF test is conducted by having a person blow as hard as they can into a mouthpiece attached to a sensor that measures the rate of air blown.; Time to maximum PEF is defined as the number of minutes required for the baseline PEF to increase to the highest PEF post-dose for the 6 hour observation period. Median time and confidence intervals obtained via separate Kaplan-Meier estimates for each study day.	Days 1 and 22: 30±5 and 5±2 minutes prior to dosing, and 7.5±2, 20±5, 35±5, 50±5, 65±10, 125±10 post dosing
Secondary	Participant Responses: Percentage of Participants With a >=15% Increase in Baseline FEV1 Within 30 Minutes Post-Dose on Days 1 and 22	The FEV1 test is conducted by having a person empty their lungs of air into a mouthpiece attached to a sensor that measures the amount of air blown measured in liters. This outcome counts participants who responded to therapy by obtaining a >+15% increase in FEV1 within 30 minutes of dose.; The baseline FEV1 was defined as the average of the two test-day pre-dose baseline FEV1 values.	Days 1 and 22: 35±5 and 10±2 min prior to dosing, and at 5±2, 15±5, 30±5 post dosing
Secondary	Participant Responses: Percentage of Participants With a >=12% Increase in Baseline FEV1 Within 30 Minutes Post-Dose on Days 1 and 22	The FEV1 test is conducted by having a person empty their lungs of air into a mouthpiece attached to a sensor that measures the amount of air blown measured in liters. This outcome counts participants who responded to therapy by obtaining a >+12% increase in FEV1 within 30 minutes of dose.; The baseline FEV1 was defined as the average of the two test-day pre-dose baseline FEV1 values.	Days 1 and 22: 35±5 and 10±2 min prior to dosing, and at 5±2, 15±5, 30±5 post dosing
Secondary	Participant Responses: Percentage of Participants With a >=15% Increase in Baseline PEF Within 30 Minutes Post-Dose on Days 1 and 22	The PEF test is conducted by having a person blow as hard as they can into a mouthpiece attached to a sensor that measures the rate of air blown. This outcome counts participants who responded to therapy by obtaining a >+15% increase in PEF within 30 minutes of dose.; The baseline PEF was defined as the average of the two test-day pre-dose baseline PEF values.	Days 1 and 22: 35±5 and 10±2 min prior to dosing, and at 5±2, 15±5, 30±5 post dosing
Secondary	Participant Responses: Percentage of Participants With a >=12% Increase in Baseline PEF Within 30 Minutes Post-Dose on Days 1 and 22	The PEF test is conducted by having a person blow as hard as they can into a mouthpiece attached to a sensor that measures the rate of air blown. This outcome counts participants who responded to therapy by obtaining a >+12% increase in PEF within 30 minutes of dose.; The baseline PEF was defined as the average of the two test-day pre-dose baseline PEF values.	Days 1 and 22: 35±5 and 10±2 min prior to dosing, and at 5±2, 15±5, 30±5 post dosing
Secondary	Weekly Average Highest (Worst) Daily Asthma Symptom Scores for Weeks 1, 2 and 3	Highest daily asthma symptom scores by study week. For this assessment, patients self-evaluate and record on the diary card the following asthma symptoms experienced during the day (i.e. last 12-14 hours): wheeze, shortness of breath, cough, tightness of chest. The worst of these symptoms were scored daily on a four-point scale: 0 = No symptoms occurred; 1 = Symptom occurred but did not interfere with daily activity; 2 = Symptom occurred but was sometimes annoying or interfered with daily activity; 3 = Symptom present even at rest and was annoying or interfered with daily activity	Weeks 1, 2, 3
Secondary	The Number of Asthma-Related Nocturnal Awakenings Per Week Requiring the Use of Rescue Medication	Participants recorded every morning on awakening the number of asthma-related nocturnal awakenings requiring use of rescue medication that occurred during the previous night.	Run-in (Days -21 to -1), Weeks 1, 2, 3
Secondary	Weekly Average Peak Expiratory Flow (PEF) Obtained Pre-Dose Each Morning	Participants measured their PEF as trained by taking as deep a breath as possible, placing their mouth firmly around the mouthpiece of the flow meter to form a tight seal, and exhaling as hard and as fast as possible. Subjects repeated the process twice at intervals of approximately 30 seconds, and then recorded the highest of the three PEF values on the diary card.	Weeks 1, 2, 3
Secondary	Weekly Average Number of Puffs of Rescue Medication Taken Each Day for Study Weeks 1, 2 and 3	Participants recorded every morning on awakening the number of asthma-related nocturnal awakenings requiring use of rescue medication that occurred during the previous night and the number of puffs of rescue albuterol used during the night after going to bed. At the end of each day, the number of puffs of albuterol rescue medication used during the day were recorded.	Weeks 1, 2, 3