Study of Ataluren (PTC124™) in Cystic Fibrosis

Phase 3

Completed

Conditions: Cystic Fibrosis

Interventions: Drug: Ataluren
Drug: Placebo

Registration Number: NCT00803205

Lead Sponsor: PTC Therapeutics

Brief Summary: Cystic fibrosis (CF) is a genetic disorder caused by a mutation in the gene that makes the cystic fibrosis transmembrane conductance regulator (CFTR) protein. A specific type of mutation called a nonsense (premature stop codon) mutation is the cause of CF in approximately 10% of patients with the disease. Ataluren is an orally delivered investigational drug that has the potential to overcome the effects of the nonsense mutation. This study is a Phase 3 trial that will evaluate the clinical benefit of ataluren in adult and pediatric participants with CF due to a nonsense mutation. The main goals of the study are to understand whether ataluren can improve pulmonary function and whether the drug can safely be given for a long period of time. The study will also assess the effects of ataluren on CF pulmonary exacerbation frequency, cough frequency, health-related quality of life, antibiotic use for CF-related infections, CF-related disruptions to daily living, body weight, and CF pathophysiology.

Detailed Description: This study is a Phase 3, multicenter, randomized, double-blind, placebo-controlled, efficacy and safety study, designed to document the clinical benefit of ataluren when administered as therapy of participants with CF due to a nonsense mutation (premature stop codon) in the CFTR gene. It is planned that \~208 participants who are ≥6 years of age and have a forced expiratory volume in 1 second (FEV1) ≥40% and ≤90% of predicted will be enrolled. Study participants will be enrolled at sites in North America, Europe, and Israel. They will be randomized in a 1:1 ratio to either ataluren or placebo. Participants will receive study drug 3 times per day (at morning, midday, and evening) for 48 weeks. Participants will be evaluated at clinic visits every 8 weeks. Additional safety laboratory testing, which may be performed at the investigational site or at an accredited local laboratory or clinic, is required every 4 weeks for the first 6 months of study participation. At the completion of blinded treatment, all compliant participants will be eligible to receive open-label ataluren in a separate extension study.

Recruitment & Eligibility

Status: COMPLETED

Sex: All

Target Recruitment: 238

Inclusion Criteria

Ability to provide written informed consent (parental/guardian consent and participant assent if <18 years of age)
Age ≥6 years
Body weight ≥16 kg
Abnormal nasal transepithelial potential difference (TEPD) total chloride conductance (a less electrically negative value than -5 millivolts (mV) for total chloride conductance [Δchloride-free+isoproterenol])
Sweat chloride >40 milliequivalents/liter (mEq/L)
Documentation of the simultaneous presence of a nonsense mutation in at least 1 allele of the CFTR gene and a CF-causing mutation in the other CFTR allele, as determined by gene sequencing from a laboratory certified by the College of American Pathologists (CAP), under the Clinical Laboratory Improvement Act/Amendment (CLIA), or by an equivalent organization
Verification that a blood sample has been drawn for confirmation of the presence of a nonsense mutation in the CFTR gene
Ability to perform a valid, reproducible spirometry test using the study-specific spirometer with demonstration of an FEV1 ≥40% and ≤90% of predicted for age, gender, and height
Resting oxygen saturation (as measured by pulse oximetry) ≥92% on room air
Documentation by VivoMetrics that the participant has satisfactorily completed a 24-hour LifeShirt® cough frequency assessment
Confirmed screening laboratory values within the central laboratory ranges (hepatic, adrenal, renal, serum electrolytes, and reproduction [women only] parameters)
In participants who are sexually active, willingness to abstain from sexual intercourse or employ a barrier or medical method of contraception during the study drug administration and 4-week follow-up period
Willingness and ability to comply with scheduled visits, drug administration plan, study restrictions, and study procedures

Exclusion Criteria

Known hypersensitivity to any of the ingredients or excipients of the study drug
Any change (initiation, change in type of drug, dose modification, schedule modification, interruption, discontinuation, or reinitiation) in a chronic treatment/prophylaxis regimen for CF or for CF-related conditions within 4 weeks prior to start of study treatment
Exposure to another investigational drug within 4 weeks prior to start of study treatment
Treatment with systemic aminoglycoside antibiotics at the time of the Baseline TEPD assessment
Treatment with intravenous antibiotics within 3 weeks prior to start of study treatment
History of solid organ or hematological transplantation
Ongoing immunosuppressive therapy (other than corticosteroids)
Ongoing warfarin, phenytoin, or tolbutamide therapy
Ongoing participation in any other therapeutic clinical trial
Major complications of lung disease (including massive hemoptysis, pneumothorax, or pleural effusion) within 8 weeks prior to start of study treatment
Evidence of pulmonary exacerbation or acute upper or lower respiratory tract infection (including viral illnesses) within 3 weeks prior to randomization
Known portal hypertension
Positive hepatitis B surface antigen, hepatitis C antibody test, or human immunodeficiency virus (HIV) test
Pregnancy or breast-feeding
Current smoker or a smoking history of ≥10 pack-years (number of cigarette packs/day * number of years smoked)
Prior or ongoing medical condition (for example, concomitant illness, alcoholism, drug abuse, psychiatric condition), medical history, physical findings, electrocardiography findings, or laboratory abnormality that, in the Investigator's opinion, could adversely affect the safety of the participant, makes it unlikely that the course of treatment or follow-up would be completed, or could impair the assessment of study results.

Study & Design

Study Type: INTERVENTIONAL

Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Ataluren	Ataluren	Participants will receive ataluren 3 times per day (TID): 10 milligrams (mg)/kilogram (kg) of body weight with breakfast, 10 mg/kg with lunch, and 20 mg/kg with dinner (total daily dose 40 mg/kg). Treatment will continue for 48 weeks, after which participants will be followed for 4 weeks.
Placebo	Placebo	Participants will receive placebo TID: 10 mg/kg of body weight with breakfast, 10 mg/kg with lunch, and 20 mg/kg with dinner (total daily dose 40 mg/kg). Treatment will continue for 48 weeks, after which participants will be followed for 4 weeks.

Primary Outcome Measures

Name	Time	Method
Percentage of Predicted Function (Percent-Predicted) of Forced Expiratory Volume in One Second (FEV1) at Baseline	Baseline (Week 1)	Spirometry was used to assess pulmonary function by measuring the percentage of predicted function, which was determined on the basis of the height value obtained at the same study visit, for FEV1 (the amount of air that can be exhaled in 1 second). Spirometry was assessed by using current guidelines of the American Thoracic Society (ATS) and European Respiratory Society (ERS). Baseline was the average of percent-predicted FEV1 at screening and randomization.
Percentage Change From Baseline in Percent-Predicted of FEV1 at Week 48	End of Treatment (EOT) (Week 48)	Spirometry was used to assess pulmonary function by measuring the percentage of predicted function, which was determined on the basis of the height value obtained at the same study visit, for FEV1 (the amount of air that can be exhaled in 1 second). Spirometry was assessed by using current guidelines of the American Thoracic Society (ATS) and European Respiratory Society (ERS). The percentage of change in percent-predicted of FEV1 was calculated as follows: (\[percent-predicted FEV1-Baseline percent-predicted FEV1\]/Baseline percent-predicted FEV1)\*100. Baseline was the average of percent-predicted FEV1 at screening and randomization. A negative change from Baseline indicates that percent-predicted of FEV1 decreased.

Secondary Outcome Measures

Name	Time	Method
Rate of Pulmonary Exacerbations as Defined by Modified Fuch's Criteria Over 48 Weeks	Baseline to EOT (Week 48)	A Respiratory Event Form, which collected data on various signs, symptoms, and effects for each event, was completed by the Investigator when informed by the participant of a respiratory event. Pulmonary exacerbations were assessed by using the modified Fuchs' criteria, which defines an exacerbation as a respiratory event requiring treatment with parenteral antibiotics for any 4 of the following 12 symptoms, with or without intravenous antibiotics: change in sputum; new or increased hemoptysis; increased cough; increased dyspnea; fatigue; temperature \>38°C; anorexia; sinus pain; change in sinus discharge; change in physical examination of the chest; decrease in pulmonary function by 10% or more from a previously recorded value; or radiographic changes indicative of pulmonary function. The 48-week exacerbation rate was determined by adding the weekly rates for each arm and dividing the sum by 48.
Change From Baseline in Awake Cough Hourly Rate at Week 48	Baseline, EOT (Week 48)	The frequency of awake cough was measured using the LifeShirt, which incorporates motion-sensing transducers, electrodes, a microphone, and a 3-axis accelerometer into a lightweight vest. The rate was determined by dividing the total number of coughs by 24 (the number of hours of the observation period). Baseline was the latest, valid assessment prior to the treatment. A negative change from Baseline indicates that coughing decreased.
Change From Baseline in the Respiratory Domain Score of the Revised Cystic Fibrosis Questionnaire (CFQ-R) at Week 48	Baseline, EOT (Week 48)	The CFQ-R consists of 44 items, including generic scales of physical functioning, role functioning, vitality, health perceptions, emotional functioning, and social functioning, and CF-specific scales of respiratory and digestive symptoms, body image, eating disturbances, and treatment burden. Each domain score ranges from 1 to 4. Scores were linearly transformed to a 0 to 100 scale, with higher scores indicating better health. Domain scores were calculated by using the following formula: 100 \* (sum of responses - minimum possible sum)/ (maximum possible sum - minimum possible sum). The minimum possible sum = number of questions \* 1; the maximum possible = the number of questions \* 4. Baseline was the latest, valid assessment prior to the treatment. A negative change from Baseline indicates that health has worsened. Participants may have switched age groups during the study.
Percent-Predicted of Forced Vital Capacity (FVC) at Baseline	Baseline (Week 1)	Spirometry was used to assess pulmonary function by measuring the percentage of predicted function, which was determined on the basis of the height value obtained at the same study visit, for FVC (the amount of air that can be exhaled after taking a deep breath). Spirometry was assessed by using current guidelines of the ATS and ERS. Baseline was the average of percent-predicted FVC at screening and randomization.
Percentage Change From Baseline in Percent-Predicted of FVC at Week 48	EOT (Week 48)	Spirometry was used to assess pulmonary function by measuring the percentage of predicted function, which was determined on the basis of the height value obtained at the same study visit, for FVC (the amount of air that can be exhaled after taking a deep breath). Spirometry was assessed by using current guidelines of the ATS and ERS. The percentage of change in percent-predicted of FVC was calculated as follows: ((percent-predicted FVC-Baseline percent-predicted FVC)/Baseline percent-predicted FVC)\*100. Baseline was the average of percent-predicted FVC at screening and randomization. A negative change from Baseline indicates that percent-predicted of FVC decreased.

Trial Locations

Locations (38): Miller Children's Hospital Long Beach
🇺🇸
Long Beach, California, United States
University of Iowa
🇺🇸
Iowa City, Iowa, United States
University of Texas
🇺🇸
Tyler, Texas, United States
The Children's Hospital
🇺🇸
Aurora, Colorado, United States
Beth Israel Medical Center
🇺🇸
New York, New York, United States
Washington University
🇺🇸
Saint Louis, Missouri, United States
Hôpital Universitaire des Enfants Reine Fabiola
🇧🇪
Brussels, Belgium
Hospital Universitario La Paz
🇪🇸
Madrid, Spain
Azienda Ospedaliera di Verona
🇮🇹
Verona, Italy
Hôpital Erasme
🇧🇪
Brussels, Belgium
University Hospital Leuven
🇧🇪
Leuven, Belgium
University of Toronto
🇨🇦
Toronto, Canada
Universitair Medisch Centrum Utrecht
🇳🇱
Utrecht, Netherlands
Hadassah University Hospital - Mount Scopus
🇮🇱
Jerusalem, Israel
Hôpital des Enfants
🇫🇷
Toulouse, France
Università La Sapienza
🇮🇹
Rome, Italy
Karolinska University Hospital, Huddinge
🇸🇪
Stockholm, Sweden
University of Alabama-Birmingham
🇺🇸
Birmingham, Alabama, United States
Rady Children's Hospital - San Diego
🇺🇸
San Diego, California, United States
University of Miami
🇺🇸
Miami, Florida, United States
Miami Children's Hospital
🇺🇸
Miami, Florida, United States
Emory University Cystic Fibrosis Center
🇺🇸
Atlanta, Georgia, United States
New York Medical College
🇺🇸
Valhalla, New York, United States
Children's Memorial Hospital
🇺🇸
Chicago, Illinois, United States
Johns Hopkins Children's Center
🇺🇸
Baltimore, Maryland, United States
Childrens Hospital of Pittsburgh
🇺🇸
Pittsburgh, Pennsylvania, United States
University of Washington
🇺🇸
Seattle, Washington, United States
Stanford
🇺🇸
Palo Alto, California, United States
Children's Hospital Boston
🇺🇸
Boston, Massachusetts, United States
University of North Carolina
🇺🇸
Chapel Hill, North Carolina, United States
Rainbow Babies & Children's Hospital
🇺🇸
Cleveland, Ohio, United States
University Hospital Brussels
🇧🇪
Brussels, Belgium
Belfast City Hospital
🇬🇧
Belfast, United Kingdom
Alder Hey Children's Hospital
🇬🇧
Liverpool, United Kingdom
Hôpital Necker - Enfants Malades
🇫🇷
Paris, France
Lucile Packard Children's Hospital
🇺🇸
Palo Alto, California, United States
Hôpital Cochin
🇫🇷
Paris, France
Klinikum der Universität Köln
🇩🇪
Köln, Germany