Trikafta Exercise Study in Cystic Fibrosis

Cystic Fibrosis Clinical Trial

Official title:

Long-term Effects of Elexacaftor/Tezacaftor/Ivacaftor (Trikafta) on Exertional Symptoms, Exercise Performance, Ventilatory Responses, and Body Composition in Adults With Cystic Fibrosis

Clinical Trial Details — Status: Recruiting

Administrative data

• NCT number: NCT05279040
• Other study ID #: H21-02125
• Status: Recruiting
• Start date: November 10, 2021
• Est. completion date: December 2025

Study information

• Verified date: December 2023
• Source: University of British Columbia
• Contact: Satvir S Dhillon, MSc
• Phone: 6048068835
• Email: satvir.dhillon[@]hli.ubc.ca
• Is FDA regulated: No
• Study type: Observational

Clinical Trial Summary

Shortness of breath (dyspnea) during exercise is a major source of distress and is a commonly reported symptom in patients with cystic fibrosis (CF). A recent drug treatment option known as Trikafta, which contains elexacaftor, tezacaftor, and ivacaftor, may be used in patients with CF to help improve lung health. However, the effects of this combination therapy on dyspnea and exercise performance, a known predictor of survival in CF, are not clear. The investigators aim to understand the effects of Trikafta on these symptoms and to gain new insight into the potential health improvements in CF from using this treatment option.

Description:

Justification: Advances in therapies and patient care have led to dramatic improvements in CF survival. Consequently, CF patients are living longer with varying degrees of lung function impairment. Dyspnea is a commonly reported symptom in CF that adversely impacts quality of life. Recently, elexacaftor/tezacaftor/ivacaftor (Trikafta), a combination drug therapy, was approved by Health Canada for use in CF patients. Exercise capacity is an important outcome parameter in CF and is a strong predictor of disease prognosis including survival. Although previous research in patients on elexacaftor/tezacaftor/ivacaftor combination therapy reported improved respiratory symptoms and lung function, it remains uncertain as to whether this translates into improvements in exercise performance. Stressing the respiratory system to its physiologic limits through exercise might provide a more sensitive outcome measure to evaluate the response to cystic fibrosis transmembrane regulator (CFTR) modulator therapy. Studies on another CFTR modulator therapy combining lumacaftor and ivacaftor, have shown inconclusive results on exercise tolerance in patients with CF when evaluated using an incremental work rate exercise test protocol. However, a far more clinically and physiologically relevant protocol in evaluating treatment effects is to use constant work rate exercise tests and to evaluate dyspnea at standardized submaximal exercise times. Additionally, changes in body composition shown to result from CFTR modulator therapy may also have contributed to these inconclusive findings; however, body composition has not been evaluated in previous CFTR studies.

Purpose: The purpose of this study is to determine the various factors that cause shortness of breath (or dyspnea) in patients with cystic fibrosis (CF) and to determine how treatment with Trikafta can manipulate these factors to improve shortness of breath and exercise capacity.

Hypothesis: The investigators hypothesize that Trikafta will reduce dyspnea intensity ratings and improve exercise capacity. These improvements will be associated with improvements in the ventilatory response to exercise.

Objectives: To perform detailed cardiopulmonary exercise testing before and after the initiation of Trikafta to evaluate its effect on exertional dyspnea and exercise capacity, and to evaluate potential physiological mechanisms of improvement and the impacts of changes in body composition.

Research Design: Observational study conducted over 4 visits. Participants with CF will report to the Cardiopulmonary Exercise Physiology (CPEP) Laboratory on four separate occasions. Visit 1 and 2 will occur before the participants go on drug (Trikafta) and will be separated by a minimum of 48 hours between visits. Visit 3 and 4 will occur at 12 months and 24 months after initiating drug, respectively. On visit 1, participants will complete medical history screening, anthropometric measurements, and a symptom limited incremental cycle exercise test to determine peak incremental work rate. On visit 2, participants will undergo a dual-energy X-ray absorptiometry (DEXA) scan, chronic activity-related dyspnea questionnaires, quality of life questionnaires, physical activity questionnaires, pulmonary function testing, and a constant-load cycle exercise test at 80% of peak incremental work rate. Visits 3 and 4 will include chronic activity-related dyspnea questionnaires, quality of life questionnaires, physical activity questionnaires, a DEXA scan, pulmonary function testing, and a constant-load cycle exercise test at 80% of peak incremental work rate. Data from the constant-load cycle exercise tests performed on visits 2, 3, and 4 will address our hypothesis.

Recruitment information / eligibility

• Status: Recruiting
• Enrollment: 20
• Est. completion date: December 2025
• Est. primary completion date: December 2025
• Accepts healthy volunteers: No
• Gender: All
• Age group: 19 Years and older

Eligibility

Inclusion Criteria:

• Confirmed diagnosis of CF and at least one copy of the F508del mutation in the cystic fibrosis transmembrane conductance regulator (CFTR) gene

• Plan to initiate Trikafta by the treating physician within 30 days of the enrolment visit

• Aged 19 years or older

• Stable clinical status based on clinical judgment of the treating physician

• Forced Expiratory Volume in 1 second (FEV1.0) < 90% predicted

• Body mass index greater than 16 or less than 30 kg/m^2

• Currently non-smoking or a past smoking history of less than 20 pack-years

• Able to read and understand English

• Fully vaccinated (at least 2 doses) for Covid-19

Exclusion Criteria:

• A disease other than CF that could importantly contribute to dyspnea or exercise limitation

• Chronic airway infection with Mycobacterium abscessus, Burkholderia cepacia complex, or other organisms with infection control implications based on the treating physicians

• Contraindications to clinical exercise testing

• Use of supplemental oxygen or desaturation less than 85% with exercise

• Diagnosis of pneumothorax in the past 4 weeks

• History of organ transplantation

Related Conditions & MeSH terms

• Cystic Fibrosis
• Fibrosis
• Lung Diseases

Intervention

Drug:
• Trikafta
Elexacaftor/Tezacaftor/Ivacaftor combination therapy

Locations

Country	Name	City	State
Canada	UBC Centre for Heart Lung Innovation, St. Paul's Hospital	Vancouver	British Columbia

Sponsors (1)

Lead Sponsor	Collaborator
University of British Columbia

Country where clinical trial is conducted

Canada, 

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	Change in Iso-time Dyspnea Rating From Baseline (Visit 2) to Visit 3 and 4 During Constant-load Exercise Tests.	Dyspnea intensity and unpleasantness ratings measured using the Borg 0-10 category ratio scale. The intensity of the sensation is how strong or how much breathing sensation the participant feels, while the unpleasantness of the sensation is how bad or how distressed it makes the participant feel. On the Borg 0-10 category ratio scale range, "0" represents no dyspnea intensity and unpleasantness (i.e., better outcome), while "10" represents the most intense or unpleasant dyspnea (i.e., worse outcome).; Borg dyspnea intensity and unpleasantness ratings taken at iso-time, defined as the maximum time achieved on constant-load exercise tests performed on visits 2, 3, and 4 will be used in the analysis.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Exercise Capacity (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Endurance time measures from the start of exercise to exercise cessation on constant-load exercise tests performed on visits 2, 3, and 4 will be used in the analysis.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Body Composition (Body Fat Mass) Measurements (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Standard measures of body fat mass in units of grams (g) will be performed by dual-energy X-ray absorptiometry (DEXA) scanning using a Hologic Discovery QDR 4500 (Hologic Inc., Bedford, MA.).; DEXA scans will be performed before the initiation of Trikafta treatment (Visit 2), 12 months after drug initiation (Visit 3), and 24 months after drug initiation (Visit 4).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Body Composition (Lean Body Mass) Measurements (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Standard measures of lean body mass in units of grams (g) will be performed by dual-energy X-ray absorptiometry (DEXA) scanning using a Hologic Discovery QDR 4500 (Hologic Inc., Bedford, MA.).; DEXA scans will be performed before the initiation of Trikafta treatment (Visit 2), 12 months after drug initiation (Visit 3), and 24 months after drug initiation (Visit 4).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Body Composition (Bone Mineral Content) Measurements (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Standard measures of bone mineral content in units of grams (g) will be performed by dual-energy X-ray absorptiometry (DEXA) scanning using a Hologic Discovery QDR 4500 (Hologic Inc., Bedford, MA.).; DEXA scans will be performed before the initiation of Trikafta treatment (Visit 2), 12 months after drug initiation (Visit 3), and 24 months after drug initiation (Visit 4).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Body Composition (Bone Mineral Density) Measurements (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Standard measures of bone mineral density in units of grams/centimetres^2 (g/cm^2) will be performed by dual-energy X-ray absorptiometry (DEXA) scanning using a Hologic Discovery QDR 4500 (Hologic Inc., Bedford, MA.).; DEXA scans will be performed before the initiation of Trikafta treatment (Visit 2), 12 months after drug initiation (Visit 3), and 24 months after drug initiation (Visit 4).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Body Composition (Fat Percentage) Measurements (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Standard measures of fat percentage (%) will be performed by dual-energy X-ray absorptiometry (DEXA) scanning using a Hologic Discovery QDR 4500 (Hologic Inc., Bedford, MA.).; DEXA scans will be performed before the initiation of Trikafta treatment (Visit 2), 12 months after drug initiation (Visit 3), and 24 months after drug initiation (Visit 4).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Cardiorespiratory Responses (Heart Rate) During Constant-load Exercise Tests (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Heart rate measured in units of beats per minute (beats/min)	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Cardiorespiratory Responses (Blood Pressure) During Constant-load Exercise Tests (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Blood pressure measured in units of millimetres of mercury (mmHg).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Cardiorespiratory Responses (Arterial Oxygen Saturation) During Constant-load Exercise Tests (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Arterial oxygen saturation measured in units of %oxygen (%O2).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Cardiorespiratory Responses (Minute Ventilation) During Constant-load Exercise Tests (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Minute ventilation measured in units of litres per minute (l/min).; Data will be recorded on a breath-by-breath basis and averaged over 30-second epochs in the analysis.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Cardiorespiratory Responses (Oxygen Consumption Relative to Body Weight) During Constant-load Exercise Tests (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Oxygen consumption measured in units of millilitre per kilogram per minute (ml/kg/min).; Data will be recorded on a breath-by-breath basis and averaged over 30-second epochs in the analysis.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Cardiorespiratory Responses (Oxygen Consumption) During Constant-load Exercise Tests (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Oxygen consumption measured in units of litres per minute (l/min).; Data will be recorded on a breath-by-breath basis and averaged over 30-second epochs in the analysis.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Cardiorespiratory Responses (Carbon Dioxide Production) During Constant-load Exercise Tests (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Carbon dioxide production measured in units litres per minute (l/min).; Data will be recorded on a breath-by-breath basis and averaged over 30-second epochs in the analysis.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Cardiorespiratory Responses (Ventilatory Equivalent for Oxygen) During Constant-load Exercise Tests (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Ventilatory equivalent for oxygen measured as the ratio of minute ventilation over oxygen consumption.; Data will be recorded on a breath-by-breath basis and averaged over 30-second epochs in the analysis.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Cardiorespiratory Responses (Ventilatory Equivalent for Carbon Dioxide) During Constant-load Exercise Tests (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Ventilatory equivalent for carbon dioxide measured as the ratio of minute ventilation over carbon dioxide production.; Data will be recorded on a breath-by-breath basis and averaged over 30-second epochs in the analysis.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Cardiorespiratory Responses (Tidal Volume) During Constant-load Exercise Tests (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Tidal volume measured in units of litres (l).; Data will be recorded on a breath-by-breath basis and averaged over 30-second epochs in the analysis.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Cardiorespiratory Responses (Breathing Frequency) During Constant-load Exercise Tests (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Breathing frequency measured in units of breaths per minute (breaths/min).; Data will be recorded on a breath-by-breath basis and averaged over 30-second epochs in the analysis.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Cardiorespiratory Responses (End-Inspiratory Lung Volume) During Constant-load Exercise Tests (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	End-inspiratory lung volumes measured in units of litres (l). Data will be derived from dynamic inspiratory capacity maneuvers.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Cardiorespiratory Responses (End-Expiratory Lung Volume) During Constant-load Exercise Tests (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	End-expiratory lung volumes measured in units of litres (l). Data will be derived from dynamic inspiratory capacity maneuvers.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Reasons for Stopping Exercise During Constant-load Exercise Tests (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Upon exercise cessation, participants will be asked to verbalize their main reason(s) for stopping exercise (i.e., breathing discomfort, leg discomfort, combination of breathing and legs, or some other reason). Frequency data will be used in the analysis.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Qualitative Dyspnea Sensations (15-Item Questionnaire) During Constant-load Exercise Tests (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Upon exercise cessation, participants will be asked to select qualitative descriptors of breathlessness using an established 15-item questionnaire. Frequency data will be used in the analysis.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Qualitative Dyspnea Sensations (4-Item Descriptors) During Constant-load Exercise Tests (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Participants will be asked to select the most applicable dyspnea descriptor(s) after the intensity and unpleasantness ratings using the following 3 descriptors: (1) "my breathing requires more work and effort" (work and effort); (2) "I cannot get enough air in" (unsatisfied inspiration); (3) "I cannot get enough air out" (unsatisfied expiration). None to all three of the descriptors can be chosen at any one time. Multiple selections are permitted as long as they apply equally. Frequency data will be used in the analysis.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Qualitative Dyspnea Sensations (Multi-Dimensional Dyspnoea Profile) During Constant-load Exercise Tests (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Upon exercise cessation, participants will be asked to complete the multidimensional dyspnoea profile questionnaire with focus being placed on peak exercise (i.e., the last 30 seconds of loaded pedaling). Frequency data will be used in the analysis.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Leg discomfort During Constant-load Exercise Tests (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Leg discomfort ratings measured using the Borg 0-10 category ratio scale. On the Borg 0-10 category ratio scale range, "0" represents no leg discomfort (i.e., better outcome), while "10" represents the most intense leg discomfort ever experienced or could ever imagine experiencing (i.e., worse outcome).; Leg discomfort ratings taken at iso-time, defined as the maximum time achieved on constant-load exercise tests performed on visits 2, 3, and 4, will be used in the analysis.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Chronic Activity-related Dyspnea on the Modified Baseline Dyspnea Index (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Modified Baseline Dyspnea Index scoring dyspnea severity on a total score from 1 to 12 with lower scores indicating more dyspnea severity and higher scores indicating less dyspnea severity.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Chronic Activity-related Dyspnea on the Transition Dyspnea Index at 12 and 24 Months After Initiating Full Dose of Trikafta.	Transition Dyspnea Index will grade change in dyspnea intensity related to functional impairment, magnitude of task, and magnitude of effort on a scale from +3 (i.e., major improvement) to zero (i.e., no change) to -3 (i.e., major deterioration).	12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Chronic Activity-related Dyspnea on the MMRC Scale (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Modified Medical Research Council Dyspnea Scale will grade dyspnea severity on a scale of 0 = NOT TROUBLED WITH BREATHLESSNESS EXCEPT WITH STRENUOUS EXERCISE; 1 = TROUBLED BY SHORTNESS OF BREATH WHEN HURRYING ON THE LEVEL OR WALKING UP A SLIGHT HILL; 2 = WALKS SLOWER THAN PEOPLE OF THE SAME AGE ON THE LEVEL BECAUSE OF BREATHLESSNESS OR HAS TO STOP FOR BREATH WHEN WALKING AT OWN PACE ON THE LEVEL; 3 = STOPS FOR BREATH AFTER WALKING ABOUT 100 YARDS OR AFTER A FEW MINUTES ON THE LEVEL; or 4 = TOO BREATHLESS TO LEAVE THE HOUSE OR BREATHLESS WHEN DRESSING OR UNDRESSING	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Chronic Activity-related Dyspnea on the Oxygen Cost Diagram (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Oxygen Cost Diagram will grade dyspnea severity by marking a point along a vertical line with lists of tasks/activities on either side of the line to indicate activities beyond the point that make the subject breathless. The distance of the point from the bottom of the line (in centimetres) will be used in the analyses.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Quality of Life (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Quality of life measured using the St. George's Respiratory Questionnaire. The questionnaire is scored from 0 to 100 where higher scores indicate greater limitations.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Physical Activity (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Physical activity measured in metabolic equivalents (MET)-min/week using the International Physical Activity Questionnaire (Long Form).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Spirometry Measures (FEV1) (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Spirometry-derived measures of Forced Expiratory Volume in 1 second (FEV1) measured in litres (l) using a commercially available cardiopulmonary testing system (V62J Autobox, Carefusion, Yorba Linda, CA.).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Spirometry Measures (FVC) (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Spirometry-derived measures of Forced Vital Capacity (FVC) measured in litres (l) using a commercially available cardiopulmonary testing system (V62J Autobox, Carefusion, Yorba Linda, CA.).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Plethysmography Measures (TLC) (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Plethysmography-derived measures of Total Lung Capacity (TLC) measured in litres (l) using a commercially available cardiopulmonary testing system (V62J Autobox, Carefusion, Yorba Linda, CA.).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Plethysmography Measures (VC) (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Plethysmography-derived measures of Vital Capacity (VC) measured in litres (l) using a commercially available cardiopulmonary testing system (V62J Autobox, Carefusion, Yorba Linda, CA.).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Plethysmography Measures (IC) (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Plethysmography-derived measures of Inspiratory Capacity (IC) measured in litres (l) using a commercially available cardiopulmonary testing system (V62J Autobox, Carefusion, Yorba Linda, CA.).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Plethysmography Measures (FRC PL) (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Plethysmography-derived measures of Functional Residual Capacity (FRC PL) measured in litres (l) using a commercially available cardiopulmonary testing system (V62J Autobox, Carefusion, Yorba Linda, CA.).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Plethysmography Measures (RV) (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Plethysmography-derived measures of Residual Volume (RV) measured in litres (l) using a commercially available cardiopulmonary testing system (V62J Autobox, Carefusion, Yorba Linda, CA.).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Plethysmography Measures (sRaw) (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Plethysmography-derived measures of specific airway resistance (sRaw) measured in centimetres of water per litres per seconds per litre (cmH2O/L/s/L) using a commercially available cardiopulmonary testing system (V62J Autobox, Carefusion, Yorba Linda, CA.).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Pulmonary Function Measures (MVV) (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Maximal Voluntary Ventilation (MVV) measured in litres per minutes (l/min) using a commercially available cardiopulmonary testing system (V62J Autobox, Carefusion, Yorba Linda, CA.).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Pulmonary Function Measures (DLCO) (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Diffusing capacity of the lungs for carbon monoxide measured in millilitres per millimetres mercury per minute (mL/mmHg/min) using a commercially available cardiopulmonary testing system (V62J Autobox, Carefusion, Yorba Linda, CA.).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Pulmonary Function Measures (MIP) (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Maximum inspiratory pressure (MIP) measured in centimetres of water (cmH2O) using a commercially available cardiopulmonary testing system (V62J Autobox, Carefusion, Yorba Linda, CA.).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Pulmonary Function Measures (MEP) (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Maximum expiratory pressure (MEP) measured in centimetres of water (cmH2O) using a commercially available cardiopulmonary testing system (V62J Autobox, Carefusion, Yorba Linda, CA.).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Impulse Oscillometry Measures of Resistance at 5 Hz (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Impulse oscillometry derived measures of Resistance at 5 hertz (Hz) in units of centimetre of water per litre per second (cmH2O/l/sec) using a commercially available cardiopulmonary testing system (V62J Autobox, Carefusion, Yorba Linda, CA.).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Impulse Oscillometry Measures of Resistance at 20 Hz (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Impulse oscillometry derived measures of Resistance at 20 hertz (Hz) in units of centimetre of water per litre per second (cmH2O/l/sec) using a commercially available cardiopulmonary testing system (V62J Autobox, Carefusion, Yorba Linda, CA.).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Impulse Oscillometry Measures of Reactance (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Impulse oscillometry derived measures of Reactance in units of centimetre of water per litre per second (cmH2O/l/sec) using a commercially available cardiopulmonary testing system (V62J Autobox, Carefusion, Yorba Linda, CA.).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Impulse Oscillometry Measures of Area of Reactance (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Impulse oscillometry derived measures of Area of Reactance in units of centimetre of water per litre (cmH2O/l) using a commercially available cardiopulmonary testing system (V62J Autobox, Carefusion, Yorba Linda, CA.).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Impulse Oscillometry Measures of Differential Change in Resistance (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Impulse oscillometry derived measures of Differential Change in Resistance (R5-R20) expressed as a percentage (%) using a commercially available cardiopulmonary testing system (V62J Autobox, Carefusion, Yorba Linda, CA.).	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Sweat Chloride Levels (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Cystic fibrosis transmembrane conductance regulator (CFTR) modulating effect determined by measuring sweat chloride levels in units of mmol/L during a sweat test.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Computed Tomography Phenotyping (Bronchiectasis) (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Extent of bronchiectasis scored on a range from 0 to 12 (where higher scores indicate greater extent of bronchiectasis) measured using chest computed tomography (CT) scans.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Computed Tomography Phenotyping (Mucus Plugging) (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Extent of mucus plugging scored on a range from 0 to 6 (where higher scores indicate greater extent of mucus plugging) measured using chest computed tomography (CT) scans.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)
Secondary	Change From Baseline Computed Tomography Phenotyping (Air Trapping) (Prior to Trikafta Initiation to Full Dose) at 12 and 24 Months After Initiating Full Dose of Trikafta.	Extent of air trapping scored on a range from 0 to 4.5 (where higher scores indicate greater extent of air trapping) measured using chest computed tomography (CT) scans.	Baseline (i.e., Visit 2), 12 months post Trikafta initiation (i.e., Visit 3), and 24 months post Trikafta initiation (i.e., Visit 4)