CFTR Modulator Therapy Research Articles

Perinatal dysfunction of innate immunity in cystic fibrosis.

In patients with cystic fibrosis (CF), repeated cycles of infection and inflammation eventually lead to fatal lung damage. Although diminished mucus clearance can be restored by highly effective CFTR modulator therapy, inflammation and infection often persist. To elucidate the role of the innate immune system in CF etiology, we investigated a CF pig model and compared these results with those for preschool children with CF. In newborn CF pigs, we observed changes in lung immune cell composition before the onset of infection that were dominated by increased monocyte infiltration, whereas neutrophil numbers remained constant. Flow cytometric and transcriptomic profiling revealed that the infiltrating myeloid cells displayed a more immature status. Cells with comparably immature transcriptomic profiles were enriched in the blood of CF pigs at birth as well as in preschool children with CF. This pattern coincided with decreased CD16 expression in the myeloid cells of both pigs and humans, which translated into lower phagocytic activity and reduced production of reactive oxygen species in both species. These results were indicative of a congenital, translationally conserved, and functionally relevant aberration of the immune system in CF. In newborn wild-type pigs, CFTR transcription in immune cells, including lung-derived and circulating monocytes, isolated from the bone marrow, thymus, spleen, and blood was below the detection limits of highly sensitive assays, suggesting an indirect etiology of the observed effects. Our findings highlight the need for additional immunological treatments to target innate immune deficits in patients with CF.

Body composition changes and clinical outcomes in pediatric cystic fibrosis during 24 months of lumacaftor ivacaftor therapy based on real-world data

Clinical trials demonstrate the short-term efficacy of dual CFTR modulators, but long-term real-world data is limited. We aimed to investigate the effects of 24-month lumacaftor/ivacaftor (LUM/IVA) therapy in pediatric CF patients (pwCF). This observational study included pwCF homozygous for F508del mutation treated between 2021 and 2023. We report data for the first 24 months from therapy initiation. Variables were analyzed separately for ages 2–5, 6–11, and over 12. Data from 49 pwCF (median age: 9.3 years (5.5–14.2)) showed that ppFEV1 values after a transient increase at 12 months, decreased from 102% (82–114) at baseline to 87% (74–96) at 24 months. The decrease was more pronounced with higher initial ppFEV1. Median sweat chloride concentration decreased from 75 mmol/L (69–82) to 57 mmol/L (43–70) without any association with respiratory function change. Median BMI z-score increased from − 0.81 (− 1.37–0.49) to − 0.39 (− 0.88 to − 0.04) (p = 0.288), and the proportion of underweight and overweight children decreased. Skeletal muscle mass remained stable, while fat mass significantly increased (p = 0.011). Fecal elastase levels improved, especially among younger patients. These findings underscore the potential benefits of early initiation of CFTR modulator therapy in pediatric CF patients, highlighting improvements in nutritional status and pancreatic function.

Expanding the Impact of New Cystic Fibrosis Therapies in Low- and Middle-Income Countries.

Cystic fibrosis (CF) primarily affects Caucasian populations, with the highest prevalence in countries like Ireland, the UK, Australia, and Canada. Despite significant improvements in survival, pulmonary insufficiency remains the leading cause of death. Factors such as nutrition, chronic Pseudomonas aeruginosa (PsA) infection, genotype, pancreatic status, and cystic fibrosis-related diabetes affect pulmonary function across age groups. This review examines disparities in CF care and outcomes between high-income countries (HICs) and low-income countries (LICs), focusing on the impact of CFTR modulators like Elexacaftor/Tezacaftor/Ivacaftor (ETI) and challenges in accessing care in LICs. Data from the European CF Society Patient Registry and studies on CF outcomes across regions were reviewed to assess survival trends, pulmonary function, and infection rates among people with CF (pwCF). The effects of CFTR modulator therapies, particularly for F508del carriers, were also evaluated. In HICs, improvements in survival rates and pulmonary function have been noted, especially with the use of CFTR modulators like ETI. However, in LICs, challenges like limited access to therapies, delayed diagnosis, poor nutrition, and high PsA infection rates lead to poorer outcomes. In regions with fewer F508del carriers, access to care and medications is further limited, exacerbating disparities. Although CF treatment advancements have improved outcomes in many pwCF, these benefits are not evenly distributed globally. Efforts to improve CF care in LICs, such as increasing awareness, ensuring access to therapies, and establishing specialized clinics, are essential to bridging this gap.

Achromobacter xylosoxidans totally implantable venous access device infection in a person with cystic fibrosis: Complex management considerations.

Totally implantable venous access devices (TIVADs) are frequently used in people with cystic fibrosis as a means of securing consistent vascular access, particularly in the context of severe disease and microbial colonization. Infection of TIVADs is not uncommon and typically associated with coagulase negative staphylococci, though infection with other organisms does occur too. We report on the first case of a TIVAD infection caused by Achromobacter xylosoxidans in person with cystic fibrosis. The TIVAD infection was complicated by a bacteraemia and an associated intracardiac infected thrombus at the superior atriocaval junction. We explore the complex management decisions surrounding the removal of the TIVAD and prolonged antibiotic treatment, with treatment ultimately resulting in a good outcome and full recovery. The case helps to serve as a timely reminder of requirement to review the necessity to retain TIVAD in the era of CFTR modulator therapy and associated improved health outcomes being experienced.

Cystic fibrosis foundation position paper: Redefining the CF care model.

Specialized care is provided to people with cystic fibrosis (pwCF) by interdisciplinary teams nested within the CF Foundation's accredited care center network. This network allows for standardization of the care model, implementation of clinical care guidelines, efficient communication, and outcomes reporting. Recent developments have impacted this care model. Increased access to CFTR modulator therapies has improved overall health for many, although not all pwCF. The COVID-19 pandemic resulted in a rapid adoption of telemedicine and remote monitoring to ensure continuity of CF care. A collaboration of care providers, pwCF, and parent caregivers reevaluated key aspects of the current care model and considered potential modifications based on a widening range of needs. Available evidence was used to evaluate components of routine clinical practice and identify potential adaptations to care. The review included identification of patient characteristics warranting intensive monitoring, while embracing patient-centric care, and emphasizing the integration of telemedicine and at-home health technologies. Despite the changing landscape, the importance of the relationship between pwCF, their support system, and the care team was confirmed as a timeless and foundational aspect of the care model. Shared decision making, partnership, and coproduced care plans between pwCF and their CF care teams guide the best adaptations of the care model to support individual priorities and wellbeing. As health care advances and pwCF age, further research is needed to understand the impact of the care model on long-term health outcomes and to identify best practices that support pwCF to live longer healthier lives.

Study of the genetic and molecular epidemiology of cystic fibrosis based on the patient registry for planning targeted therapy in Russian Federation.

Cystic fibrosis (CF) is a genetically inherited disorder characterized by a wide range of clinical manifestations and genetic variations. This study focuses on the genetic and molecular epidemiology of CF in the Russian population, utilizing data from the national CF registry. The birth prevalence of CF in Russia has been analyzed over a span of years, revealing variations in frequency. The study delves into the genetic landscape of CFTR gene variants in Russian patients, showcasing a diverse spectrum with a predominance of severe variants, some of which are rare and distinct from global populations. A total of 233 variants have been documented, exhibiting frequencies ranging from 0.01% to 51.5%, with 47 of these variants remaining uncharted within international genetic databases. As of 2021, CFTR modulator therapy has been introduced for patients under 19 years, heightening the importance of genetic diagnosis. In 2023, more than 1,850 patients under 19 received CFTR modulator therapy. Notably, the impact of complex alleles on disease progression and response to targeted therapies is gaining recognition. Comparisons with European registries highlight distinctive features of the Russian population, such as differences in age distribution among patients. Additionally, the study emphasizes the need to ascertain clinical significance and pathogenicity of newly identified genetic variants, along with exploring their suitability for targeted therapies. The integration of genetic insights into the management of CF offers potential for enhanced personalized therapeutic interventions. In conclusion, this thorough analysis provides a comprehensive understanding of the genetic nuances within the Russian CF population. By illuminating the intricate relationship between genetic variations and disease manifestation, the study underscores the essential role of genetics in shaping therapeutic strategies and improving patient outcomes. Further research and ongoing genetic exploration are crucial for optimizing the care of individuals with CF in the era of evolving therapeutic options.

Calibrating sweat chloride levels to CFTR activity via ETI effects on CF subjects with one or two F508DEL mutations

BackgroundIt is difficult to determine CFTR activity following highly effective CFTR modulator therapies (HEMT). The sweat gland provides two biomarkers of CFTR activity: a linear readout via the β-sweat rate and a logarithmic readout via sweat chloride concentration (SCC). In prior work, different logarithmic functions were generated to calibrate SCC with the percent of healthy control CFTR activity (HCCFTR). Two functions, A and B, were fit to SCC means from healthy controls set = 100 % and CF carriers measured as 50 % HCCFTR. A and B differ in the % HCCFTR activity assigned to SCC for minimal function mutations = 0.01 % for A and 1 % for B. MethodsHere, the functions are evaluated based on retrospective analysis of three multi-center studies of CF subjects with one or two F508del mutations treated with Elexacaftor/Tezacaftor/Ivacaftor (ETI). Predictions of the percent HCCFTR activity for one vs two mutations were compared for the two functions. The expectation is that after ETI treatment, subjects with two responsive mutations will have 2-fold higher HCCFTR activity than subjects with only one. The hypothesis is that the SCCHCCFTR function that most closely fits that expectation provides the more accurate prediction of CFTR activity. ResultsIn two separate comparisons, function B most accurately predicted a 2-fold (1.9, 2.3-fold) higher level of HCCFTR activity in subjects on ETI with two vs. one responsive mutation. Function A predicted a 4, 5.5-fold higher level. ConclusionsFunction B predicts that 60 mmol/L SCC, the cutoff for a CF diagnosis, is associated with 10 % HCCFTR activity. Comparing HEMT effects on subjects with one or two mutations provides an additional tool for calibrating SCC to CFTR activity.

Heightened mitochondrial respiration in CF cells is normalised by triple CFTR modulator therapy through mechanisms involving calcium

BackgroundCystic fibrosis (CF) is associated with increased resting energy expenditure. However, the introduction of elexacaftor/tezacaftor/ivacaftor (ETI) has resulted in a paradigm shift in nutritional status for many people with CF, with increase body mass index and reduction in the need for nutritional support. While these changes are likely to reflect improved clinical status and an associated downregulation of energy expenditure, they may also reflect drug-induced alterations in metabolic perturbations within CF cells. We hypothesise that some of these changes relate to normalisation of mitochondrial respiration in CF. MethodsUsing wild-type (WT) and F508del/F508del CFTR human bronchial epithelial cell lines (HBE cell lines) and baby hamster kidney (BHK) cells we examined the impact of ETI on cellular metabolism. We monitored mitochondrial respiration, using Seahorse extracellular flux assays and monitored mitochondrial reactive oxygen species (mROS) and intracellular calcium levels by flow cytometry. ResultsIncreased mitochondrial respiration was found in HBE cell lines and BHK cells expressing CFTR F508del/F508del when assessing basal, maximal, spare respiratory capacities and ATP production, as well as increased mitochondrial ROS generated via forward electron transport. ETI significantly decreased basal, maximal, spare respiratory capacity and ATP production to WT levels or below. Calcium blocker, BAPTA-AM normalised mitochondrial respiration, suggesting a calcium-mediated mechanism. ETI decreased intracellular calcium levels in CF cells to the same extent as BAPTA-AM, highlighting the importance of calcium and chloride in mitochondrial respiration in CF. ConclusionsCF cell lines exhibit increased mitochondrial respiration, which can be downregulated by ETI therapy through mechanisms involving calcium.

BOS-318 treatment enhances elexacaftor-tezacaftor-ivacaftor (ETI)-mediated improvements in airways hydration and mucociliary transport

BackgroundCFTR triple modulator therapy, elexacaftor-tezacaftor-ivacaftor (ETI) has transformed care for people with cystic fibrosis (pwCF) who have eligible mutations. It is, however, not curative. Response to treatment also varies and lung disease although slowed, remains progressive. We have previously demonstrated that inhibition of the epithelial sodium channel (ENaC) by selective furin inhibition offers an alternative, mutation-agnostic approach to enhance airways hydration and restore mucociliary transport (MCT) in CF. Inhibition of furin therefore, offers a potential therapeutic strategy for those ineligible, intolerant or non-responsive to ETI and may provide a further opportunity for clinical benefit for those currently treated with ETI. The aim of this study was to determine the impact of furin inhibition on ETI responses to assess its utility as an adjunct therapy.MethodsDifferentiated primary human CF bronchial epithelial cells (CF HBECs) were treated with the highly selective furin inhibitor, BOS-318 and ETI. Ion channel function was measured using a 24-channel Transepithelial Current Clamp (TECC-24) system and airways surface hydration was investigated by measuring airway surface liquid (ASL) height and MCT rate.ResultsThe presence of BOS-318 had no effect on the ability of ETI to stimulate CFTR-mediated Cl−secretion but contributed a reduced Na+transportviarobust inhibition of ENaC. This altered ion transport profile effected an improved ASL height and MCT rate which were significantly greater than improvements observed with ETI alone, demonstrating the benefits of the dual approach.ConclusionsSelective furin inhibition has potential to further improve clinical outcomes for all pwCF and offers opportunity as an adjunct to improve responses to currently available CFTR modulator therapies.

Elexacaftor/tezacaftor/ivacaftor, a game-changer in cystic fibrosis: The Portuguese experience

BackgroundPhase 3 trials of elexacaftor/tezacaftor/ivacaftor (ELX/TEZ/IVA) combination treatment in people with cystic fibrosis (CF) with ≥1 F508del-CFTR allele showed profound short-term effects on lung function, weight, and pulmonary exacerbations (PEx). The authors conducted a 12-month study to add evidence on the real-world long-term effectiveness and safety of CFTR modulator therapy with ELX/TEZ/IVA in Portuguese CF adult population. MethodsAmbispective, multicentre, observational, real-life study involving all the Portuguese CF Reference Centres. Adult patients on treatment with ELX/TEZ/IVA combination outside clinical trials were included. Demographics, efficacy, and safety variables on the first 12 months of treatment were compared with the pre-treatment year. Results132 adult people with CF were included, of which 119 completed 12 months treatment (mean duration of treatment 21.5 months). Mean age was 31.7 ± 11.0 years, 53 % patients were homozygous for the F508del variant, baseline sweat chloride was 86.7 ± 25.9 mmol/L and pre-treatment percent-predicted FEV1 was 77.9 ± 19.7 %. At 1 year, mean absolute change from baseline in FEV1 was +0.46L (95 % CI: 0.37, 0.55; p < 0.001) and +13.9 percentage points (95 % CI: 11.5, 16.2; p < 0.001). PEx episodes decreased by 78 % (p < 0.001) and hospitalizations for PEx decreased by 91.4 % (p < 0.001). Body mass index (BMI) increased 1.2 kg/m2 (95 % CI: 0.9, 1.5; p < 0.001). Mean sweat chloride variation was −44.5 mmol/L (95 % CI: −49.8, −39.2; p < 0.001). No correlation was found between sweat chloride and lung function (r = −0.116, p = 0.335). There were no major safety concerns. Of note, headache was reported in 7.6 % and neuropsychiatric manifestations occurred in 12.6 % treated patients, being anxiety and depressive disorders the most common. ConclusionsELX/TEZ/IVA treatment in Portuguese adults with CF was associated with significant improvement in lung function, a drop in PEx and PEx-related hospitalizations and increase in BMI at 12 months and was well tolerated. These results add knowledge to our understanding of clinical benefits and tolerability of ELX/TEZ/IVA. Careful evaluation of adverse effects of ELX/TEZ/IVA therapy and its determinants, mainly concerning mental health, are a research priority.

CFTR modulators response of S737F and T465N CFTR variants on patient-derived rectal organoids

BackgroundPredictions based on patient-derived materials of CFTR modulators efficacy have been performed lately in patient-derived cells, extending FDA-approved drugs for CF patients harboring rare variants. Here we developed intestinal organoids from subjects carrying S737F- and T465N-CFTR in trans with null alleles to evaluate their functional impact on CFTR protein function and their restoration upon CFTR modulator treatment. The characterization of S737F-CFTR was performed in two subjects recently assessed in nasal epithelial cells but not in colonoids.ResultsOur functional analysis (Ussing chamber) confirmed that S737F-CFTR is a mild variant with residual function as investigated in colonoids of patients with S737F/Dele22-24 and S737F/W1282X genotypes. An increase of current upon Elexacaftor/Tezacaftor/Ivacaftor (ETI) treatment was recorded for the former genotype. T465N is a poorly characterized missense variant that strongly impacts CFTR function, as almost no CFTR-mediated anion secretion was registered for T465N/Q39X colonoids. ETI treatment substantially improved CFTR-mediated anion secretion and increased the rescue of mature CFTR expression compared to either untreated colonoids or to dual CFTR modulator therapies.ConclusionsOur study confirms the presence of a residual function of the S737F variant and its limited response to CFTR modulators while predicting for the first time the potential clinical benefit of Trikafta® for patients carrying the rare T465N variant.

Self-reported chronic therapy use after 24-weeks of follow-up by participants who completed the simplify randomized, controlled trial

BackgroundHighly effective CFTR modulator therapy (HEMT) has improved the health of many people with cystic fibrosis (pwCF), offering opportunities to discontinue burdensome therapies. SIMPLIFY included randomized, controlled trials that confirmed non-inferiority of discontinuing versus continuing dornase alfa (DA) or hypertonic saline (HS) for 6 weeks in pwCF on HEMT. In this study of post-trial treatment use by SIMPLIFY participants, we hypothesized that randomization to discontinue DA or HS during the trial would be associated with a higher likelihood of non-use of each medication during follow-up. MethodsWe electronically surveyed SIMPLIFY participants every 4 weeks for 24 weeks after trial completion but before the main trial results were publicly disclosed. We asked them how often they used medications during the previous week. We estimated covariate-adjusted odds ratios (ORs) of DA or HS non-use by logistic regression with generalized estimating equations. ResultsAfter exclusions mostly due to lack of any surveys, 472 participants were included in the analysis population, 181 from the HS trial and 291 from the DA trial. Approximately half of the analysis population completed all six surveys. At every month of follow-up in both trials, the percentage of individuals reporting non-use of DA or HS during the previous week was greater among those randomized to discontinue therapy. Among participants with responses at 24 weeks, 30/122 (24.6 %) in the HS trial and 79/222 (35.6 %) in the DA trial reported non-use of the respective study medication. After adjusting for covariates, participants randomized to discontinue DA were 8.7-times (95 % CI: 4.3–17.7) more likely to not use DA during follow-up than those randomized to continue DA, and participants randomized to discontinue HS were 5.2-times (95 % CI: 2.1–12.8) more likely to not use HS during follow-up compared to those randomized to continue. ConclusionsIn healthy pwCF on ETI, randomization to discontinue DA or HS during SIMPLIFY was associated with greater odds of not using each medication after the trial compared to randomization to continue. These findings suggest that participation in a treatment discontinuation trial can influence participants’ post-trial treatment decisions. This possibility may be relevant during discussions about research participation and clinical care.

Nutritional status in the era of highly effective CFTR modulators.

Advances in cystic fibrosis (CF) diagnostics and therapeutics have led to improved health and longevity, including increased body weight and decreased malnutrition in people with CF. Highly effective CFTR modulator therapies (HEMT) are associated with increased weight through a variety of mechanisms, accelerating trends of overweight and obesity in the CF population. Higher body mass index (BMI) is associated with improved pulmonary function in CF, yet the incremental improvement at overweight and obese BMIs is not clear. Improvements in pulmonary health with increasing BMI are largely driven by increases in fat-free mass (FFM), and impact of HEMT on FFM is uncertain. While trends toward higher weight and BMI are generally seen as favorable in CF, the increased prevalence of overweight and obesity has raised concern for potential risk of traditional age- and obesity-related comorbidities. Such comorbidities, including impaired glucose tolerance, hypertension, cardiac disease, hyperlipidemia, fatty liver, colon cancer, and obstructive sleep apnea, may occur on top of pre-existing CF-related comorbidities. CF nutrition recommendations are evolving in the post-modulator era to more individualized approaches, in contrast to prior blanket high-fat, high-calorie prescriptions for all. Ultimately, it will be essential to redefine goals for optimal weight and nutritional status to allow for holistic health and aging in people with CF.

Outcomes of lung transplantation in cystic fibrosis.

Lung transplantation (LTX) has transformed care for people with cystic fibrosis (pwCF) suffering from advanced cystic fibrosis lung disease (ACFLD), and it has evolved into an accepted therapy for patients with ACFLD across all ages. We review cystic fibrosis as a major indication for LTX, particularly highlighting outcomes including survival, a changing landscape over time, and factors affecting sequelae following LTX in cystic fibrosis. Although some populations such as those undergoing lung retransplantation exhibit inferior posttransplant outcomes, LTX for pwCF provides an excellent long-term survival that has significantly improved over time, likely due to specialized cystic fibrosis center care and recognition of common comorbidities in pwCF post-LTX. There are gaps in post-LTX outcomes for pwCF, including that identified between Canada and the United States, and that seen in adolescents - both of which are likely multifactorial. In particular, the revolution in cystic fibrosis medical therapy with CFTR modulator therapy has resulted in a dramatic decline in programs performing LTX for cystic fibrosis. How durable this effect will remains to be seen. Overall, LTX remains a well accepted ultimate therapy option in patients with ACFLD if compatible with the individual's goals of care, offering an improved quality of life and maximization of overall survival.

Characteristics of individuals with cystic fibrosis in the United States ineligible for ivacaftor and elexacaftor/tezacaftor/ivacaftor

BackgroundWe characterized people with cystic fibrosis (CF) ineligible by genotype (not age) for currently approved CFTR modulator therapy using data from the US CF Foundation Patient Registry (CFFPR). MethodsWe summarized clinical characteristics using CFFPR data from 2017 to 2022. Annual rate of change in percent predicted of forced expiratory volume in one second (ppFEV1) was estimated using generalized estimating equations. ResultsA total of 2,790 individuals with CF met inclusion criteria. In 2022, 12 % were less than 6 years old, 16 % were age 6–12 years, 18 % age 12–18 years and 54 % were ≥18 years. The proportion identified as White was 74 %, 17 % Black, and 26 % as Hispanic. The median (IQR) age at diagnosis was 1.2 (0.5, 9.1) months for children and 3.1 (0.3, 17.4) years for adults. Median (IQR) ppFEV1 among children was 91.9 (80.3; 102.4) and among adults, 74.3 (52.4; 90.4). Pancreatic enzymes were prescribed for 77.8 %. Population-level average (95 % CI) rates of decline in ppFEV1 among the pancreatic insufficient population was -1.5 per year (-1.8; -1.2) for ages 6 to <11 years, -2.2 per year (-2.6; -1.8) for ages 12 to <18 years, and -1.5 per year (-1.7; -1.3) for adults. ConclusionsWe describe the CFTR modulator ineligible population in the US in 2017–2022. With a growing pipeline of therapies aimed at improving CFTR function for those who cannot benefit from modulators due to ineligibility, characterization of both the size and outcomes of these populations are critical to inform optimal clinical development plans and future clinical trials.

P324 Changes to the dietetic landscape in a UK adult cystic fibrosis centre following the introduction of triple CFTR modulator therapy and continuous glucose monitoring to screen for CF diabetes

P324 Changes to the dietetic landscape in a UK adult cystic fibrosis centre following the introduction of triple CFTR modulator therapy and continuous glucose monitoring to screen for CF diabetes

P292 CFTR modulator therapy improves glycemic control in cystic fibrosis-related diabetes

P292 CFTR modulator therapy improves glycemic control in cystic fibrosis-related diabetes

Current and future therapeutic approaches of CFTR and airway dysbiosis in an era of personalized medicine

ABSTRACT Cystic fibrosis (CF) is a life-threatening genetic disorder caused by mutations in the CFTR gene. This leads to a defective protein that impairs chloride transport, resulting in thick mucus buildup and chronic inflammation in the airways. The review discusses current and future therapeutic approaches for CFTR dysfunction and airway dysbiosis in the era of personalized medicine. Personalized medicine has revolutionized CF treatment with the advent of CFTR modulator therapies that target specific genetic mutations. These therapies have significantly improved patient outcomes, slowing disease progression, and enhancing quality of life. It also highlights the growing recognition of the airway microbiome’s role in CF pathogenesis and discusses strategies to modulate the microbiome to further improve patient outcomes. This review discusses various therapeutic approaches for cystic fibrosis (CFTR) mutations, including adenovirus gene treatments, nonviral vectors, CRISPR/cas9 methods, RNA replacement, antisense-oligonucleotide-mediated DNA-based therapies, and cell-based therapies. It also introduces airway dysbiosis with CF and how microbes influence the lungs. The review highlights the importance of understanding the cellular and molecular causes of CF and the development of personalized medicine to improve quality of life and health outcomes.

P342 Hand grip strength, skeletal muscle mass, and physical activity in children with cystic fibrosis: impact of CFTR modulator therapy

P342 Hand grip strength, skeletal muscle mass, and physical activity in children with cystic fibrosis: impact of CFTR modulator therapy

WS02.03 Disease burden in people with cystic fibrosis according to CFTR genotype and eligibility to CFTR modulator therapy: a ECFS Patient Registry analysis

WS02.03 Disease burden in people with cystic fibrosis according to CFTR genotype and eligibility to CFTR modulator therapy: a ECFS Patient Registry analysis