View clinical trials related to Cystic Fibrosis.
Filter by:Cystic fibrosis (CF) is a multisystem autosomal recessive inherited disease affecting approximately 75,000 individuals in USA. The sweat chloride (Cl) test remains the gold standard for diagnosis of CF but still has a number of limitations. The objectives of this study are: 1)To evaluate a skin-interfaced colorimetric bifluidic sweat device with two synchronous channels as a potential low-cost but potentially accurate test to diagnoses cystic fibrosis (CF) and 2) To evaluate measurements of sweat chloride (Cl) using this same system in comparison to the standard clinical laboratory procedures routinely performed in the Clinical Laboratory at Penn State Health Milton S. Hershey Medical Center (PSH-HMC), Hershey, PA for assessment of the diagnosis of CF. This is a single institution study performed solely at PSH-HMC. Study participants will include 1) adults 18 years of age or older capable of providing signed and dated informed consent, 2) subjects with an established known diagnosis of cystic fibrosis (CF) or healthy volunteers, and 3) able to understand and speak English language. Exclusion criteria include: 1) any medical condition or disorder known to potentially interfere with accurate measurements of sweat chloride and 2) inability to understand and speak the English language. Cystic Fibrosis (CF) subjects will be identified from the population of eligible patients receiving medical care at Penn State Health- Milton S. Hershey Medical Center (PSH-HMC). Healthy donor volunteers will be recruited from various members of the PSH-HMC CF clinical care team, members of the Division of Allergy, Pulmonary and Critical Care (both faculty and trainees) at PSH-HMC, and PSU-University Park research team. The total projected number of combined enrolled subjects is 30. This is a single day single time study that will require approximately 60 minutes of subject participation. Potential risks include a) side effects from pilocarpine iontophoresis sweat test collection (pain, skin discomfort, blisters, rarely burns and b) loss of confidentiality. There will be no cost to subjects for study participation. There will be no reimbursement financially for study participation. There is no benefit to subjects for study participation. There is the potential benefit to medical science via identification of improved method to accurately measure sweat chloride for diagnosis of CF.
Measured outcomes for people with CF have improved dramatically over the last 20 years, even prior to the widespread introduction of cystic fibrosis transmembrane conductance regulator (CTFR) modulator treatments. The outlook for children with CF has improved significantly, with longer predicted survival and a lower likelihood of morbidity. This has accelerated recently. These changes have occurred within a short period of time, and there is much that we now do not understand about disease progression in children with CF and how this differs from children without CF. CF is an area which is fortunate to have well-developed and successful disease registries. CF registries have provided significant amounts of very useful data to guide improvement in treatment and outcomes over many decades. The power of registries comes from the collection of a well-defined set of important outcome measures in very large numbers of people over many years. The outcome measures collected routinely in clinical care, which form part of the registries, are helpful in monitoring moderate-advances and symptomatic disease in people with CF. CF registries however do not tend to collect tomography(CT) scores, lung clearance index(LCI) or indeed repeated collection of biomarkers of disease activity such as sweat chloride which are increasingly relevant in an era of modulator therapies and reducing burden of symptomatic disease. We perceive an urgent need to complement registry data, cataloguing the changing natural history if early childhood CF by proactively collecting and curating sensitive, meaningful outcome data in a large cohort of children during this new era in Ireland and the UK. The prevalence, presentation and natural history of disease manifestation of CF in young children will change significantly in the next decade with advances in the understanding and treatment of CF, including the use of therapies aimed at CFTR function. ENHANCE provides an opportunity to study these changes in real-time and in ways that are relevant to the CF community.
The goal of this observational study is to learn about the effects of a specific cystic fibrosis therapy (Cystic Fibrosis Transmembrane Conductance Regulator Modulator Therapy) on chronic sinonasal disease. The main questions it aims to answer are: 1. How does this therapy impact bacterial communities in the paranasal sinuses? 2. How does this therapy impact inflammation in the paranasal sinuses and olfactory cleft? 3. How does this therapy impact sense of smell and sinonasal disease burden in individuals with cystic fibrosis? 4. How does this therapy impact disease-specific and general quality of life of individuals with cystic fibrosis? Participants will be asked to provide samples from their nose, complete testing of their sense of smell, and complete surveys about their quality of life and sense of smell in this study. Researchers will compare study results between patients who are currently undergoing Cystic Fibrosis Transmembrane Conductance Regulator Modulator Therapy and patients who are not currently undergoing therapy.
The purpose of this study investigation of relationship between health literacy and physical activity, anxiety and depression, adherence to airway clearance techniques in adult patients with cystic fibrosis.
Cystic fibrosis is the most common serious genetic disease in Europe. It is a multi-disciplinary disease, causing multiple organ damage. It is a painful disease and a source of anxiety and depression. The aim of this study is to assess the link between pain experienced during care and anxiety in children aged over 8 with cystic fibrosis.
This is a single-centre, prospective observational cohort study assessing the potential utility of the Owlstone Medical "Breath Biopsy" in early diagnosis of pulmonary infections in patients with cystic fibrosis (CF). In cystic fibrosis pulmonary infections occur frequently and are associated with decline in lung function and disease progression, therefore a cornerstone of CF management is early identification and treatment of infections. "Breath Biopsy" is a non-invasive novel technology that has been trialled extensively in diagnosis of a variety of medical conditions with promising results. The technology is based the identification of a unique profile of organic compounds in exhaled breath of patients with a certain medical condition. Making the diagnosis of pulmonary infections in patients with CF is clinically challenging and at present relies on imprecise diagnostic tests, and generally requires attendance of patients to hospital or clinic for assessment. Ultimately, this research aims to assess the feasibility of incorporating "Breath Biopsy" into this diagnostic pathway with the advantages of both improving diagnostic certainty and potentially allowing in-home diagnosis of infections related to CF. Furthermore, identification of organic compounds implicated in CF infections will improve the understanding of why these infections occur, which to date remains an area that is poorly understood. Five patients with CF-related pulmonary infections admitted to the inpatient CF unit at the Royal Papworth Hospital will be enrolled, and use "Breath Biopsy" devices provided by Owlstone medical to collect breath samples from these patients in order to determine whether a unique organic compound profile can be identified in CF exacerbations.
The ANNE sensor is a small, wire free device that is placed on the chest with a removable adhesive patch. It measures things like temperature, heart rate and breathing rate without the need for wires and large machines that are needed currently. The aim is to trial this sensor in a small group of participants to see how well it is tolerated and how well it measures. The aim is to see if the sensor could provide additional information to help the medical team detect when a participant is becoming unwell with less need for the participant to perform repeated tests. Participants will wear the sensor for 6 weeks continuously (apart from when it is charged for 4-6 hours each day). Participants can perform their usual activities whilst wearing the sensor but should not submerse the sensor in water for long periods of time.
Cystic fibrosis is a systemic disease, which affects in particular the respiratory and digestive systems of patients, sites of chronic inflammation. A new combination of elexacaftor/tezacaftor/ivacaftor has proven its efficacy for the treatment of patients aged 12 years and over with two F508del mutations or a so-called "minimal function" mutation associated with one F508del mutation. European marketing authorization was obtained in August 2020 and access in France should therefore arrive soon. Given that this treatment targets new mutations and that the efficacy seems greater than with LUM/IVA, it is important to assess its impact on the microbiota and the pulmonary and digestive inflammation of patients. It is therefore a question of taking advantage of the experience of the Lum-Iva-Biota cohort, and the validated and operational sample circuit established in the various participating centers to set up a biological collection for the collection and storage of sputum and stools of patients during the first year of treatment with elexacaftor/tezacaftor/ivacaftor, in order to study the effect of treatment on the lung and digestive microbiota/mycobiota and inflammation.
Although chest infections affect wellbeing and survival in cystic fibrosis (CF), most people with CF also have difficulty digesting food and must take medication for this. In spite of this treatment, two thirds of people with CF miss school or work because of tummy symptoms (pain, bloating and wind). In some cases these symptoms become severe leading to bowel obstruction and hospital admission. Long term, people with CF have a greater risk of bowel cancer. The investigators asked people with CF and health professionals to suggest the most important questions for research. Treatment of gut symptoms was in their top 10 list. Current treatments are often ineffective because the investigators do not fully understand why symptoms occur. GRAMPUS-CF SRC will describe accurately the categories of gut symptoms in CF and find out why they occur. The investigators will do this using magnetic resonance imaging (MRI) scans and tests which give a detailed description of the germs in the bowel or which measure inflammation. The investigators will also study the effects of diet, using a questionnaire. The investigators will link these results together, using advanced statistics to find the factors causing gut symptoms. The investigators will then identify treatments which are likely to be helpful. In future work the investigators will test these in clinical trials.
Although patients with bronchiectasis tend to have non reversible obstructive patterns on pulmonary function tests (PFTs), reversible obstruction is not uncommon. While bronchodilator response (BDR) is a main characteristic of asthma, the pathophysiology causing this phenomenon in bronchiectasis patients is less clear. The goal of this clinical trial is to assess BDR in patients with bronchiectasis. The main aims of this study: 1. To evaluate the role of bronchodilators in BDR testing of patients with bronchiectasis. 2. Characterize and compare BDR between different subgroups of patients with bronchiectasis, and compared to patients without bronchiectasis (healthy controls). 3. Identify demographics and other clinical variables associated with positive BDR Participants will be taking a series of three spirometry tests: After the first spirometry testing, patients will be randomly assigned to receive bronchodilators as per bronchodilator response protocol (Salbutamol, 100 mcg, 4 puffs via spacer) or four puffs of placebo. After a waiting time of 15 minutes, spirometry will be repeated. Following the second spirometry testing those who received salbutamol will now receive placebo and those receiving placebo will receive Salbutamol. After a second period of 15 minutes, a third series of spirometry will be recorded.