View clinical trials related to Cystic Fibrosis.
Filter by:This is an observational study for children with Cystic Fibrosis (CF) who are eligible based on their CF gene type. One group will be called the treatment group because they have the gene type (homozygous F508del) that makes them clinically eligible through their CF care provider to begin treatment with the new FDA approved CF drug called orkambi. For the control group, children will be enrolled who have a similar CF gene type (heterozygous F508del) but are not eligible to be prescribed orkambi. The two groups will be followed for four visits over about 3 to 4 years to observe changes in the lungs. Methods to measure the changes in lung disease will include: MRI with non-FDA approved inhaled xenon gas to take detailed images of the lungs, Pulmonary Function Tests (PFT), Lung Clearance Index (LCI), Baseline CT image of the lungs if not ordered as part of usual clinical care. The first two visits will be done before starting clinical treatment with orkambi and will be a minimum of 28 days apart and up to 18 months. The third visit will be scheduled about 3 months after starting orkambi and the fourth visit about 18 months later. For the control group, the timing of visits will be similar to treatment group and visits may be scheduled around annual CF care visits.
Cavosonstat (N91115) is being studied as a potential novel therapy for cystic fibrosis (CF), and this study assesses a target population of patients who are heterozygous for F508del-CFTR and a gating mutation that is approved for treatment with ivacaftor (G551D, G1244E, G1349D, G178R, G551S, S1251N, S1255P, S549N, or S549R).
This study will assess the safety of inhaled sodium nitrite in adults with Cystic Fibrosis and chronic Pseudomonas infections, and determine the ability of sodium nitrite to reduce the burden of Pseudomonas.
Cystic fibrosis has many health consequences. A reduction in the ability to perform exercise in patients with CF is related to greater death rates, steeper decline in lung function, and more frequent lung infections. However, the physiological mechanisms for this reduced exercise capacity are unknown. The investigators recently published the first evidence of systemic vascular dysfunction in patients with CF. Therefore, it is reasonable to suspect that the blood vessels are involved with exercise intolerance in CF. This study will look at how and if oxidative stress contributes to both artery dysfunction and exercise intolerance in CF.
Ivacaftor will restore CFTR function in treated CF patients with the G551D mutation. Improvement in ventilation, salt balance and well-being will contribute to better exercise capacity at all levels of lung function. While potential improvements may be variable across the spectrum of lung function, even small gains at low levels of FEV1 may have significant benefit for some subjects.
Influenza (the "flu") is one of the most common respiratory viruses associated with respiratory deteriorations in children and adolescents with cystic fibrosis. These deteriorations usually mean antibiotics, hospitalizations, and worsening of pulmonary function tests. A new flu vaccine has been recently approved for use in Canada (Flumist®). What is particular about this flu vaccine is that it is a spray in the nose, which mimics how influenza usually infects us. This particular vaccine protects children and adolescents much better than the regular injectable flu shot. This new vaccine has been given to > 2,000 healthy children and to >2,000 children with asthma and well tolerated. The investigators want to know if Flumist® is well tolerated in children with CF and does not cause worsening of respiratory symptoms. The investigators will conduct a study where all participants will receive Flumist® in the nose. This study is particularly important because its results will provide safety information on a vaccine that is more efficacious for a population who needs safe and easy to administer protection against the flu.
The purpose of this study is to evaluate the safety of long-term ivacaftor treatment in subjects with cystic fibrosis (CF) from Studies 110 (NCT01614457), 111 (NCT01614470), and 113 (NCT01685801).
Cystic fibrosis (CF) is an inherited disorder which results in increased thickness of secretions, especially in the lungs. By adulthood, the majority of patients with CF will have a bacteria living in their lungs, called Pseudomonas aeruginosa which can cause lung infections. This usually results in worsening respiratory symptoms and often an acute deterioration in their lung function. They are usually treated with antibiotics that target the Pseudomonas aeruginosa. These antibiotics are typically given as short intravenous infusions several times a day. This study aims to compare the standard method of giving these antibiotics with a different strategy of giving these antibiotics to see if this can improve the outcomes of treatment of these infections and reduce the amount of Pseudomonas aeruginosa in the lungs of these patients. This strategy consists of giving the same antibiotics continuously, to ensure there is always enough antibiotic in the bloodstream and the lung to be able to kill the bacteria.
Malnutrition is a significant problem in children and adults with Cystic fibrosis (CF). An impaired intestinal digestion and absorption capacity is one of the main factors responsible for the malnutrition in CF. This impairment starts early in life, leading to malnutrition, muscle weakness, impaired immune and lung function associated with poor prognosis. As low BMI and body weight is strongly associated with morbidity and mortality, a reduction in weight loss in CF and its manifestations would save the healthcare system substantially per year. Simple methods to measure the digested portions and utilization of nutrients and the effectiveness of pancreatic enzyme preparations and medications in CF are not available. Developing a panel of methods to accurately measure gut digestion, absorption and function will lead to studies optimizing nutritional regimen and pancreatic enzyme replacement therapy in CF. Furthermore, it will provide detailed insight in the disease and age related mechanisms of gut dysfunction in CF. Finally, it will provide required information that will lead to implement new strategies to improve gut health in order to enhance nutritional status, quality of life and survival. The hypothesis is that intestinal macronutrient digestion, absorption and function in CF can be quantified by an innovative panel of methods using stable isotopes. With this panel of methods, information can be obtained on the effect of disease progression on lipid, protein and glucose digestion and absorption and on gut function in CF as well as in other diseases and conditions characterized by a compromised gut. Furthermore, the optimal nutritional regimen and pancreatic enzyme therapy if applicable can be evaluated in these diseases. In the present study the investigators will study: 1. Pediatric patients with CF at Arkansas Children's Hospital; 2. Adult patients with CF at University of Arkansas for Medical Sciences. 3. Healthy control subjects. Diagnosis of CF is made based on universal diagnostic criteria. All CF patients are characterized by abnormal lipid digestion based on clinical and or laboratory (72 hour fat analysis or fecal elastase measurement) diagnosis, and requiring pancreatic enzyme replacement therapy, and no presence of unstable metabolic diseases. Additional criteria for the CF pediatric inpatients are: admitted to ACH for treatment of exacerbations of CF disease, clinically stable. The CF outpatients are stable outpatients with pancreatic insufficiency.
Purpose The purpose of this study is to develop and validate multimodal testing of exocrine pancreatic function (EPF). The investigators will be testing exocrine pancreatic function in patients with cystic fibrosis (CF). Exocrine pancreatic function and imaging will be correlated to age group, genotype, nutritional status and quality of life. Earlier detection of exocrine pancreatic failure in the non classical form of cystic fibrosis may be of therapeutically benefit. Hypotheses Endoscopic short test can be applied in diagnosing and monitoring exocrine pancreatic function in patients with cystic fibrosis. New functional testing of exocrine pancreatic function is superior to traditional testing with fecal elastase. MRI and ultrasound methods can give volume output estimate in cystic fibrosis patients. Contrast enhanced ultrasound can quantify reduced or delayed pancreatic perfusion and parenchymal changes in cystic fibrosis patients. Elastography/ CEUS can be used in prediction and monitoring of fibrosis development and development of hepatocellular carcinoma in the liver of cystic fibrosis patients. Immunohistochemical quantification of secretin/ cholecystokinin (CCK) producing cell in duodenum can be utilized as a model hormonal signaling in cystic fibrosis patients with exocrine pancreatic function.