View clinical trials related to Cystic Fibrosis.
Filter by:Cystic fibrosis (CF) lung disease is characterized by chronic bacterial colonization and recurrent infection of the airways. Lowering the airway surface liquid (ASL) salt concentration has been shown to increase activity of salt sensitive antimicrobial peptides. Xylitol is a 5-carbon sugar that can lower the ASL salt concentration, thus enhancing innate immunity.In this study, the investigators plan to study the safety and efficacy of 2 weeks of inhaled xylitol compared to 2 weeks of hypertonic saline in a randomized crossover design in stable subjects with cystic fibrosis
The purpose of this study is to investigate the expression of a certain class of molecules, called costimulatory molecules, in humans with Cystic Fibrosis. Cystic Fibrosis is a genetic disorder which renders the lung susceptible to persistent inflammation which, at times, can worsen, resulting in accelerated decline in lung function and eventually death or transplant. Our goal is to determine if the levels of costimulatory markers can be used to predict exacerbation and subsequent lung function decline in subjects with Cystic Fibrosis.
Purpose: There has been a recent, rapid increase in prevalence of Methicillin-resistant Staphylococcus aureus (MRSA) among patients with Cystic Fibrosis (22% across US CF centers in 2009). Some epidemiologic studies suggest possible worse outcomes, a recent analyses showing this with chronic but not intermittent MRSA. Given the chronic difficult to treat lung infections in CF it is unclear how the onset of MRSA should be approached. This randomized, controlled, interventional study seeks to determine if an early eradication protocol is effective for eradication of MRSA and will provide an opportunity to obtain data regarding early clinical impact of new isolation of MRSA. Participants: Cystic fibrosis patients with new isolation of MRSA from their respiratory culture on a routine clinic visit. Procedures (methods): Randomized, open-label, multi-center study comparing use of an eradication protocol to an observational group who receives the current standard of care i.e. treatment for MRSA only with pulmonary exacerbations.
The purpose of the study is to develop new biomarkers for studies of cystic fibrosis (CF). Defects in the gene encoding Cystic Fibrosis Transmembrane Regulator (CFTR) cause CF, an autosomal recessive disorder affecting mainly the pulmonary and digestive tract, leading to early death largely due to progressive loss of pulmonary function. In vitro experiments show that quercetin - a dietary supplement with a well-established safety profile for human use, including clinical trials in a variety of disorders encompassing cancer, heart disease, and as an anti-inflammatory agent - induces activation of CFTR. The nasal potential difference (NPD) test is a measurement of voltage across the nasal membrane and as a fundamental biomarker for CFTR activity in vivo. The NPD is a useful, well-established tool in CF research to determine both diagnoses as well as to measure the effect of new therapies. In vitro experiments show that quercetin induces activation of CFTR additive to that seen with current NPD reagents. In addition, it activates rescued mutant CFTR in vitro (∆F508 CFTR the most common cause of CF), whereas conventional agonists do not. Preliminary in vivo experiments mirrored these results and show that quercetin activates CFTR in human (n=12) NPD tests. Importantly, quercetin perfusion was well-tolerated by a validated sinus questionnaire and physician assessed nasal examination rating. These studies provide strong support for use of quercetin as potentiator of CFTR Cl- channel function by nasal administration. By adding quercetin to the sequence of perfusion solutions for NPD, the investigators may be better suited to detect ∆F508 CFTR activity of rescued mutant protein in the CF patient population.
Study to assess safety and tolerability of a single dose of study-drug administered to Cystic Fibrosis (CF) patients.
The primary aim of the study is to determine if the CF Quantum Sweat Test provides sweat chloride results that are equivalent to the results from traditional sweat testing. The secondary aim of the study is to assess the quantity not sufficient rate of the CF Quantum Sweat Test compared to traditional sweat testing.
The investigators' Upstate Cystic fibrosis (CF) Care Center is very active in research. For example, in 2009, 68 of our 135 pediatric patients have been participating in 16 clinical trials. Sponsors often provide their study sites with spirometers to use for PFTs. These machines are meant to provide uniform PFTs results for studies, which include measurement of FEV1 values. In 2009, among the 52 patients at our Center who are 6-12 years old, 20 (38%) have been in studies with sponsor-provided spirometers. Among the 32 patients ages 13-17 years, 13 (40%) have been in studies with sponsor-provided spirometers. Anecdotally, the investigators have noted that FEV1 results obtained during clinical trials for our patients appear to be lower than those of our patients' usual values, especially with younger children. The investigators hypothesize that the apparent difference in PFT results might be related to the different incentives (if any) provided by study PFT equipment. Further, if this difference exists, the investigators believe that this may account for the apparent average decline in the lung function results of our patients over the recent years, given the large proportion of our patients who participate in clinical trials. Finally, the investigators hypothesize that younger children may be more affected by the difference in incentives than older ones. The purpose of this study is to collect an additional set of Pulmonary Function Tests (PFTs) using our regular clinic equipment, on all study subjects following their study PFTs if these are done with sponsor-provided equipment. The investigators will compare the results from both types of machines and report regarding differences identified.
Cystic fibrosis (CF) affects an estimated 30,000 people in the United States and is caused by a mutation in the gene encoding a protein called CF transmembrane regulator (CFTR). The hallmarks of CF are recurrent pulmonary exacerbations and declining pulmonary function. However, there are other problems in CF that affect both health and quality of life. These include CF related diabetes, liver disease, and bone disease. The median age of survival for patients with CF has been increasing steadily and is currently more than 37 years. With this improvement in life expectancy, it has become increasingly important to address the long-term complications of CF. Currently, patients with CF are evaluated annually for bone disease with dual X-ray absorptiometry (DXA), and screening usually starts at age 12. However, this may not be sufficient to detect early bone changes that may impact fracture risk. Furthermore, bone disease in children may manifest earlier than adolescence, which would suggest that screening should start at an earlier age in these vulnerable patients. The following study is therefore proposed to examine the potential role of peripheral quantitative computed tomography (pQCT) as a screening approach for bone disease in children with CF. The investigators expect to find bone problems by pQCT but not DXA.
This study by Aptalis (formerly Axcan) assesses the efficacy and safety of Panzytrat® 25,000 compared to Kreon® 25,000 in the control of steatorrhea in participants with cystic fibrosis (CF) and exocrine pancreatic insufficiency (EPI).
Doxycycline is known to exhibit immune modulatory activities beyond its antibacterial effects. In particular, doxycycline is a potent inhibitor of matrix metalloproteinase 9, which is a protease derived largely from neutrophils. Recent studies demonstrate a significant correlation between pulmonary disease severity and sputum concentrations of MMP-9 in patients with CF. In addition, sputum MMP-9 levels are associated with airway remodeling in CF. The goal of this study is to determine the therapeutic potential of doxycycline in modulating host airway inflammation in patients with CF. Specifically, the study will characterize the PK /PD of doxycycline, evaluate the safety of short term therapy, and explore the concentration effect relationship between doxycycline exposure and sputum biomarker levels.