View clinical trials related to Cystic Fibrosis.
Filter by:The purpose of this study is to evaluate the effects of whole body vibration (WBV) on muscle function in adult CF-patients.
Study Hypothesis: We hypothesize that cellular markers from nasal epithelial cells and blood lymphocytes can serve as potential biomarkers reflect the underlying inflammatory state of the lung and will be helpful in determining the presence of a CF pulmonary exacerbation and its overall severity.
This study will assess the relative bioavailability of ganciclovir from the pro-drug valganciclovir in lung transplant recipients with or without cystic fibrosis. Each patient will receive 900mg valganciclovir daily for the period specified at their center, starting as soon as possible after the transplant. Pharmacokinetic assessments will be made provided that steady-state kinetics of ganciclovir and immunosuppressive drugs have been obtained (>=4 days of drug therapy). Blood samples for pharmacokinetic analysis will be taken up to 24h post-dose on one occasion. The anticipated time on study treatment is 3-12 months, and the target sample size is <100 individuals.
Suppression of stop mutations in the CFTR gene with parenteral gentamicin can be predicted in vitro and is associated with clinical benefit and significant modification of the CFTR-mediated chloride transport in nasal and sweat gland epithelium.
Healthy volunteers and patients with diseases that involve problems clearing mucus from the lungs will be examined and tested to better understand the reasons for recurring lung infections in these patients and to try to develop better ways to diagnose and treat them. The study will also try to identify the genes responsible for these diseases. Healthy volunteers 18 years of age and older and patients 2 years of age or older with suspected primary ciliary dyskinesia (PCD), variant cystic fibrosis (CF) or pseudohypoaldosteronism (PHA) may be eligible for this study. Patients enrolled in the Natural History Study of Nontuberculous Mycobacteria at NIH or other NIH natural history protocols may also be enrolled. Participants undergo the following tests and procedures during a 1-day visit at the NIH Clinical Center, as follows: All patients and normal volunteers have the following procedures: - Physical examination and review of medical and genetic history and family genetic history. - Lung function test and measurement of oxygen saturation level. - Nitric oxide measurement to measure the amount of nitric oxide production in the nose: A small tube is placed in the nose while the subject breathes through the mouth into a cardboard tube. All patients have the following additional procedures: - Blood tests for liver and kidney function, blood count, immunoglobulins and pregnancy test (where appropriate). - Blood test or buccal scrape (brushing the inside of the cheek) to obtain DNA to look for gene mutations that cause PCD, CF or PHA. - Scrape biopsy of cell lining the inside of the nose: A small toothpick-sized plastic stick with a tiny cup on the end is used to get nasal lining cells to look at the cilia (hair-like structures that move mucus). - Semen analysis (in some men) to test sperm tail function or structure. Patients suspected of having a variant of CF or PHA, including nontuberculous mycobacterial lung disease, have the following additional procedures: - Sweat chloride test: A medicine is placed on the arm to produce sweat; then, a very low level of electric current is applied for 5 to 12 minutes. Sweat is collected in a plastic tube and tested for salt content. - Blood draw for CF genetic testing, if necessary, and to measure levels of the enzyme trypsin. - Saliva collection to measure sodium and chloride content. - Nasal potential difference to measure the electrical activity of the cells lining the inside of the nose: A soft plastic tube filled with a salt solution is passed into the nasal passage and a sterile needle is placed under the skin of the arm. This test provides information about how the lining of the nose is able to get used to changes in temperature and humidity. (Normal volunteers also have this test.)
Cystic fibrosis (CF) is an autosomal recessive disorder caused by mutations in the CF trans-membrane conductance regulator (CFTR) protein. CF is the most common inherited disease of Caucasians, with a carrier frequency of 1 in 25-30 individuals. Even with the impressive advances achieved in the understanding of the molecular basis and physiopathology of CF, it remains a life-threatening disorder that causes severe lung damage and nutritional deficiencies. It is generally accepted that early therapy could delay the progression of lung disease. A number of non-invasive methods are available to monitor disease activity in CF patients; however none of the currently used tools are able to monitor real-time events. Recently high resolution computed tomography (HRCT) has been used to monitor changes in lung structure. However, HRCT does not allow differentiating between acute and chronic lesions. Positron emission tomography (PET) with 18fluoro-deoxy-glucose (FDG) has already been used in a variety of settings to visualize inflammation or infection. FDG-PET imaging appears to be a promising new tool to quantify inflammation as it can detect clinically relevant changes even when no changes or minimal ones are detected by morphologic imaging. PET/CT may consequently be used to evaluate the severity of lung inflammation/infection in CF patients, and therefore the aim of this study is to evaluate the use of PET/CT for the assessment of the severity of lung inflammation/ infection in CF patients.
This is a research study where researchers are collecting blood to evaluate the genetic characteristics of individuals with chronic lung diseases, including asthma, chronic obstructive pulmonary disease (COPD), interstitial lung disease, cystic fibrosis, and lung cancer.
People with cystic fibrosis (CF) often develop chronic pulmonary infections which are caused by a variety of organisms, the most predominant being Pseudomonas aeruginosa. Antibiotics are important in managing CF lung infections. Antibiotic use in CF was altered about ten years ago with the approval of inhaled tobramycin, an aminoglycoside which is effective in treating P. aeruginosa. A decade later, CF clinicians are increasingly concerned about the likelihood of induction of aminoglycoside-resistance with prolonged use of inhaled tobramycin to treat chronic P. aeruginosa airway infections. The goal of this study is to examine the current microbiology and susceptibility of organisms from CF sputum, correlate it with antibiotic use, and compare it with previous data.
The purpose of this trial is to evaluate the safety and effectiveness of a one dose strength of denufosol compared to placebo in patients with mild CF lung disease.
The aim of the study is identify biological parameters reflecting proteolytic activity in the exhaled condenstaes which might be useful to follow up pulmonary inflammation in various conditions including cystic fibrosis, COPD, asthma, tobacco exposure. Three proteases will be analyzed, i.e. elastase, proteinase 3 and cathepsin G. Results in the condensates will be compared to those obtained in sputum.