View clinical trials related to Cystic Fibrosis.
Filter by:Null hypotheses: zoledronic acid does not improve bone density in cystic fibrosis. Low bone mineral density (osteoporosis) is prevalent in adults with cystic fibrosis (CF); they have an increased rate of bone fractures in comparison to the general population. CF patients start to lose bone density in adolescence/early adulthood due to an imbalance in bone breakdown and formation. Predicted survival for patients with CF has increased from 16 years in 1970 to 36.5 years in 2009 which has resulted in an increase in comorbidities associated with increased longevity in CF e.g. decreased bone density. Oral and intravenous bisphophosphonates are known to increase bone density in CF; the current licensed oral preparations require daily or weekly dosing which are difficult to maintain. Zoledronate, which is licensed for use, is administered intravenously once a year which should be easier to administer. The current evidence relates to its use in other disease groups e.g. glucocorticoid induced osteoporosis and oncology. The purpose of this study is to ascertain its efficacy in cystic fibrosis.
The purpose of this study is to confirm and extend the Phase 1-2 KB001 findings of an airway anti-inflammatory effect in CF individuals with chronic Pseudomonas aeruginosa (Pa) airway infection. It is hypothesized that steady-state levels of KB001-A in CF subjects with airway Pa infection will be safe and well-tolerated, and will increase the time-to-need for antibiotic treatment (IV, inhaled, or oral) for worsening of respiratory tract signs and symptoms compared with placebo.
Cystic fibrosis is an inherited disorder leading to chronic pulmonary inflammation and infection. A majority of people with cystic fibrosis have large quantities of bacteria residing in their lungs. One of the most common and harmful bacteria is called Pseudomonas aeruginosa. Patients with cystic fibrosis require frequent therapy with intravenous (I.V.) antibiotics to treat lung infections thought to be caused by Pseudomonas aeruginosa. One of the antibiotics frequently used to treat this bacteria is piperacillin-tazobactam. Piperacillin-tazobactam is thought to be the most effective when there is a constant level of drug in the body. The standard way to administer piperacillin-tazobactam is to give several grams 4 times each day as a 30 minute infusion. An alternative way to give piperacillin-tazobactam is by a continuous infusion; a continuous infusion will make it more likely that drug will remain at a constant level in the body. The objective of this study is to determine if administering piperacillin-tazobactam as a continuous infusion is more effective at treating people having a pulmonary exacerbation of cystic fibrosis than a standard 30 minute infusion, 4 times a day.
Bronchopulmonary infection is the most common and serious complication in the evolutionary course of cystic fibrosis (CF). Administration of antibiotics adapted to infecting pathogens is one of the key issues for its management. However, more than half of patients with CF have chronic respiratory infections for which infectious agent remains unknown leading to empirical antibiotic therapies that are not adapted to the causative agents. Recently, new technologies have been applied for the description and characterization of microbial agents in CF patients including molecular biology techniques that allowed us to detect and to identify new and/or emerging pathogens. Moreover, more sophisticated molecular techniques such as pyrosequencing and PCR amplification and cloning lead us to demonstrate the huge microbial diversity associated with chronic bronchopulmonary infections in this population. Otherwise, a metagenomic approach revealed the extraordinary complexity of the respiratory flora in these patients and, somewhat unexpected, abundance of anaerobes, viruses, and bacteriophages. In addition, it has been shown that some antibiotics commonly used in clinical practice for the treatment of respiratory infections were able to induce these bacteriophages, suggesting the existence of lateral gene transfer by transduction. The human microbiome is the set of microbial communities associated with the human body and represents all living microorganisms in the body. Its role in the immunity development has recently been demonstrated suggesting that changes in this ecosystem play a critical role in evolution of several human diseases. For example, in obesity it has been shown that there is a relationship between the intestinal human microbiota and nutritional and metabolic status of the hosts and specific alterations of these intestinal microbiota may represent a metagenomic signature of this disease. Evolution of the respiratory microbiota in patients with cystic fibrosis, whose nutritional status is often impaired (chronic malnutrition due to disorder of digestive absorption) and receiving regular antibiotic treatments remains unknown to date. Characterization of this ecosystem and its role is a critical step to understand the evolutionary course of the disease. The main objective of this seminal study is to describe and to characterize the respiratory microbiota from sputum samples obtained from a limited number of selected patients with CF from 5 regional care centers (CRCM) from South of France (Mucomed network) (2 patients per center : 6 adults and 4 children), with similar clinical, microbiological and functional status before and after a cure of antibiotics. Different microbiological tools will be used including axenic culture systems, co-culture on amoebae in order to to isolate and to identify the microbial communities. Identification of bacteria will be done using MALDI-TOF mass spectrometry and/or molecular techniques. Moreover, 16S rRNA PCR amplification followed by cloning and sequencing of PCR products from the same sputum sample will be carried out to identify and to compare the bacterial species identified using molecular methods. In a second step, once the respiratory microbiota was characterized, it will be interesting to develop a dedicated microarray that will allow to detect all the bacteria identified in the first stage of the project and to assess its relevance on a larger cohort of patients with CF by studying the correlation between the respiratory microbiota and clinical status of patients according to the prescribed antibiotic treatments. This study will open new clinical perspectives and will help us to determine the potential role of antibiotics on the microbiota evolution during treatment according to regional health care practices. This will contribute to better understand the role of the microbiota in the evolution of these chronic respiratory infections. It could be the first step for innovative therapeutic strategies, taking into account the balance of complex microbial flora and possibly evolving according to antibiotic therapies. It could also form part of a larger preventive strategy against transmission of specific pathogens in CF.
This study will demonstrate feasibility and collect pilot data via a pilot randomized trial of 20 participants on the effectiveness of a web-based delivery system of behavioral plus nutrition intervention for parents of children with Cystic Fibrosis (CF) ages 4 to 9 years of age that has been found to be efficacious in face to face delivery.
This study is a multiple within participant crossover study to evaluate the effect of ivacaftor on lung function in participants aged 12 years and older with cystic fibrosis (CF) who have phenotypic or molecular evidence of residual CF transmembrane conductance regulator (CFTR) function.
This was a randomized, double-blind, placebo-controlled, dose escalation study to assess the safety and tolerability of 100 mg and 200 mg of inhaled Alpha-1 HC administered once a day for three weeks in subjects aged 18 years and older with cystic fibrosis (CF). The treatment duration in this study was intended to provide multi-dose safety information prior to proceeding to longer durations of exposure.
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.
Cystic Fibrosis (CF) is a fatal, recessive genetic disorder characterized by progressive inflammation and lung damage. It is unclear whether current treatment strategies, which focus on detection and eradication of pathogenic microorganisms in the lung, are the best way to prevent the initiation of early inflammation and lung damage. This study asks how early acquisition of microbial flora occurs in infants with CF and healthy baby controls, and whether this process initiates or influences early inflammation and clinical disease progression in CF.
The purpose of this study is to compare the tolerability and acceptability of a formulation containing Hypertonic saline 7% (HS) alone and a formulation containing HS and Hyaluronic acid 0.1% in a population of Cystic Fibrosis (CF) patients who already showed poor tolerance to HS.