View clinical trials related to Fibrosis.
Filter by:150 patients admitted to University Hospital Southampton with heart failure will undergo comprehensive Cardiovascular Magnetic Resonance (CMR) imagining during their admission and continuous heart rhythm monitoring using wearable technology post discharge. We hypothesise that analysis of this outcome data will discover novel CMR tissue characterisation and heart rhythm biomarkers that can be used to predict adverse clinical outcomes in heart failure populations and how individual patients will respond to specific therapies.
Idiopathic pulmonary fibrosis (IPF) is a disease characterised with significant morbidity and poor prognosis. Dyspnoea and impaired exercise capacity are very common manifestations of the disease, and result in significant impairment of patients' quality of life. Although hypoxemia is common among subjects with IPF, published data on the effects of supplementary oxygen therapy on specific clinical outcomes among these patients are currently few, while the existing data on the potential benefits of oxygen supplementation to treat exercise-induced hypoxemia, in this patient population, are even more controversial. Based on the aforementioned, the purpose of this prospective, cross-over clinical trial is to investigate the acute effects of supplemental oxygen administration on the: a) exercise capacity, b) severity of dyspnea, c) cerebral oxygenation, b) muscle oxygenation, and e) hemodynamic profile, as compared to delivery of medical air (sham oxygen), in a group of patients with IPF, without resting hypoxemia, during steady state cardiopulmonary exercise testing (CPET).
Non-selective beta blockers are commonly used drugs for primary prevention and secondary prevention in patients with cirrhotic decompensated esophageal varices bleedingļ¼the basic heart rate, blood pressure and condition of different patients have individual differences.This paper mainly discusses the compliance of patients taking NSBB under different follow-up methods and analyze the factors affecting patient compliance.
This is a national, investigator-initiated, multicenter, prospective, observational, web-based registry in hospitalized patients with cirrhosis across China. The overarching aim of this study is to investigate the epidemiology and clinical impact of bacterial/fungal infections in hospitalized patients with liver cirrhosis in China within the collaborative network. We also aimed to build up the national prospective cohort of hospitalized cirrhosis in China to stand in the future for the backbone of various research programs focused on infection, other complications of cirrhosis, organ failure, the ACLF syndrome, end-stage liver disease and beyond.
Physical activity is widely documented as one of the cornerstones of Cystic Fibrosis (CF) management as it is directly linked to mortality and quality of life. Levels of physical inactivity and sedentary behaviour have been poorly investigated among the CF population in Ireland. The measurement of these behaviours is important in order to monitor prevalence amongst people with CF (PWCF) and determine methods by which health care providers can assist with maintaining and enhancing physical activity. The use of physical activity monitoring can provide health care providers with insightful real world analysis of physical activity and exercise behaviours. Over the last decade there has been many advancements in technology and fitness tracking with positive results being demonstrated in the healthy population and in chronic diseases such as Diabetes Mellitus II, post surgery and Multiple Sclerosis. Limited research has been conducted among PWCF to date. The aim of this research project is to examine physical activity levels amongst PWCF and determine the effect of a 12 week randomised parallel intervention on a number of health outcomes. Participants will be provided with an accelerometer to assess physical activity and sedentary behaviour at baseline. The participants will then undergo further baseline testing to determine exercise capacity, body composition, quality of life, breathlessness, sleep quality and wellbeing. Baseline short and long term goals will be established together with the participant and physiotherapist. Participants will then be randomly allocated to either the intervention or the comparator. A researcher independent of the recruitment process (MC) will complete the first random allocation using a sealed opaque envelope. Following this a minimisation randomisation procedure will be completed based on lung function, where FEV1 of <70% predicted lung function will be classified as having mild lung disease. While those with an FEV1 of 30-50% predicted lung function will be classified as having moderate lung disease, with <30% indicating severe lung disease. Allocation will be revealed after recruitment and baseline assessments have occurred. Both groups will receive a fitness tracker which will be linked to an online monitoring system (Fitabase) for 24 weeks. The intervention group will receive personalised feedback via a text message every week on their physical activity levels as measured by their fitness tracker and progress on attainment of their goals established at the start of the study. Feedback will be provided from their CF physiotherapists. The comparator group will not receive any feedback on their Fitbit data. After 12 weeks both groups will be re-assessed. Thereafter, both groups will continue with the Fitbits alone for 12 weeks. Finally outcome measures including lung function, physical activity levels, aerobic capacity, quality of life, sleep quality, muscle mass and well-being will be re-assessed again at 24 weeks. Following the intervention semi structured interviews will be conducted to qualitatively establish satisfaction with the interventions and provide insight into barriers and enablers to achieving goals and physical activity levels.The results of this study may provide valuable insights into potential interventions to optimise the health and well-being of PWCF.
Study of progression of fibrosis in ILD
The presence of a nonsense mutation leads to the rapid degradation of the carrier mRNA mutation by a mechanism called NMD (nonsense-mediated mRNA decay) [6, 13]. There are currently 3 main strategies at least for correcting nonsense mutations: exon skipping, inhibition of NMD and nonsense mutation readthrough. In the laboratory, we developed a strategy for correcting nonsense mutations combining inhibition of NMD and activation of translecture. For this purpose, we have constructed screening systems to identify NMD-inhibiting and/or readthrough enhancers. The molecules thus identified are then tested on cell lines and in murine models carrying a nonsense mutation. One of our goals is to select a set of molecules that can correct effectively nonsense mutations. For this we have to test these molecules on a great diversity of nonsense mutations. This work will: - determine if we can correct all the nonsense mutations tested with at least one of our molecules - determine what is common within a group of mutations corrected by a given molecule - be able to assign the parameters that make one mutation is corrected by one molecule and not or little by another. This study will therefore improve our theoretical knowledge on the recognition of premature stop codons but also to propose therapeutic approaches for the correction of nonsense mutations of the CFTR gene in cystic fibrosis in a targeted way for a patient.
This is a Phase 1/2a randomized, double-blind, two-part, dose-ascending, multicenter study of AR-501 (gallium citrate) solution, administered via inhalation, in healthy adult and P. aeruginosa infected cystic fibrosis (CF) subjects. Phase 1 of the study in HV subjects will consist of a single-ascending-dose (SAD) cohort, followed by the HV multiple-ascending-dose (MAD) cohort. Phase 2a of the study in CF subjects will consist of a MAD study design. The study will evaluate the safety and pharmacokinetic (PK) profile of single and repeat administrations of inhaled AR-501 solution in healthy adults, and the safety, PK and efficacy of repeat administrations of inhaled AR-501 solution in P. aeruginosa infected CF subjects.
Ursodeoxycholic acid is the mainstay treatment medicine for primary biliary cholangitis(PBC). About 1/3 of the patients do not respond to UDCA, which is defined as refractory PBC. Mesenchymal stem cells (MSC) has been reported to improve the outcomes of PBC patients. Randomization controlled studies are needed to confirm the long term effect of MSC treatment for refractory PBC. This study aimed to investigate the safety and efficacy of mesenchymal stem cells in PBC patients that do not respond to UDCA treatment. This study is an double-blind multicenter randomized and placebo-controlled study. Patients with with refractory PBC will be randomly assigned to receive MSC treatment plus UDCA or UDCA alone (control). Three times of MSC infusion (0.1-1x10E6 cells/kg body weight) via peripheral vein will be given to the experimental group (once in 4 weeks). The primary outcome is absolute change in alkaline phosphatase. Secondary outcomes are changes of other liver function indices such as ALT TBIL AST GGT, improve of symptoms and liver histology.
By mean of registry of newly diagnosed Chinese IPF patients from more than 15 sites, this study aims to build IPF prospective cohort, set up normative clinical database and a biological specimen bank, and examine the clinical characteristics of newly diagnosed Chinese IPF patients, as well as the nature history, prognosis, comorbidities and complications of IPF patients in China, the current treatment pattern, burden of illness, and quality of life of Chinese IPF patients.