There are about 25435 clinical studies being (or have been) conducted in United Kingdom. The country of the clinical trial is determined by the location of where the clinical research is being studied. Most studies are often held in multiple locations & countries.
Double-blind, randomised, placebo controlled, single-site trial in adults to compare the effect of Manuka honey with standard of care compared to placebo with standard of care on post-tonsillectomy pain and postoperative outcomes. Main aim is to investigate a potential improvement in post-tonsillectomy pain control, with a low cost and freely available alternative to conventional analgesics. Recent systematic review and multidisciplinary consensus suggest a potential role for the inclusion of honey for this purpose. Clinical efficacy over placebo remains to be conclusively demonstrated in robust clinical trials.
This is a single centre, single arm pilot feasibility study to determine the feasibility and practicality of prehabilitation in acute inpatients waiting for cardiac surgery. We will be looking into participant eligibility, acceptability, recruitment rates, completion rates and barriers to implementing a prehabilitation programme. Secondary outcomes include safety (incidence of adverse events directly related to the study), improvement in 6 minutes walk test (6MWT), hand grip strength, quality of life, and spirometry. At the end of the trial, we will be seeking the feedback of the participants to help us improve the design further.
This study will help determine if an Interactive Virtual Reality system can improve the physiotherapy of young patients with Duchenne muscular dystrophy (DMD).
The brain possesses a system to get rid of unwanted substances, named Glymphatic System (GS). When this system is faulty, these accumulate, there is local inflammation, and progressive death of the cells. This occurs in neurological diseases including Parkinson's, or Alzheimer's. Inflammation and progressive death of the cells are also present in another neurological disorder, named Multiple Sclerosis (MS). Doctors think that GS dysfunction plays a role in MS too. In this research therefore, the aim is to study whether it drives inflammation, and disease progression in MS patients. The researchers have developed a new way to find signs of alteration of the GS using a scan named Magnetic Resonance Imaging (MRI) and will use it in a pilot study on patients with a condition named Clinically Isolated Syndrome (CIS), which often represents the very beginning of MS. It would therefore be demonstrated that the GS is a new mechanism of disease in CIS, which may associate with the symptoms, or the alterations in the levels of some substances in the blood suggestive of brain cells damage. Should this study be successful, this would provide preliminary evidence to perform a larger research study to assess if GS dysfunction drives the progression of MS.
Respiratory syncytial virus (RSV) is one of the most common causes of chest infection worldwide. Despite this, it remains an underappreciated health problem, with the first effective RSV vaccines only approved by the FDA in May 2023 and unlikely to be widely available for some time. Although RSV infection is most frequent in young children, most deaths occur in older adults, particularly in those with underlying heart and lung disease. This is believed to be due in part to the ageing immune system's reduced ability to protect against infection and symptomatic disease. However, little is known about the way human immune responses to RSV infection in older individuals differ from those of younger people. Further understanding of the mechanisms underlying immunity and potential impairments in these higher-risk people are therefore necessary. This project aims to study the factors that influence whether or not older people develop symptomatic RSV disease in healthy older volunteers after being given an RSV-induced common cold. Samples will be taken from the blood and nose in order to identify changes in the immune system associated with susceptibility or protection in older adults. Participants will be carefully screened to ensure there are no underlying health problems that might make them more at risk of severe disease and will be monitored closely throughout the course of infection. It is anticipated that differences in immune markers in the nose and/or blood of healthy older people will predict whether or not such individuals become infected or develop symptoms. By analysing the networks of genes that are switched on and off, the aim is to identify the pathways in the immune system responsible for these differences, to ultimately develop improved diagnostic tests, vaccines and treatments.
The purpose of the study is to learn about the safety and tolerability of setanaxib in subjects with Alport syndrome, when added to their standard of care treatment. The study will assess how safe setanaxib is when compared to placebo. Study participants will be asked if they are experiencing any side effects at each study visit. In addition, tests in blood, urine and other examinations will be used to look at the safety of setanaxib. The study will also measure how well setanaxib works in comparison to a placebo, by measuring urine protein and certain markers in the blood and urine. The concentration of setanaxib in the blood will also be measured throughout the course of the study. Setanaxib is planned for use together with the current standard of care to hopefully provide additional therapeutic benefits by preserving kidney function. The study will be conducted at multiple research sites in the UK, Spain, and Czech Republic. Eligible participants will be randomly assigned to receive either setanaxib or placebo. Setanaxib dose level will depend on age and all participants will receive their standard of care in addition to setanaxib or placebo. The study consists of a Screening period of up to 4 weeks, a 24-week Treatment period and a 4- week Follow-up period.
DRPLA Natural History and Biomarkers Study (DRPLA NHBS) is a prospective observational study that will lay the foundation for clinical trials in DRPLA. The aims of this project are: - To characterize the natural history of DRPLA in both juvenile- and adult-onset patients and study different modalities of biomarkers in this condition. - To identify genetic factors and biomarkers that could predict disease progression. - To provide a platform to support the design and conduct of clinical trials. This study has three arms: 1. Adult Participants: this arm of the study will require participants to be 16 years old or over to participate. 2. Pediatric Participants: this arm of the study will require participants to be under 16 years old to participate. 3. Remote Participants: patients that cannot or do not wish to travel to one of the study sites can participate in this arm of the study, irrespective of their age. Participants will have an annual visit for three years (baseline visit and two follow-up visits, three visits in total). Subjects who complete the whole protocol will be assessed on two consecutive days to reduce patient burden. This project will allow for a better understanding of DRPLA and its course, and therefore allow for future clinical trials on this condition to be more precisely and effectively conducted.
The goal of this single-centre observational study conducted at the Royal Hospital for Children in Glasgow, Scotland, is to employ a multi-omics approach to investigate the "gut-lung axis" in health and disease. Part A is a cross-sectional study design investigating the postulated bidirectional link between the gut and lung microbiomes in children suffering from respiratory or gastrointestinal conditions. Children with no GI or respiratory issues attending for orthopaedic care will be used as a benchmark for a healthy gut-lung axis. The main questions we aim to answer are: - What does a healthy gut-lung axis look like? - Do children with respiratory issues show an altered gut microbiome? - Do children with GI issues show an altered lung microbiome? Part B is a longitudinal study design, that aims to assess the effects of biologics on the gut-lung axis by comparing the gut and lung microbiomes in children with asthma at two time-points who are indicated to start biologics therapy (Asthma treatment) or will not receive biologics therapy (asthma control). Participants will provide: - airway samples (to investigate the lung microbiome) - blood samples (to assess inflammatory and metabolic factors which may mediate communication between the two sites) whilst under general anaesthetic for a treatment related to their standard of care - stool samples (to assess gut microbiome) - dietary information (food diary and/or food frequency questionnaire) to assess relationships between diet and the gut-lung axis.
The goal of this observational study is to investigate concussions and contact sports practices in REM sleep behaviour disorder (RBD). The main questions it aims to answer are: - What is the proportion of patients with RBD that have a history of concussions or exposure to contact sports? - Is this proportion higher to that in control patients without a diagnosis of RBD? Participants will undergo an interview with a sleep medicine specialist to answer questions about history of concussions and contact sports practices. Researchers will compare an RBD group and a control group (without RBD) to see if the proportion of concussions and exposure to contact sports differ.
The goal of this basic science study is to to explore the responsivity of glutamate in the brain of treatment-resistant schizophrenia patients to the drug riluzole. The main aims of the study are: To assess the role of glutamate in treatment-resistant schizophrenia using magnetic resonance spectroscopy. To assess the relationship between glutamate levels and brain structural and functional measures (using: structural MRI; functional MRI (fMRI) and arterial spin labelling (ASL)) at baseline. To assess the relationship between longitudinal change in glutamate levels and brain structural and functional measures. To assess the relationship between longitudinal change in glutamate levels and changes in psychopathology. The researchers will compare the changes with healthy controls and those without treatment-resistant schizophrenia.