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.
The primary objective of the study is to investigate the safety and tolerability of ascending doses of GSK3862995B following single dose in healthy participants and repeat doses in participants with Chronic obstructive pulmonary disease (COPD).
This study aims to test if the VR games could be a form of upper limb rehabilitation for people with arm/hand problems due to SCI while they are in hospital. Participants who have had a spinal cord injury and have tetraplegia will be recruited from the Queen Elizabeth National Spinal Injuries Unit. After they have provided informed consent, they will receive 12 weeks of either standard upper limb therapy ('control group'), or both the VR activities and standard treatment ('VR Group'). Participants who receive VR activities will engage in immersive VR games that have been designed in co-production with people with tetraplegia and spinal cord injury specialists. The games aim to help participants improve the use of their arms and hands while they are undergoing primary rehabilitation within the Queen Elizabeth National Spinal Injuries Unit (QENSIU). The participants who are in the control group will receive their usual rehabilitation and will be given the opportunity to try the VR games after the completion of their involvement in the trial. This study will measure the feasibility (the 'primary outcome') and explore the effectiveness (the 'secondary outcome') of the VR intervention. Feasibility will be measured by recording how often the VR games are used and whether or not participants use the games for the full duration of the trial. Participants and therapists will be interviewed at the end of the trial.
The goal of this observational study is to learn about the use of equipment to monitor health at home in participants who have non-cystic fibrosis bronchiectasis. The main question[s] it aims to answer are: - How acceptable participants find using home monitoring equipment. - To find out if the data collected from home monitoring can help to detect chest infections (exacerbations) before participants get symptoms they are aware of. Participants will be provided with - - a handheld spirometer to record FEV1 (lung function) - a Fitbit, or other compatible activity monitor, to record activity and heart rate - a saturation monitor that fits painlessly on the end of the finger to record oxygen levels - weighing scales to record weight - a mini freezer and pre-labelled sample containers to store a daily sputum sample. There is enough room in the freezers for samples to be brought to routine clinic visits. We will provide a cool bag and freezer packs for this. A courier collection of the samples can be arranged if necessary. Participants will be encouraged to perform lung function, activity and oxygen levels at least 4 x per week. Participants will be guided through how to set up and use each piece of equipment by the research team. The devices all connect to a smartphone app called Breathe RM (Remote Monitor,) which is free to download, via Bluetooth. Once set up using the home monitoring devices and adding notes to the app should take no more than 15 minutes per day. Participants will be asked to record in the app - - episodes of pulmonary exacerbation that require antibiotic treatment - their coughing and wellness scores daily
This pilot study will compare the effect of combining dietary nitrate and caloric restriction versus dietary nitrate alone. The participant will be contacted, having responded to an advertisement on social media and posters, to attend the screening visit. They will be asked about their health status, suitability for MRI and availability. The investigators will use physical activity and eating attitude questionnaires. The investigators will also measure their height, weight, body mass index (BMI), and blood pressure (BP) and undertake blood tests. If they are eligible, they will be randomised to one of the two arms. The first group will consume nitrate-rich beetroot juice with a calorie-restricted diet for 28 days. The second group will drink the same juice with a weight-maintenance diet for the same period. The food and drinks will be provided. The outcome measures will be measured twice (at the baseline and end visits) to evaluate the change. The primary outcome is the cognitive function. The secondary outcomes are peripheral vascular health (BP and microvascular perfusion), cerebral vascular health (brain blood flow), anthropometry, body composition, and exhaled NO and nitrate concentrations. Also, the feasibility and accessibility of the study will be assessed.
Research Aim: This study investigates whether a 12-month treatment with hypertonic saline (salty water) can reduce antibiotic use in individuals with neuromuscular disease or cerebral palsy who frequently experience chest infections due to difficulty clearing mucus from their airways. Methodology: Participants will be randomly assigned to receive nebulised hypertonic saline (7% salt in water) or normal saline (0.9% salt in water). The study is open-label as both participants and researchers are aware of the treatment, necessary due to the differing tastes of the solutions. Two centers, Royal Brompton Hospital in London and Queens Medical Centre in Nottingham, will conduct the research. Before starting the treatment, participants will undergo various assessments, including questionnaires to measure quality of life and treatment satisfaction, sputum/throat swab collection, lung clearance index, forced oscillation technique, electrical impedance tomography, and lung ultrasound. Once these assessments are completed, participants will take the assigned treatment at home, administered twice daily for 12 months, with monthly follow-ups regarding difficulties and chest infections. After 12 months, the treatment will cease, and participants will repeat the assessments. Significance: This research will provide valuable insights into the efficacy of nebulised hypertonic saline for individuals with neuromuscular disease or cerebral palsy, potentially aiding both patients and doctors in making informed treatment decisions. Dissemination: The study's findings will be shared through publication in scientific journals and presentation at conferences.
The goal of this clinical trial is to investigate the effects of yoga participation for adults with cystic fibrosis. The main question it aims to answer is: does participation in yoga affect health-related quality of life for adults with cystic fibrosis? Researchers will compare a group completing a 12-week yoga programme alongside usual cystic fibrosis care, to a group completing usual care alone to see if the addition of yoga effects health-related quality of life.
The goal of this clinical trial is to assess the efficacy of hyperspectral endoscopic imaging to distinguish neoplasia from non-dysplastic Barrett's oesophagus in vivo. The main outcome measures are: 1) Classification of spectral patterns corresponding to neoplastic vs non-neoplastic Barrett's; 2) Image quality assessed by the endoscopist by VAS rating the level of confidence in delineating the area of interest; 3) Time to perform hyperspectral imaging; 4) Quantification of molecular biomarkers in endoscopic areas with neoplastic spectral patterns. Participants will firstly undergo a standard endoscopy, followed by another endoscopy using the experimental HySe device. Subsequently, patients will receive biopsies according to Seattle protocol, and up to 6 additional (optional) snap frozen research biopsies.
The research study is being done to see if ziltivekimab can be used to treat people who were admitted to hospital because of a heart attack. Ziltivekimab might reduce development of heart disease, thereby preventing new heart attacks or strokes. Participants will either get ziltivekimab (active medicine) or placebo (a dummy medicine which has no effect on the body). Which treatment participants get is decided by chance. The chance of getting ziltivekimab or placebo is the same. Ziltivekimab is not yet approved in any country or region in the world. It is a new medicine that doctors cannot prescribe. The study will last for about 2 years.
The goal of this first-in-human study is to evaluate a novel ultraflexible microelectrode in children undergoing neurosurgery to remove tissue that causes epilepsy (seizures) in focal cortical dysplasia (FCD) or long-term epilepsy-associated tumours (LEAT). The main questions it aims to answer are: 1. The safety and feasibility of the novel microelectrode into current operative workflow 2. The unique electrophysiological tissue signatures in FCD or LEAT
We now have very sensitive blood tests that can pick up damage to the heart and find patients who have had a heart attack. However, whilst this is welcome, it does not identify what causes the heart attack and can sometimes pick up other conditions that cause a strain on the heart. The classic cause of a heart attack is when a blood clot forms on fatty deposits within the heart arteries. This leads to treating patients with blood thinning medication, and this is very effective and saves lives. However, many apparent heart attacks are not caused by blood clots and some may be caused by blood clots but pass unrecognised. In this proposal, we will test an exciting new imaging test that can 'see' from outside the body whether there is a blood clot in the heart arteries. This could provide a major new way of assessing patients to ensure they get the right diagnosis and the right treatment. This could ultimately improve the outcomes of or patients with heart attacks. We will recruit 80 patients in total who have recently been diagnosed with a heart attack from the cardiology department at the Royal Infirmary of Edinburgh. The research team will review patient's medical records to determine eligibility for the study. The research study involves participants undertaking the following research procedures and assessments: 1. A combined Positron Emission Tomography and Computed Tomography (PET-CT) scan of the heart 2. Ultrasound scan of the heart (Echocardiogram) 3. MRI scan of the heart 4. A blood test - a total of up to four tablespoons (60 mL) of blood will be taken for immediate testing and the remaining blood will be stored for future ethically approved studies 5. A follow up questionnaire 6 -12 months following the heart attack