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.
This research concerns children with complex neuro-disability. Damage to the developing brain leads to lifelong disturbances in motor control, seizures, cognition, communication, eating and drinking, and behaviour. Children with complex neuro-disability are dependent upon others to move and position them. Children commonly experience chronic lung disease, leading to frequent hospitalisation, medical interventions and premature death. Respiratory illness may be triggered by "aspiration", i.e. when saliva, food, liquid or stomach contents enter the lungs. Aspiration risks increase at night-time when supervision is limited and children are positioned on their backs. Some children experience repeated breathing complications requiring prolonged hospital stays including respiratory support in intensive care. Consultant Respiratory Paediatrician Akshat Kapur and Physiotherapist Hilda Perry developed a new night-time intervention to improve respiratory health of children with complex neuro-disability. Dr Kapur and his team have found that this intervention can help reduce respiratory illness and time spent in hospital for some children. This is an acceptability and feasibility study which means the investigators want to find out if this new intervention is something that children with complex neuro-disability and their families are happy (i.e. it is acceptable) and able (i.e. it is feasible) to do. If so, a larger future research study can be designed to find out if the intervention works to improve the respiratory health of children with complex neuro-disability.
The primary purpose of the study is to evaluate the antiviral activity of orally administered VH4004280 and VH4011499 monotherapy over 10 days in human immunodeficiency virus (HIV-1) infected Treatment-Naïve (TN) participants.
This study evaluates the effectiveness of the Zoles customised 3D-printed insoles to mitigate running-related pain among frequent recreational runners who participate in regular Park Run activities. All participants will have their feet scanned, after which half of the participants will be provided with customised 3D-printed insoles, while the other half will receive no intervention.
The purpose of this study is to evaluate the efficacy of combination therapy with nipocalimab and certolizumab compared to certolizumab monotherapy.
This study has been added as a sub study to the Simulation Training for Emergency Department Imaging 2 study (ClinicalTrials.gov ID NCT05427838). The purpose of the study is to assess the impact of an Artificial Intelligence (AI) tool called qER 2.0 EU on the performance of readers, including general radiologists, emergency medicine clinicians, and radiographers, in interpreting non-contrast CT head scans. The study aims to evaluate the changes in accuracy, review time, and diagnostic confidence when using the AI tool. It also seeks to provide evidence on the diagnostic performance of the AI tool and its potential to improve efficiency and patient care in the context of the National Health Service (NHS). The study will use a dataset of 150 CT head scans, including both control cases and abnormal cases with specific abnormalities. The results of this study will inform larger follow-up studies in real-life Emergency Department (ED) settings.
This is a Phase 3, randomized, parallel-group, comparator-controlled, observer-blind, multicenter study of immunogenicity and safety in approximately 7700 male and female adults aged 50 years and older (approximately equally split between two age groups: 50-64 years; 65 years and older), who are healthy or have stable comorbidities that increase their risk of complications from influenza infection. Three lots of aQIVc will be evaluated for consistency and pooled for the comparison with the 2 control vaccines. Subjects will be randomly assigned to receive 1 of 3 lots of aQIVc, QIV1, or QIV2 in a 1:1:1:2:2 ratio (for a 3:2:2 ratio for aQIVc, QIV1, and QIV2). The study will have a treatment period (Day 1 to Day 29) and a follow-up period (Day 30 up to Day 181); a subset of 770 subjects will be followed up up to Day 365.
Cardiovascular diseases are the leading cause of premature mortality in people with serious mental illness (such as schizophrenia, bipolar disorder, schizoaffective disorder) and dementia. Atrial fibrillation (AF) is the most prevalent cardiac arrhythmia and is associated with fivefold increased risk of stroke also contributing to heart failure and death. Electronic clinical decision support systems (eCDSS) are computer based programs that analyse data within electronic health records (EHRs) and provide prompts to assist health care providers in implementing evidencebased clinical guidelines. Adoption of an eCDSS to address the risk of stroke in people with AF and co-morbid mental illness presents a unique opportunity for research but requires evidence of acceptability and feasibility. This study aims to establish the feasibility and acceptability of an eCDSS (Cogstack@Maudsley) for AF-related stroke prevention in Mental Health of Older Adults inpatient wards. First, we will conduct surveys and interviews with clinicians on inpatient wards to scope experiences of managing atrial fibrillation in secondary mental healthcare settings and attitudes towards use of digital technologies to aid in clinical decision making. A feasibility study will then be run to evaluate the acceptability and feasibility of implementing eCDSS on inpatient wards. Finally, participating clinicians will be invited to take part in a survey and interview which will explore their experiences and attitudes towards using the eCDSS.
The goal of this study is to assess the safety, tolerability and immunogenicity of mRNA-1769 in healthy adult participants.
This trial will evaluate safety and efficacy of human engineered T-cell therapies, in participants with advanced tumors. This trial is a sub study of the Master study NCT03967223.
This study aims to establish the metabolic/molecular response in both adipose tissue and skeletal muscle as well as sensory experiences (pain, fatigue, drive) to prolonged fasting of 3 days duration. Participants will undergo sequential meal assessment before and after a 3 day fast with measures taken throughout each fasting day.