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 study will be conducted in 4 parts and will commence with dose escalation of AMX-500 as a monotherapy (Part 1), followed by monotherapy dose expansion (Part 2). - Part 1 (Monotherapy Dose Escalation): Single-agent AMX-500 dose escalation - Part 2 (Monotherapy Dose Expansion): Single-agent AMX-500 dose expansion The study may subsequently continue via a protocol amendment with dose escalation of AMX-500 combinations (Part 3) followed by combination therapy dose expansion (Part 4).
Skeletal muscle accounts for approximately 45-55% of total body mass in healthy adults and plays a pivotal role in whole-body metabolic health, locomotion and physical independence. Undesirable loss of skeletal muscle mass (atrophy) is, however, a common feature of many communicable and non-communicable diseases including ageing, bed-rest/immobilisation, cancer and physical inactivity. As such, the design of optimal strategies (e.g., different types of exercise) to "offset" these detrimental losses of muscle is a focus for both researchers and clinicians. One situation where losses of muscle mass occur very quickly (i.e., within a few days) is after surgery. However, at this time, most people (especially if they have had major abdominal or lower-limb surgery) are not able to perform exercise and as such a different strategy to maintain muscle mass needs to be found. It has been shown that electrical stimulation of the leg muscles can maintain muscle mass and function in patients after surgery. It is not however yet known, what the optimal electrical stimulation regime is to preserve muscle mass during situations of disuse. This study aims to examine the impact of three different electrical stimulation protocols on muscle building processes in individuals age-matched to those most commonly presenting for major abdominal surgery. This information will then be used in a clinical trial of surgical patients to see if it can preserve their muscle mass and function in the post-operative period.
This trial will explore the feasibility and acceptability of an intervention for Somatic flashbacks in Post-Traumatic Stress Disorder (PTSD). Imagery Rescripting (ImRs) will form a central part of the intervention. The primary objective of this trial is to explore the acceptability and feasibility of delivering an intervention for the management of somatic flashbacks to a population of adults experiencing post-traumatic stress disorder. The secondary objectives of this trial will be to examine if the intervention leads to any differences in participants experience of somatic flashbacks and their global symptoms of PTSD.
The purpose of this Ph2b study is to characterize the dose-response relationship and to evaluate the safety and efficacy of three different single doses of TIN816 in hospitalized adult participants in an intensive care setting with a diagnosis of sepsis-associated acute kidney injury (SA-AKI).
In order to perform heart surgery, a machine called cardiopulmonary bypass (CPB), or more commonly known as a heart-lung machine, is used to maintain the circulation of oxygenated blood needed by the rest of the body and its organs. Historically, when a patient is connected to CPB, their body is cooled below the normal body temperature. This is known as hypothermia. This is because scientific studies have previously shown that reduced body temperature lowers metabolism and therefore offers more protection to the brain and other organs due to the reduced oxygen requirement. The evidence supporting this practice, however, has been challenged throughout the history of cardiac surgery, with studies supporting that normothermia, or normal body temperature, is a safe alternative. Despite this, the practice of hypothermia has persisted. Published data from a survey of 139 cardiac surgeons in the United Kingdom showed that 84% still routinely employ hypothermic CPB during surgery. To assess whether normothermic or hypothermic CPB is safer, a clinical trial requiring a large sample size and high recruitment rates will be required. Therefore, the investigators aim to assess firstly the feasibility of trial recruitment and allocation adherence in this study. 100 adults across 10 different cardiac surgery centres in the United Kingdom will be recruited to a multicentre feasibility randomised controlled trial comparing normothermia (active comparator) against hypothermia (control comparator) during cardiopulmonary bypass in cardiac surgery. This study will also test the ability of the Cardiothoracic Interdisciplinary Research Network (CIRN), a trainee-led research collaborative, to collect pilot data on Major Adverse Cardiac and Cerebrovascular Events (MACCE) using a regulation-approved electronic application HealthBitⓇ. Participants will also be asked to complete quality of life surveys. The results of this study will subsequently inform a large, adequately powered randomised controlled trial for optimal temperature management during CPB.
The aim of the proposed research is to develop a quick and reliable method for automated evaluation of tissue sections for residual tumour in histology specimens following liver surgery. This advanced technology will enable assessment of liver tumours and resection margins following liver surgery. The technology is based on Raman spectroscopy (RS) and multivariate spectral analysis to produce 2-dimensional biochemical images that can reliably separate the spectral signal of liver tumours from surrounding normal tissue.
PKU UP is a prospective, single-arm, open-label, 26-week acceptability study to evaluate PKU UP for the dietary management of participants with phenylketonuria (PKU). Up to 15 participants aged 1 - 10 years old will be recruited and it is anticipated the study will open in at least three sites in the United Kingdom (UK) to recruit the target number of participants in the required timeframe.
Crohn's Disease (CD) is a gastrointestinal disease that can cause chronic diarrhea with or without gross bleeding, abdominal pain, weight loss, and fever. This study will assess the pharmacokinetics, efficacy, and safety of risankizumab in pediatric participants with moderately to severely active CD aged 2 to < 18 years old who have had intolerance or inadequate response to other therapies. Risankizumab is an approved drug for adults with plaque psoriasis, psoriatic arthritis, and CD and is being developed for the treatment of CD in pediatrics. This study is comprised of 3 cohorts that may participate in 3 substudies (SS). Cohort 1 will enroll participants with ages from 6 to less than 18 years. Cohort 2 will enroll participants with ages from 2 to less than 6 years. Cohort 3 will enroll participants with ages from 2 to less than 18 years. SS1 is an open-label induction period where participants will receive a weight-based induction regimen of risankizumab. SS2 is a double-blind maintenance period where participants will be randomized to receive 1 of 2 doses of weight-based induction regimen of risankizumab. SS3 is an open-label extension period where participants will receive risankizumab based off of their response in SS2. Around 110 pediatric participants with CD will be enrolled at around 100 sites worldwide. Participants in SS1 will receive risankizumab intravenously during the 12-week induction period. Participants in SS2 will receive risankizumab subcutaneously during the 52-week randomized maintenance period. Participants in SS3 will receive risankizumab subcutaneously during the 208-week open label period. Participants will be followed-up for approximately 140 days. There may be higher treatment burden for participants in this trial compared to their standard of care. Participants will attend regular visits during the study at a hospital or clinic. The effect of the treatment will be checked by medical assessments, blood tests, checking for side effects and completing questionnaires.
The goal of this study is to assess the safety, tolerability and immunogenicity of mRNA-1769 in healthy adult participants.
Spinal Muscular Atrophy (SMA) is a rare neuromuscular condition, characterised by loss of motor neurons as a result of a mutation in the survival motor neuron gene. This results in muscle wasting and in the most common and severe type, death before 24 months. Over the recent years there has been a dynamic shift in the therapeutic options for these patients involving both approved therapies, including gene therapy, and access to clinical trials in genetic modifying. As a result of this mortality and morbidity have changed particularly for the SMA type 1 population and therefore there is now a changing phenotype with many children needing interventions at different time points compared to the natural history. This review process is a retrospective review from 1st July 2017 - 30th June 2022, when most of the new drug therapies were being introduced, of all the children aged from 0-16 years in the West Midlands region and their outcomes.