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.
Chronic lymphocytic leukaemia (CLL) is the most common adult blood cancer in the United Kingdom. CLL means that many cancer cells appear in the blood, bone marrow and other tissues, for example, the spleen where some blood cells reside. Most patients with CLL have been diagnosed by chance, have no symptoms as a result of CLL, and do not need urgent treatment. However, when the cancer cells build up, people experience symptoms of CLL, and treatment is required. One of the current treatments for CLL is chemo-immunotherapy, that targets and kills cancer cells in the blood. However, this treatment does not kill all cancer cells. Some cancer cells survive by 'hiding' in the bone marrow and tissues, like the spleen, where the treatment cannot get to, this is called minimal residual disease (MRD). MRD eventually builds up and patients experience symptoms of CLL again. New approaches to detect and treat MRD are needed. Research has shown, that the number of blood cells, increases after exercise and that many of these blood cells come from the bone marrow and other tissues. This study will investigate if exercise can move CLL cancer cells that are 'hiding' in the bone marrow and other tissues into the blood, thus improving the detection of MRD. By moving cancer cells into blood, the investigators also think this will improve the way chemo-immunotherapy works. In this study, the investigators will investigate the number of cancer and natural killer (NK) cells in the blood after exercise, in three different groups of people with CLL: before treatment; during treatment; and after treatment has finished.
Psychological distress is commonly experienced by survivors of an intensive care admission, including patients treated during previous pandemics. Whilst data emerges about the short-term impact of COVID-19 on patients and healthcare systems, the long term impact remains unclear. The purpose of this trainee-led, multi-centre longitudinal study is to assess the short- and long-term psychological impact on patients who have survived an admission to intensive care due to COVID-19, and identify possible predictors of anxiety, depression and trauma symptoms in this patient group.
Study for performance evaluation of the QIAstat-Dx® Meningitis/Encephalitis Panel in comparison with other chosen comparator methods.
This study will assess the ability of the lay user to obtain and record a result. Comprehension of the instructions for use of the product will also be assessed.
The objective of the study is to measure the effect of a spinal mobilisation intervention on para-spinal muscle tissue quality, functional balance measures, pain and fatigue in people with multiple sclerosis. The mobilisation intervention group will be compared to a general massage group to analyse the difference between the specificities of the intervention compared to general manual touch. Participants will be randomly allocated to a group condition for a between-subject, repeated measures study. The study hypothesises a decrease in lumbar stiffness, body sway, pain and fatigue post the intervention compared to the general massage group.
PREP Plus aims to create support for those who have survived stroke(s) and are still experiencing weakness in the upper limbs. In conjunction with the PREP programme, and based on the GRASP programme, the aim is to evaluate the feasibility, acceptability, and efficacy of an upper limb intervention support for survivors. Integration of an evidence based upper limb programme to an established physical activity programme will be a feasible method to support long term upper limb rehabilitation to community dwelling stroke survivors.
This study will assess the usability of a Period Tracker product when used by lay users in their own homes.
The COVID-19 pandemic is the biggest medical challenge in decades. Individuals with pre-existing cardiovascular diseases have a higher risk of severe disease and death from COVID-19. The SARS-CoV-2 virus causes infection by targeting a molecule on the walls of the cells lining the lungs and the blood vessels leading to injury. There are concerns that after recovery from COVID-19, the damage sustained by these cells may have long-term consequences including high blood pressure, stroke and heart attacks. The burden of high blood pressure as a result of the pandemic is unknown and a greater understanding of COVID-19 impact on blood pressure and its underlying mechanisms is urgently needed. LOCHINVAR is based on our pilot study "COVID-19 blood pressure endothelium interaction study" (OBELIX,NCT04409847, IRAS 284453), which found that patients with normal blood pressure at the time of hospital admission with COVID-19 showed a nine-point higher blood pressure ≥12 weeks after recovery, compared to a group without COVID-19. LOCHINVAR will extend the OBELIX study aiming to establish if COVID-19 increases the risk of developing high blood pressure and investigating underlying mechanisms through detailed measurements of blood pressure, blood vessel function, hormones and chemicals in the blood, urine and stool. The investigators will invite 150 adults without pre-existing high blood pressure who were discharged from hospital after an admission: half with COVID-19 and half without. Baseline visit will be ≥12 weeks after discharge for measurements of blood pressure, tests of heart and blood vessel health, blood, urine and stool samples along with questionnaires on mood and quality of life. Two further study visits follow, at 12 and 18 months. This study will generate crucial evidence on the long-term impact of COVID-19 on blood pressure along with information on potential mechanisms of this effect with immediate, transferable impact on clinical practice and inform risk mitigation measures.
Patients undergoing hybrid AF ablation second stage catheter ablation have the posterior left atrium mapped to see it if is electrically isolated. This is done via a standard electrophysiogical study in accordance with routine clinical practice. Investigators propose to check left atrium posterior wall isolation via oesophageal pacing and compare this to findings from invasive study
This is a feasibility study to assess recruitment for a randomised control trial comparing prophylactic pyloric ballon dilatation versus control group (no intervention) in Ivor-Lewis Oesophagectomy