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 is a Phase III open-label study to assess if camizestrant improves outcomes compared to standard adjuvant endocrine therapy for patients with ER+/HER2- early breast cancer with intermediate-high or high risk for disease recurrence who completed definitive locoregional therapy (with or without chemotherapy). The planned duration of treatment in either arm within the study will be 7 years.
The FLARE-RA study will have the following research objectives: A) To establish the cellular and molecular atlas of remission RA achieved with different therapeutics aimed to identify (i) cell clusters/pathways driving disease flare or maintaining remission and (ii) provide an evidence base for developing ML tools for predicting flares. B) To test the performance of a ML-derived algorithm on longitudinal remission RA cohort in a biopsy-driven study. C) To dissect the cellular and molecular mechanisms of remission maintenance and joint flares.
This study will evaluate the safety and efficacy of the BCL2 inhibitor BGB-11417 in participants with relapsed/refractory Waldenström's Macroglobulinemia (R/R WM) in 3 cohorts.
TrAVeRse is a multicentre, open-label, randomised, Phase II study of AVR in treatment naïve MCL participants. The primary objective will be to assess the rate of MRD-negative CR at end of induction after completing 13 cycles of AVR. Participants achieving an MRD-negative CR at the end of AVR induction will be randomised to continued acalabrutinib or observation. Participants who progress during observation may receive retreatment with acalabrutinib
To compare the effect of daily oral dosing of leramistat over 12 weeks with placebo in participants aged 40 years or older with idiopathic pulmonary fibrosis (IPF).
A complication of diabetes mellitus is damage to nerves called neuropathy. There are several mechanisms involved that will lead to the development of neuropathy. Neuropathy can lead to foot ulcers, infections and amputations. Patients with neuropathy may also experience pain, which can be difficult to control and the medications are limited by side effects. Despite this there are no approved treatments to reverse the progression of neuropathy and the management of patients is focused on controlling blood glucose and other metabolic factors to prevent neuropathy and its symptoms from getting worse. Patients with type 1 diabetes are prescribed multiple daily injections (MDI) of insulin to manage their glucose control. However, insulin pump therapy and, more recently, automated insulin delivery (AID) or the Artificial Pancreas can be used as the insulin delivery method for patients with type 1 diabetes mellitus. Manchester Diabetes Centre is the first adult diabetes centre in Europe to pioneer and use a commercially-approved AID in clinical practice. Insulin pump therapy and AID have the advantage of being able to provide insulin at variable doses, which is closer to the natural process occurring within an individual without diabetes. Both are currently considered to be the most physiological method of insulin delivery and have been shown to improve glycaemic control, quality of life (QOL) and reduce the risk of hypoglycaemia (low blood glucose level). The investigators have previously shown in a small group of people that use of an insulin pump therapy may improve symptoms of painful neuropathy via a more stable glucose profile. The peaks and drops in insulin may make neuropathy worse. In this study the investigators aim to investigate the use of insulin pump therapy and AID in their effect on neuropathy. This will be in comparison to a control group of patients on MDI. The investigatorsbwill use a variety of neuropathy measures and symptom questionnaires to assess structural and functional neuropathy status. The investigators hypothesise that those patients receiving the newer technologies will demonstrate an improvement in symptoms and nerve regeneration. This finding would have a significant impact for patients as it would provide evidence to suggest that those patients with neuropathy should be put onto an insulin pump or AID to improve neuropathy and its symptoms. As these are treatments that are already available on the NHS to patients satisfying specific criteria this study aims to show benefit in this cohort of patients which can be implemented immediately in clinical practice.
This is a Phase 2 open-label extension study to evaluate the long-term safety, tolerability, and clinical activity of AT-02. AT-02 is an investigational medicinal product being developed to treat systemic amyloidosis.
Getting the right dose of antibiotic promptly is an important part of treating infections. Unfortunately, when an infection is severe (sepsis) the body changes how it processes antibiotics. Consequently, some people with severe infection retain antibiotics for too long (risking adverse effects), whilst others excrete antibiotics too quickly (risking under-treatment). Mathematical models can help researchers understand drug handling variability (known as pharmacokinetics) between people. These models require very accurate information about drug administration and drug blood concentration timings. Researchers usually rely on someone recording these timings, but recording errors can make models inaccurate. We would like to understand if using data from routinely used electronic drug infusion devices (recording the exact time of administration) can improve the accuracy of pharmacokinetic models. We intend to investigate this with an antibiotic (vancomycin) that clinicians already routinely monitor blood concentrations for. Adults and children treated at St George's Hospital intensive care units will be invited to participate in the study which will last for 28-days within a 14-month period. Participants will donate a small amount of extra blood and provide researchers access to their clinical data. Blood will be taken at special times during vancomycin treatment from lines placed as part of standard treatment, minimising any pain or distress. There will be no other changes to patient's treatment. In the future, data from this study might help change the way we dose antibiotics. The National Institute for Health and Care Research and Pharmacy Research UK are supporting the study with funding.
The goal of this clinical trial is to test the feasibility of an implant for severe emphysema in up to 30 participants at up to 5 study centers located in Europe and the United Kingdom. The main questions this clinical trial aim to answer are: Is it safe? Does it work? Participants who meet eligibility criteria will have up to two procedures 30 days apart, in which up to 3 implants will be placed in each lung during the procedure(s). Participants will be asked to return for follow-up visits at 30 days, and 3, 6, and 12 months after the procedure(s).
This study is being conducted to evaluate the safety and tolerability of INCB099280 in combination with axitinib and to assess the antitumor activity of INCB099280 in combination with axitinib. This study will only be open in the UK and EU.