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 study is designed to evaluate the efficacy and safety of tofacitinib modified release formulation (11mg QD) versus tofacitinib modified release formulation plus continued methotrexate treatment in subjects with moderate to severe rheumatoid arthritis who are insufficiently responding to their stable dose of methotrexate treatment.
This study will compare safety, efficacy, and tolerability of a two drug regimen of dolutegravir (DTG) plus (+) lamivudine (3TC) administered once daily with DTG plus two nucleoside reverse transcriptase inhibitors (tenofovir disoproxil fumarate [TDF]/emtricitabine [FTC] fixed dose combination [FDC]) administered once daily in human immunodeficiency virus (HIV) 1 infected adult participants that have not previously received antiretroviral therapy. The study is designed to demonstrate the non inferior antiviral activity of DTG + 3TC regimen to that of DTG + TDF/FTC FDC and will characterise the long term antiviral activity, tolerability and safety of DTG plus 3TC through Week 148. Approximately, 700 participants will be randomised 1:1 to receive DTG + 3TC or DTG + TDF/FTC FDC. Participants will be stratified by screening HIV 1 ribonucleotide nucleic acid (RNA) levels and by screening CD4+ (cluster of differentiation 4) cell count.
This study will compare safety, efficacy, and tolerability of a two drug regimen of dolutegravir (DTG) plus (+) lamivudine (3TC) administered once daily with DTG plus two nucleoside reverse transcriptase inhibitors (Tenofovir [TDF]/Emtricitabine [FTC] fixed dose combination [FDC]) administered once daily in human immunodeficiency virus (HIV) 1 infected adult participants that have not previously received antiretroviral therapy. The study is designed to demonstrate the non-inferior antiviral activity of DTG plus 3TC regimen to that of DTG plus TDF/FTC FDC and will characterise the long term antiviral activity, tolerability and safety of DTG plus 3TC through Week 148. Approximately, 700 participants will be randomised 1:1 to receive DTG + 3TC or DTG + TDF/FTC FDC. Participants will be stratified by screening HIV 1 ribonucleotide nucleic acid (RNA) levels and by screening CD4+ (cluster of differentiation 4) cell count.
Background. For more than a century a causal link between influenza and cardiovascular disease has been suspected. It is conceivable that influenza may precipitate plaque rupture, increase cytokines with central roles in plaque destabilization and trigger the coagulation cascade. Accordingly, registry studies, case control studies and a few small randomized trials, all underpowered for clinical endpoints, have demonstrated that the risk for acute myocardial infarction (AMI) is increased following respiratory infection and that the risk of stroke and AMI in patients with established cardiovascular disease seem to be reduced following influenza vaccination. In May 2015 a Cochrane review concluded that influenza vaccination may reduce cardiovascular mortality and cardiovascular events but bias and inconsistent results in prior studies require higher-quality evidence to confirm these findings. High costs and little commercial interest in conducting a randomized trial on influenza vaccine in cardiovascular disease stand in the way. Objective. The objective is to document whether influenza vaccination protects against cardiovascular events and death in patients with an AMI or very high risk stable coronary artery disease patients. Methods. Population: 4400 patients with ST-elevation (STEMI), non-ST elevation myocardial infarction (NSTEMI) or very high risk stable coronary artery disease are randomized 1:1 in a blinded fashion using an RRCT design and followed up via registries and telephone calls. Intervention: Influenza vaccination. Control: Placebo (saline). Outcome: The primary endpoint is a composite of death, myocardial infarction and stent thrombosis till 1 year. Patients will be included in the study in all of Sweden's 7 university hospitals and 5 general hospitals, 4 university hospitals and 1 general hospital in Denmark, in 1 specialized heart center in Norway, 2 university hospitals in Czech Republic, 6 hospitals in Scotland, 1 university hospital in Latvia and 2 hospitals in Bangladesh. Secondary endpoints are time to all-cause death till 1 year, time to cardiovascular death till 1 year, time to stent thrombosis till 1 year, time to revascularization till 1 year, time to myocardial infarction till 1 year, time to cardiovascular death, a new myocardial infarction or stent thrombosis (first occurring) till 1 year, time to stroke, including TIA till 1 year, time to rehospitalization for heart failure till 1 year, time to hospitalization for arrhythmia till 1 year or length of hospital stay (if information is available). From a hypothesis generating perspective we aim to follow up patients through registries beyond 1 year and up to 5 years. The trial has been approved by the ethical committee system (Dnr 2014/264) and the Medical Products Agency (EudraCTnr -2014-001354-42) in Sweden. Perspectives. If a clinical benefit can be demonstrated in this prospective trial influenza vaccination may become an important novel in-hospital therapy for patients with cardiovascular disease and the accompanying direct and indirect societal gains will be profound.
The primary objectives of this study are: To evaluate pharmacokinetics (PK) properties of BIIB074 administered as a single oral dose in healthy Japanese and Caucasian participants; and To evaluate the PK properties of BIIB074 administered as repeated oral doses in healthy Japanese participants. The secondary objective of this study is to assess the safety and tolerability of BIIB074 administered as a single oral dose (Japanese and Caucasian participants) and as repeated oral doses (Japanese participants).
PhenoDM1 will use patient reported outcomes to assess levels of pain, fatigue and quality of life in this cohort. Clinical and functional outcomes will look at muscle wasting and levels of myotonia. DNA, RNA, serum and CSF samples will be taken from all patients so that additional genetic and molecular biomarker analysis can be carried out. A subset of patients will undergo detailed sleep studies along with skeletal muscle MRI of the lower limbs. This study will complement the work of other groups currently looking at myotonic dystrophy type 1 using the same outcomes and measures where possible.
Diabetes is a chronic condition that affects 1 in 16 people in the UK, and leads to difficulty controlling blood sugar levels. This is due to an imbalance between two main hormones: insulin, which lowers blood sugar, and glucagon, which causes it to rise. Most current anti-diabetic medications work to improve insulin levels, however research is now shifting to better understand how glucagon levels play a key role in this disease. Glibenclamide is a type of anti-diabetic medication (sulfonylurea) which is commonly used to increase the amount of insulin released by the pancreatic beta-cells. Studies in mice and human cells from donors with type 2 diabetes have shown that sulfonylureas can also improve glucagon levels when used in very small doses by working on different cells in the pancreas (alpha-cells). The aim of this study is to find out whether low doses of glibenclamide can improve glucagon levels in patients with type 2 diabetes, and whether in the future this could be used to better control high blood sugar levels, without the risk of causing low blood sugar. Participants with type 2 diabetes who are diet-controlled or on metformin will be given a liquid containing a low dose of glibenclamide. They will need to attend the OCDEM Clinical Research Unit at the Churchill Hospital, Oxford, for early morning blood tests every 3-4 days over a period of 3 weeks. A continuous glucose monitor will also be fitted during this time. This study is funded by the NIHR OxBRC.
Study will develop, validate and pilot measures to assess quality of experiences of mammography. Pilot data collection and analysis will investigate modifiable factors most important in determining quality of patient experiences of mammography.
The objectives of this study include using the new technology of SS-OCT (swept source optical coherence tomography) to evaluate morphological abnormalities of the vitreous, retina and choroid and to assess the repeatability of retinal and choroidal thickness measurements in retinal disease using SS-OCT. A secondary objective is to use the new imaging modality of adaptive optics to directly visualize photoreceptor mosaics and microvasculature in eyes with retinal and choroidal disease.
Patients with severe respiratory diseases such as chronic obstructive pulmonary disease (COPD) or obesity-hypoventilation syndrome (OHS) can benefit from having non-invasive ventilation (NIV). Non-invasive ventilation consists of a machine (ventilator) that is blowing air through a mask. NIV provides patients with a bigger expansion of their lung when they are breathing. This better expansion helps patients to have more oxygen and less waste gas (or carbon dioxide) in their body. These improvements enhance survival and quality of life. In order to provide appropriate ventilation for each patient, the ventilator can generate different types of blowing: - Continuous positive airway pressure (CPAP) which delivers a constant pressure to the mask - Pressure support ventilation (PSV) which delivers a constant pressure to the mask and, on top of that, delivers more pressure when the patient begins to breathe in. - Pressure control ventilation (PCV), which is similar to PSV, but use a fixed time to generate the flow when the patient begins to breathe in. These different types of blowing have consequences on patient comfort as well as on the improvement of their ventilation. To assess the improvement of the ventilation, the investigators currently use blood tests, however, these reflect overall output and may miss more subtle changes in breathing that could affect how patients feel. Electrical impedance tomography (EIT) is a new technology that involves wearing a belt of sensors around the chest that provides information on how well the lungs are being filled with air by the ventilator. It allows a non-invasive assessment of the effect of NIV onto lung ventilation in real-time. The investigators hope to use the EIT technology to assess in real-time patients lung ventilation when they are using the NIV. The investigators hope that EIT will provide them with information on which type of blowing is more effective and more comfortable than the others.