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 randomised clinical trial will explore the feasibility and acceptability of carrying out early vitrectomy surgical treatment compared to standard treatment in acute endophthalmitis. We will investigate the effectiveness of early vitrectomy plus intravitreal antibiotics compared to standard care intravitreal antibiotic injections in the management of postoperative exogenous endophthalmitis. This is a feasibility trial that will evaluate the expected effect size with which to inform the design of a definitive randomized trial of this question.
Tranexamic acid (TXA) reduces head injury deaths. The CRASH-4 trial aims to assess the effects of early intramuscular TXA on intracranial haemorrhage, disability, death, and dementia in older adults with symptomatic mild head injury
To describe the the barriers and facilitators experienced by carers and healthcare professionals when managing medicines for pain relief for infants, children, and young people approaching the end of life in out of hospital settings.
About 60-70% of people with multiple sclerosis (PwMS) lose employment within 10 years of the diagnosis. This can be due to complex personal and work-based factors including psychological factors. MS-PROACTIVE aims to test an online self-help therapy to support PwMS to stay in work called 'READY for MS'. This is a type of Acceptance and Commitment therapy. It is a way to provide treatment in a flexible way without people having to go to see a psychologist. The aim of the treatment is to improve self-efficacy which has been shown to be a significant factor for helping PwMS who want to work to stay in work. The research team will initially develop an online version of READY for MS. We will ask 4 PwMS to test the online'READY for MS' and provide feedback and advice on any necessary changes. We will then recruit and randomise 88 PwMS in Leeds and London who are at risk of job loss. Participants in the active treatment group will use the online treatment in addition to their usual care; the control group will receive their usual care. The participants will complete questionnaires at the start of the study, at 8 weeks and 6 months measuring time off work and work instability (to measure risk of job loss), self-efficacy, mood, quality of life, fatigue and the impact of MS. The questionnaire data will be analysed to test the effectiveness of the treatment. The research team will also interview 4 PwMS at each site at the start of the study, at 8 weeks and 6 months to find out about their experience of using READY for MS in more detail. This will help to inform the use of READY for MS in a larger trial in the future.
Bicuspid aortic valve (BAV) is the most common congenital heart anomaly in the general population (1-2% of all individuals). In affected people, the aortic valve (the structure ensuring one way blood flow between the heart's left pumping chamber, the left ventricle and the main body artery, the aorta) consists of 2 rather than 3 leaflets. This arrangement can cause the affected valve to have restricted opening or cause it to leak. Both situations put strain on the heart and patients with BAV across the age range may require surgery to replace the affected valve. BAV is therefore a condition associated with significant ill health and early mortality. BAV is known to cluster in families and is likely to have a genetic cause. We don't fully understand the inheritance of BAV or the specific genes involved in its development. Learning more about this is the basis of the BRAVE study. We will ask patients with BAV and their relatives (who may or may not have BAV) to take part in the study. Blood samples obtained from the participants will be used for analyses of their genetic composition. This information, linked with the clinical data concerning who does and does not have BAV, will potentially enable the identification of the gene changes responsible for the disease. This, we hope, will give us a much better understanding of the mechanisms leading to this serious and common condition.
Acute stress-induced (takotsubo) cardiomyopathy or broken heart syndrome presents like a heart attack, classically is triggered by intense emotional or physical stress and can have serious health consequences. In the current study the investigators wish to establish whether there is a genetic predisposition making certain people more susceptible to this condition. This could also have implications for their families.
Since initial reports of a novel coronavirus emerged from Hubei province, China, the world has been engulfed by a pandemic with over 3 million cases and 225,000 deaths by 30th April 2020. Health care systems around the world have struggled to cope with the number of patients presenting with COVID-19 (the disease caused by the SARS-CoV-2 virus). Although the majority of people infected with the virus have a mild disease, around 20% experience a more severe illness leading to hospital admission and sometimes require treatment in intensive care. People that survive severe COVID-19 are likely to have persistent health problems that would benefit from rehabilitation. Pulmonary rehabilitation (PR) is a multidisciplinary program which is designed to improve physical and social performance and is typically provided for people with chronic lung conditions. PR courses typically last 6-12 weeks with patients attending classes once or twice weekly and consist of exercise and education components. PR is known to improve symptoms (e.g. breathlessness), quality of life and ability to exercise in those with lung conditions. Breathlessness is a very common symptom reported by people presenting to hospital with COVID-19 and loss of physical fitness will be very common. Using existing pulmonary rehabilitation programmes as a model, we have developed a tele-rehabilitation programme (a programme that will be delivered using video link to overcome the challenges faced by social distancing and shielding advice) for people that have been critically ill with COVID-19. In order to prove whether people benefit from this tele-rehabilitation programme after being admitted to hospital following COVID-19 we would need to perform a large clinical trial. However, before doing this it is important for us to answer some key questions: - How many people that have been admitted to hospital and needed intensive care treatment for COVID-19 still report breathlessness, fatigue, cough and limitation of activities after being discharged from hospital? - Is it possible to recruit these people to a trial of tele-rehabilitation after hospital discharge? - Are people willing and able to perform tele-rehabilitation in their own home using video-link to connect with their therapist? - Are there other rehabilitation needs that are commonly encountered by people requiring intensive care treatment for COVID-19 that could be addressed by tele-rehabilitation that the programme doesn't currently address? Investigators will perform a small study called a feasibility trial to answer these questions and gather some early information about possible benefits of tele-rehabilitation. Based on our understanding of other similar diseases, doctors and therapists think that people will benefit from rehabilitation after COVID-19. The investigators therefore want to test a trial design that makes sure that everyone gets the treatment. This type of trial is called a feasibility, wait-list design randomised controlled trial. People with breathlessness and some limitation of activities will be selected at random to receive tele-rehabilitation within 2 weeks or to wait 6-8 weeks before starting. how many people were eligible to take part, how many agreed to take part and the symptoms and rehabilitation needs that they have will be assessed. Investigators will then monitor symptoms and ability to exercise at the start and end of the trial and before and after tele-rehabilitation.
There are limited data regarding the burden of hyperkalaemia in patients attending emergency departments (ED) or who are hospitalised (excluding those already receiving dialysis). Renin-angiotensin-aldosterone system inhibitors (RAASi) are of prognostic benefit in patients with heart failure with reduced ejection fraction (HFrEF) and post myocardial infarction (MI) left ventricular systolic dysfunction (LVSD) and as such should be continued wherever possible for these indications. These drugs may contribute to elevation in serum potassium and hyperkalaemia may lead to a reduction in dose or complete withdrawal of RAASi. Yet it remains unknown how common this happens in standard clinical practice. Inappropriate discontinuation of RAASi in such patients may lead to adverse clinical outcomes. If patients have hyperkalaemia that limits the use of RAASi, they may be candidates for new potassium binders that could facilitate their continued use.
Coronavirus Disease 2019 (COVID-19) has been widespread worldwide since December 2019. It is highly contagious, and severe cases can lead to acute respiratory distress or multiple organ failure. On 11 March 2020, the WHO made the assessment that COVID-19 can be characterised as a pandemic. With the development of machine learning, deep learning based artificial intelligence (AI) technology has demonstrated tremendous success in the field of medical data analysis due to its capacity of extracting rich features from imaging and complex clinical datasets. In this study, we aim to use clinical data collected as part of routine clinical care (heart tracings, X-rays and CT scans) to train artificial intelligence and machine learning algorithms, to accurately predict the course of disease in patients with Covid-19 infection, using these datasets.
Survey of health of patients completing SONIA 2 study: A cross-sectional analysis by questionnaire