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.
PAINT18 is a nutrition study focusing on the effect of arginine supplementation on immune function in preterm infants. The investigators will explore the effect of current intravenous feeding (parenteral nutrition (PN) formulations on blood arginine levels and the genes that are involved in body nutrition and fighting infection in premature babies. The investigators will also investigate the effect of supplementing arginine on these genes. The investigators will undertake a single centre exploratory physiological study in 24 very premature infants receiving PN. 16 of these infants will be supplemented with arginine. The investigators will record nutritional intake and routine biochemical testing data (which includes amino acid levels) collected over the first 30 days of life. The investigators will take blood for analysis at prespecified intervals for RNA sequencing, ammonia and IGF-1 levels. RNA sequencing findings will allow the investigators to describe the effect of arginine on gene activity in preterm infants The investigators hypothesise that arginine supplementation will result in changes in gene expression that are consistent with changes in T-cell function and associated inflammatory pathways.
The South London Stroke Register (SLSR) is an observational population based registry, combining a population incidence study of stroke events in a geographically defined area of South London and a cohort study of these patients followed up over time. The SLSR has been continually ongoing since January 1995 using the WHO ICD-10 definition of stroke. From April 2022, SLSR will use the new ICD-11 definition for case identification to establish a new prospective cohort of patients identified according to the new definition. Follow up of the existing retrospective cohort of current patients will continue, providing data on long term outcomes of stroke through a program of regular patient interviews up to 15 years after stroke. Outcome measures include health outcomes, such as stroke mortality and recurrence, and measures of activities of daily living, quality of life and mental health (cognition, anxiety, depression). The new data collection will include newly selected scales to best capture variation in key health domains and long term outcomes. The change to ICD-11 is expected to lead to an increase in the incidence of stroke and a reduction in the average severity, but the effects of this change have not yet been measured in any population internationally. There is a need for a high quality population-based stroke incidence study to address this gap. Similarly, the factors determining the health of long-term stroke survivors can only be understood using a long running observational cohort study. The overall purpose of this research is to continue and develop the SLSR data collection and analysis to address the needs of stroke patients in the 2020s. The current programme was funded to address the following objectives as part of a broader NIHR programme grant on using data to improve the lives of stroke survivors: - Understand the impact of the ICD-11 new definition of stroke - Define the outcomes and needs of long-term stroke survivors - Support stroke survivors and stakeholders with these detailed data and analyses - Describe the use of formal, informal, and social care services up to 15 years after stroke - Asses the influence of formal, informal, and social care use on stroke recovery and generate patient-level total costs up to 15 years after stroke
This Phase III, randomized, two-arm, open-label, multicenter study will evaluate the efficacy and safety of giredestrant plus Phesgo compared with Phesgo after induction therapy with Phesgo plus taxane in participants with human epidermal growth factor receptor 2 (HER2)-positive, estrogen receptor (ER)-positive advanced breast cancer (metastatic or locally advanced disease not amenable to curative treatment) who have not previously received a systemic non-hormonal anti-cancer therapy in the advanced setting.
Deep vein thrombosis (DVT) can cause long-term scarring and narrowing of veins. When there is extensive damage to the veins in the legs, groin or abdomen it can affect the way that blood is able to flow back up to the heart. Some patients are left with severe symptoms such as pain, leg swelling and ulcers, and have surgical treatment with nitinol stents to re-open the veins and relieve symptoms. The primary aim of this study is to investigate venous blood flow to the heart during exercise in patients with extensive damage to the veins in the groin and abdomen after DVT, and changes that happen after stenting.
The primary objective of this study is to evaluate the long-term safety of mRNA-3705 administered to participants with isolated methylmalonic acidemia (MMA) due to methylmalonyl-coenzyme A mutase (MUT) deficiency who have previously participated in other clinical studies of mRNA-3705.
LEVANTIS-0093A (LEV93A) is a prospective cohort observational clinical study to validate the plasma free GAGome MCED test in adults at high risk of developing cancer ("high-risk adults"), specifically in 55-80-year-old adults with significant smoking history. LEV93A will use plasma biospecimens collected within the Yorkshire Lung Screening Trial Biomarker sub-study and corresponding participant data prospectively collected within the Yorkshire Lung Screening Trial (YLST) and the Yorkshire Kidney Screening Trial (YKST) all of which are sponsored by the University of Leeds and funded by Yorkshire Cancer Research (Award references: L403, L403B L403C), in collaboration with the University of Leeds, with the University of Manchester and with the Leeds Teaching Hospitals.
This study aims to prepare for the first-in-human clinical trial of cone optogenetics vision restoration. As a first step, this worldwide multicenter ocular imaging study (EyeConic Study) is performed to identify eligible patients.
This 12-week study aims to test a sustainable incentive-based physical activity app program that may lower the size of incentive needed to stimulate physical activity and drive incentive costs down. Following the 5-day starting assessment (baseline) period, participants will be able to earn incentives in the form of loyalty points when they reach their daily step goals set by the Caterpillar app. Over the course of the 12-week study period, users will be rewarded for reaching their step goals through three different incentive programs in 30 day intervals: Month 1 (users will earn daily rewards of 3¢ per day upon achieving personalized daily step goal); Month 2 (users will earn weekly rewards (25¢ per week goal met 5+ times); Month 3 (users will earn team-based rewards (35¢ per week if 10+ goals are reached collaboratively with another user).
Brain surgery operations include brain tumour removal and blood vessel procedures. Each year in the UK, approximately 70,500 patients are diagnosed with a brain tumour, 5,000 of whom undergo surgery. Approximately 1,000 patients undergo blood vessel brain surgery. Brain tumour surgery involves removing as much of the tumour as safely as possible. If all tumour is removed, patients have significantly better outcomes and live longer. However, even with the best hands and the most modern technology currently available, it is often not possible to reliably identify tumour during surgery. Moreover, nerves and blood vessels cannot be reliably identified either during surgery. Yet, they need to be preserved to avoid brain damage. Due to this uncertainty and the need to balance risks, tumour is often left behind. Today, close to 30% of brain tumour patients require repeat surgery owing to tumour left behind during their first surgery. Further surgeries are more difficult, pose additional patient risks and lead to increased healthcare costs with often poor patient outcomes. Newly developed camera systems have the potential to enhance the surgeon's vision to reliably identify tumour and healthy brain structures. Hyperspectral imaging (HSI) is one of the most promising of such technologies. Its core ability is to provide very detailed and rich information that is invisible to the human eye. HSI has demonstrated the potential to provide crucial, but currently unavailable, information about tumour and critical brain structures during surgery. However, HSI data is very complex and requires advanced computer-processing for its interpretation. In this project, we will use a HSI imaging system to record data in 81 patient undergoing brain including 63 patients with brain tumours and 18 patients suffering from brain vessel abnormalities. Using this data we will develop key computer-processing features to enable real-time image interpretation.
With an increasing body of evidence to support a causal link between drinking milk that contain cow's milk protein (CMP) and the development of gastrointestinal disturbance in infants, many clinicians avoid the use of CMP containing feed in high risk babies. Delivery of adequate nutritional intake is one of the great challenges in the care of newborn infants, particularly those born preterm or with gastrointestinal problems. Whilst there are recognised benefits of human milk, a diet of exclusive human milk may not meet the nutritional demands of the infant. To close this gap, breast milk fortifier (BMF) is typically added to human milk. However, addition of BMF may be associated with gastrointestinal disturbance, possibly due to the fact that it contains CMP. This research study is to test the tolerability and safety of a new human milk-based BMF in neonates with gastrointestinal problems. It is hoped that this may provide an opportunity for high risk infants, to receive the benefits of human milk whilst minimising the risks reported to be associated with CMP. Eligible infants will be those in whom nutritional supplementation of breast is deemed clinically necessary, a weight of greater than 1.0kg at the time of starting fortifier and at least one of: - previous gastrointestinal surgery - congenital gastrointestinal anomaly - medically treated gastrointestinal disease - previously suspected intolerance of CMP based breast milk fortifier in the absence of other gastrointestinal disease Infants will be started on human milk-based BMF once they are tolerating 100 mls per kilo per day of human breast milk. The human milk-based fortifier will be commenced at half the recommended dose for 48 hours then increase to full strength. This will be continued until the infant reaches 44 weeks corrected gestational age, or until such time as they are deemed to no longer require the additional nutrition.