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.
ORLAU is a clinical department of the Robert Jones and Agnes Hunt Orthopaedic Hospital. We treat patients with a wide range of movement disorders affecting their walking or arm function. One of the most common gait issues we see is toe-walking, this is most prevalent in those patients with cerebral palsy (CP). Toe-walking in CP children arises mostly from problems in the calf muscle, we currently use gait analysis to help guide treatment management plans. Two standard interventions for such cases are serial casting and Botulinum Toxin-A injections. Using gait analysis we will be able to see changes to the gait pattern before and after the interventions, however, we want to obtain a whole clinical picture, using B-mode ultrasound, elastography and electromyography (EMG) we will be able to achieve this. These measurements will provide us with information about the muscle architecture and properties including activation. This will help us to determine the effects of the interventions. Elastography is a fairly new clinical technique that uses shear waves generated by the ultrasound probe to map the stiffness of a muscle. Stiffness of muscle is a good indication of myopathies. The additional examinations we want to carry out are all non-invasive, they will be carried out in two sessions, one before the intervention and one after. We will compare the data we collect from the children with CP to our normal database with ORLAU has ethical approval for. The final stage of this study will be to use the muscle parameters obtained by ultrasound to set parameters in a computer musculoskeletal model.
Approximately one fourth of cases of endometrial cancer (EC) are diagnosed in premenopausal women, of whom approximately 40% wish to preserve their fertility. When arising in young women, EC usually presents with favorable prognostic features, as a focal, well differentiated endometrioid tumor, with minimal or absent myometrial invasion. This profile corresponds to the Type 1 EC, which correlates with the estrogen/progesterone receptor positive (ER+/PR+) pattern. On the other hand, these patients frequently present with clinical signs of a hyperestrogenism (chronic anovulation, infertility, obesity). Primary progestin therapy has been demonstrated to be effective in early well differentiated tumors and in poor operative candidates with response rates ranging from 58-100%.Currently, the therapeutic approach to an early stage EC consists of a staging laparotomy/laparoscopy, including a total abdominal hysterectomy and bilateral salpingo-oophorectomy (TAH-BSO), peritoneal washings, and lymphadenectomy (pelvic and aortic), depending on the pathological risk profile pre- and intraoperatively determined. Therefore, the current standard of surgical approach is preclusive of fertility. The worldwide experience and data on conservative management of EC are, however, still limited. Most of reports based on cases retrospectively collected, harboring potential methodological bias, using different treatments and drugs, and with insufficient follow-up. Some systematic reviews have been published in the last decade, trying to summarize the literature data. Therapeutic results seem to be promising with a regression rate of approximately 75% and relapse occurring in 25-40% of cases, with anecdotical reports of deaths of disease (DOD). The fertility outcome was, however, not satisfying with about 30% pregnancy rate in patients attempting to conceive, and an overall low rate of assisted reproductive techniques (ART) despite the subfertile clinical profile.Therefore, there is a need for a prospective, multicentre cooperative project able to systematically collect data from consecutive patients treated according to defined (not necessarily identical) protocols, concerning the oncological, as well as, the obstetrical outcomes. Moreover, this project could represent the "template" in which a pretreatment fertility counseling, psychological support, and definitive surgery are routinely included according to shared criteria.
Background: Sepsis (blood poisoning) is a clinical syndrome characterised by a dysregulated host response to infection causing life-threatening organ dysfunction which results in admission to an intensive care unit. It typically shows an initial harmful inflammation resulting from the immune system's overreaction to a severe infection. It is a major healthcare problem, affecting millions of people worldwide. In the UK, it kills over 37,000 people/year, costing the NHS £2.5 billion a year, and is increasing in incidence. Despite extensive efforts to tackle this burden, at present, however, there are no specific and effective therapies for this illness. Sepsis is a potentially life-threatening condition caused by a severe infection. When someone develops sepsis, inflammation occurs not just at the site of the infection but throughout the whole body. This widespread inflammation can be very harmful. It is known that similar responses occur in other conditions, not relating to infection. The investigators are recruiting patients with severe infections causing organ failure (also known as severe sepsis/ septicaemia and septic shock) and also patients where widespread inflammation, not related to infection, causes organ failure. In this study the investigators hope to find out whether certain groups of genetic and blood based protein markers of sepsis can forewarn the clinicians to this condition and also highlight patients who are responding well to the treatment. Although it is known that the majority of the patients suffering from sepsis will survive their ICU stay and leave the hospital alive, there is insufficient data how these patients do on a longer term, i.e. after some time at home. To date there is little information on the ability of the observed genetic and blood based protein markers to predict the functional status of the patients surviving these conditions.
The purpose of this study is to evaluate the efficacy of 48-week study intervention with JNJ-73763989+JNJ-56136379+nucleos(t)ide analog (NA) regimen compared to NA alone assessed by HBsAg levels. This study is part of HepB Wings Platform Trial (PLATFORMPAHPB2001).
The treatment of breast cancer is determined by its 'receptor (or signal) status'. Receptors are signals present on all cells and if abnormal can drive cancer growth. One of the signals that can drive breast cancer growth is the HER2 receptor/signal. One quarter of all breast cancers are found to have too many HER2 signals i.e. HER2-positive breast cancer. HER2 is a member of the HER-family which constitutes HER1,HER2,HER3,and HER4 signals. Currently, tests can identify breast cancers with too much HER2, from a biopsy, so a cancer doctor can prescribe anti-HER2 treatment to block these signals. These drugs have improved survival rates in HER2-positive breast cancer. Members of the HER family can also 'pair' with each other to activate signals that encourage cancer growth. For example, HER3 naturally 'pairs' with HER2. Though anti-cancer drugs have been developed to target this pairing, the current method of patient selection is not developed to detect pairing of signals in tissue biopsies. A specialist imaging technique called FLIM-FRET (FLIM- Fluorescence Lifetime Imaging Microscopy; FRET- Forster resonance energy transfer) can identify signal pairing on cancer cells from tissue, and potentially, from blood samples. This study involves having blood tests while participants receive anti-HER2 treatment. The investigators will also seek permission to take samples of cancer tissue from the biopsies that were already carried out, e.g. at diagnosis. Some participants may need an additional biopsy, which will be discussed with participants prior to consent. This study will use the specialist FLIM-FRET technique to measure the signal pairing in tumour samples and blood samples. Investigators will measure if the levels of signal pairing from blood are the same as that from tissue, which could lead to bloods tests being used to select patients for anti-HER2 treatments, instead of invasive tissue biopsies. Changes in signal pairing may also help to predict if a cancer is becoming resistant to treatment.
Bronchiolitis is a common type of chest infection that tends to affect babies and young children under a year old. In older children and adults, the same viruses that cause bronchiolitis lead to the 'common cold'. The symptoms of bronchiolitis are like a common cold and include a blocked or runny nose, a cough and a mildly raised temperature. Bronchiolitis affects the bronchioles which are the smaller breathing tubes in the lungs. They produce more mucus than usual and become swollen, leading to a cough and a runny nose. In more severe cases, the tubes become clogged up with mucus which causes breathing problems. In some babies, the breathing problems may present as breathing fast, with in-drawing of the muscles around the rib cage, and in rare cases, very young babies with bronchiolitis may stop breathing for brief periods ('apnoea'). The illness usually starts with a mild runny nose or cough, gets worse over three to five days or so, and then slowly gets better, usually lasting about 10 to 14 days in total. Around 2 in 100 infants with bronchiolitis will need to spend some time in hospital during the course of their illness. This is usually for one of two reasons: they need oxygen treatment to keep their oxygen saturations within acceptable levels or they cannot manage to feed from the breast or a bottle because of a blocked nose or difficulty breathing. Here at the Children's Hospital for Wales we are using 'High flow' to deliver oxygen. This is a relatively new concept on the general paediatric wards, and more established in a setting such as High Dependency Unit (HDU). However, we have been using it successfully on the wards for the last 3 years. High flow device delivering a mixture of oxygen and air at high flow to help open the child's airways so that their lungs can add oxygen to their blood. It is given through a set of prongs (short plastic tubes) inserted just inside the nostrils. Research has shown that the early use of high flow can reduce the chances of the child needing escalation of care to a high dependency unit or paediatric intensive care unit. The investigators are interested in studying the process of weaning high flow support once the child is over the worst of their illness. This will enable the investigators to use the most effective method of weaning babies from their high flow, and ready for discharge. This has the potential to reduce the number of hours spent in hospital for babies and their parents or guardians.
This is a multi-center, open-label, prospective single-arm study of reversal of the antiplatelet effects of ticagrelor with bentracimab (PB2452) in patients who present with uncontrolled major or life-threatening bleeding or who require urgent surgery or invasive procedure. At least 200 patients will be enrolled from approximately 200 centers in North America, Europe, and Asia-Pacific regions, including mainland China. Patients with reported use of ticagrelor within the prior 3 days who require urgent ticagrelor reversal will be eligible for enrollment. These populations will be enrolled based on separate inclusion criteria.
This study aims to assess if an educational programme combining approaches of self-management, health promotion, and e-learning will improve self-efficacy and other key health and mental health outcomes for people with mild to moderate dementia.
An observational study to investigate cachexia in participants with non-haematological cancer.
CEST in Stroke is an observational magnetic resonance imaging (MRI) study in acute ischaemic stroke patients. Ischaemic stokes are the most common type of stroke and occur when a blood clot blocks the flow of blood and oxygen your brain needs. This can lead to cellular death (infarction) so the quicker a stroke is diagnosed and treated, the better a patient's recovery is likely to be. The purpose of this study is to determine the technical feasibility of a new MRI technique known as Chemical Exchange Saturation Transfer (CEST) imaging for assessing the extent of potentially salvageable brain tissue (penumbra) around an area of infarction. CEST imaging works by looking at the chemicals in the brain cells. The chemicals may change when cells are affected by stroke. Stroke patients are not normally treated with with clotbusting drugs or clot-retrieving devices if they arrive at hospital many hours after the stroke because treatment may not help and in some cases it may cause more harm than good. However, the new MRI technique could detect those stroke patients who arrive at hospital many hours after the stroke but still have salvageable brain - in these cases it would be helpful to treat these patients and therefore stop those cells from dying. However, there are several technical issues that need to be addressed before CEST can be adopted as a routine clinical assessment. CEST in Stroke hopes to address these issues by using an alternate MRI sequence capable of acquiring CEST data over a large portion of the brain in approximately in 10 minutes. The overall aim of study is to determine the feasibility of CEST imaging for assessing the extent of penumbra, in order to determine which patients may benefit from re-perfusion interventions who would otherwise not be eligible. If the study is successful, further research will be implemented to help clinical decision making in stroke patients who present outside of conventional time windows.