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.
The aim of the study is to compare performance and safety of a newly developed 14-gauge open-tip pulsed biopsy needle with a conventional 14-gauge core biopsy needle for sampling of radiologically indeterminate or suspicious axillary lymph nodes in women with radiologically suspected breast cancer. This is a Sponsor-initiated multicentre randomised trial. At the time of radiological breast cancer diagnosis women with ultrasonically abnormal lymph nodes undergo axillary sampling using the NeoNavia biopsy system or a common CNB device. This is in accordance with clinical routine and current clinical guidelines. The NeoNavia biopsy system is approved for use in the axillary lymph nodes.
Comparison of casting and bracing for the treatment of idiopathic early onset scoliosis
This is a randomized open-label multicentre Phase III superiority study of the effect of adding SBRT to the standard of care treatment on overall survival in patients with rare oligometastatic cancers. Patients will be randomized in a 1:1 ratio between current standard of care treatment vs. standard of care treatment + SBRT to all sites of known metastatic disease. The primary objective of this trial is to assess if the addition of stereotactic body radiotherapy (SBRT) to standard of care treatment improves overall survival (OS) as compared to standard of care treatment alone in patients with rare oligometastatic cancers.
A multi-centre validation study to evaluate whether a new imaging and surgical protocol would work as well as the current god standard in identifying sentinel nodes in patients with oropharyngeal cancer.
The primary purpose of this study is to define the maximum tolerated dose (MTD) and determine a recommended Phase 2 dose (RP2D) and schedule of orally-administered RP-3500 (camonsertib) alone or in combination with talazoparib, a PARP inhibitor, or Gemcitabine in patients with advanced solid tumors with ATR inhibitor-sensitizing mutations. This study will also evaluate the safety and tolerability of RP-3500 (camonsertib) alone or in combination with talazoparib or gemcitabine, examine both the pharmacokinetics (PK)and pharmacodynamics (PD)and investigate its anti-tumor activity in solid tumors.
Medtronic is sponsoring the Intrinsic Antitachycardia Pacing Post-Approval Study (iATP PAS) to further confirm safety and effectiveness of ventricular iATP therapy in routine clinical practice, following commercial release of iATP-capable devices. The iATP PAS is conducted within Medtronic's Product Surveillance Registry platform (NCT01524276).
Detecting cancer as early as possible is key to achieving positive outcomes in response to diagnosis and treatment. The current project is aimed at validating a novel blood-based breast cancer identification test (Syantra DX Breast Cancer) that has been developed by Syantra Inc. Syantra DX Breast Cancer measures gene expression signatures in whole blood, and has been retrospectively demonstrated in 780 samples. The test uses proprietary algorithms to analyse gene expression characteristics from a novel multi-biomarker panel, and then classify a sample as positive or negative for breast cancer. Based upon test performance in a retrospective environment, a prospective validation study is being proposed. The primary objective of this study is to validate Syantra DX Breast Cancer methodology and biomarker panel using prospective samples, well categorized by diagnostic imaging scores, pathology outcomes, and subject characteristics.
Influenza infection is an important public health priority, with seasonal outbreaks and pandemics causing considerable global morbidity and mortality. The PK, pharmacodynamics (PD), safety and efficacy of IV zanamivir have been evaluated in adults, adolescents and infants more than or equal to (>=) 6 months of age with hospitalized influenza in the IV zanamivir global development program. However, antiviral treatment of neonates and infants under 6 months of age hospitalized with influenza infection remains a medical unmet need. Given the immaturity of the immune system at this age, there are no licensed influenza vaccines for children aged less than six months old. As a requirement of the Pediatric Investigation Plan European Union (EU), GlaxoSmithKline (GSK) will be conducting this open-label, multi-center, single arm, post-marketing authorization study to evaluate the PK and collect safety and tolerability information of IV zanamivir in hospitalized neonates and infants under 6 months of age with confirmed complicated influenza infection. The total duration of study participation for each participant will be up to 24 days with a study treatment period up to 10 days and 14 days of post-treatment follow up. However, for a given participant, the initial 5-day treatment course may be extended for up to 5 additional days if clinical symptoms, participant characteristics or virological tests as assessed by the investigator warrant further treatment. DECTOVA is a trademark of GlaxoSmithKline group of companies.
Recent advances in understanding how cancer develops and spreads have led to effective new treatments and improved outcomes for patients with melanoma. However, we know that these new treatments do not work for all patients: some do not respond to them and some initially respond but then develop resistance. The overall aim of this study will be to collect tumour biopsies, biomarkers present in the blood, and other biological specimens which can be used to try to understand why resistance to anti-cancer treatment occurs, and to develop predictive biomarkers of this resistance in patients with locally advanced and metastatic malignant melanoma. The study will be open to NHS patients aged 16 and over, who have been diagnosed with advanced melanoma, and who will be receiving treatment for their disease as part of their routine care. Patients will be asked to provide samples from tumour biopsies before, during and after treatment. We will also ask for blood samples to look at biomarkers in the blood and see how these correspond with tumour samples, which will further help us to understand treatment response. Biomarkers are substances in the body that can be measured and help indicate how a disease is developing. It is hoped that soon we will be able to monitor cancer by analysing a patient's blood samples, thus reducing the need for biopsies. As blood tests could be taken more frequently, signs that patients are becoming resistant to treatments could be picked up sooner. As well as monitoring biomarkers, we would also like to understand what happens to the healthy cells surrounding the tumour during treatment. This will improve our understanding of how cells adapt and respond to treatments, and may eventually lead to the discovery of new biomarkers to help predict which patients will develop resistance to certain treatments.
Assess the influence of sarcopenia on outcomes of emergency laparotomy in the over 65 age group