There are about 2333 clinical studies being (or have been) conducted in Ireland. 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 will evaluate whether prolonged oral levosimendan can preserve respiratory function more effectively than placebo, resulting in better patient functionality as measured by the ALSFRS-R scale. In this randomized, double-blind, placebo-controlled, parallel-group, multicenter study, subjects are allocated in a 2:1 ratio to receive either levosimendan (1 -2 mg daily) or placebo for 48 weeks. The primary endpoint is slow vital capacity (SVC) at 12 weeks, with the impact on patient function assessed through 48 weeks, adjusted for patient outcome, using ALSFRS-R (combined assessment of function and survival, CAFS). Other important efficacy measures include time to respiratory events, clinical global impression (CGI), assessment of dyspnea using the Borg scale and sleep scales (Pittsburgh sleep quality index and Epworth sleepiness scale). Patient safety is monitored using conventional methods including adverse events, safety laboratory tests, vital signs and 12-lead EKG. Following screening and baseline visits, patients attend the clinic at 2, 4, 8, 12, 24, 36 and 48 weeks, with telephone assessments conducted at weeks 18, 30 and 42. An end of study visit is performed 14-25 days after the last study treatment administration. The study will be monitored by an independent data and safety monitoring board. A long-term extension study will be available for patients completing the study.
This is a pilot randomised controlled trial investigating a combination of unilateral strength training (cross-education) and mirror therapy for the rehabilitation of upper limb impairment following a stroke. This study has been conducted as part of a PhD qualification at the Institute of Technology Sligo in Ireland with all assessments being conducted at the institute and all therapy sessions taking place at the participant's home. The study was conducted in conjunction with Sligo University Hospital and it attained ethical approval through the relevant University Hospital Ethics Committee.
This study will evaluate the efficacy, safety, and pharmacokinetics of adjuvant atezolizumab in combination with paclitaxel, followed by atezolizumab, dose-dense doxorubicin or epirubicin (investigator's choice), and cyclophosphamide, compared with paclitaxel followed by dose-dense doxorubicin or epirubicin (investigator's choice) and cyclophosphamide alone in patients with Stage II-III TNBC (Triple Negative Breast Cancer)
This is a pilot randomised controlled trial investigating a combination of unilateral strength training (cross-education) and mirror therapy for the rehabilitation of lower limb impairment following a stroke. This study has been conducted as part of a PhD qualification at the Institute of Technology Sligo in Ireland with all assessments being conducted at the institute and all therapy sessions taking place at the participant's home. The study was conducted in conjunction with Sligo University Hospital and it attained ethical approval through the relevant University Hospital Ethics Committee.
This is an open label, prospective, non-randomised, multi-centre first-in-human evaluation of the Vetex Thrombectomy Device for treatment of acute iliofemoral deep vein thrombosis (DVT)
Incorrect labelling of blood samples occurs at a rate of 1% in the general laboratories and 6% in Blood Transfusion Laboratories. The most serious error 'Wrong Blood in Tube' (WBIT) occurs when blood is taken from the intended patient, but labelled with another patient's details. Consequences may include, misinterpretation of a patient's diagnosis or clinical status, incorrect referral or treatment of a patient, or in the worst case scenario, incorrect cross matching for blood of the wrong blood group, which may lead to catastrophic outcomes, including death. The root causes for these errors is failure to identify the patient correctly and failure to correctly label the blood tubes at the bedside. To date, despite significant initiatives, it has proved very difficult to eradicate or reduce the error rate. Our project involves a novel, technology enhanced learning approach using proficiency based progression in a prospective randomised controlled methodology to significantly reduce this error. This approach to learning is more efficient and effective than the traditional approach of repeated practice and is made possible with metric-based simulations. This project will reduce the incidence of adverse events and avoidable medical errors associated with sampling and labelling errors including WBITs. This will be achieved by training healthcare practitioners to a proficiency standard in venepuncture. Thereby minimising the failure of health care professionals to identify the patient correctly and failure to correctly label the blood tubes at the bedside. This project's impact will deliver reduced sampling and labelling errors -including WBITs by a factor of 40-69%. Reductions of this magnitude will have profound national and international implications on how these types of skills are acquired and quality assured. This would result in improved patient safety and savings of over €500,000 at Cork University Hospital and if applied nationally result in exchequer savings of millions of euro annually.
The trialed investigational medical imaging device is a low-power microwave breast imaging system for cancer screening purposes. It is an active device which uses non-ionizing radiation. Microwave imaging is an emerging imaging modality for the early detection of the breast cancer. The physical basis of microwave imaging is the dielectric contrast between healthy and cancerous breast tissues at microwave frequencies. Microwave imaging can potentially be used for monitoring neoadjuvant chemotherapy treatment, breast health monitoring, and for routine screening and diagnosis of the breast cancer at the early-stage. The non-invasive and the non-ionizing characteristics of microwaves should allow for frequent scans of the breast using microwave imaging, unlike X-ray mammography. In addition to safety, microwave imaging does not require uncomfortable breast compression and it is potentially a lower-cost modality. This is a first-in-human clinical test of the investigational device, which has been so far tested only with experimental phantoms modelling the human female breast. The clinical data that will be collected in the context of this study is intended to provide early safety information for the investigational medical imaging device. In addition, this exploratory data will guide the refinement of the device hardware and the imaging algorithm design, before decision to proceed (or not) with further clinical tests. Furthermore, this study will be used to guide sample size calculation for a subsequent study designed to evaluate efficacy should that appear warranted once this study is completed.
This is a pilot randomised controlled trial investigating a combination of mirror therapy and treadmill training for the rehabilitation of lower limb impairment following a stroke. This study has been conducted as part of a PhD qualification at the Institute of Technology Sligo in Ireland with all therapy sessions taking place at the institute. The study was conducted in conjunction with Sligo University Hospital and it attained ethical approval through the relevant University Hospital Ethics Committee.
A study of two ventilatory strategies for low tidal volume ventilation compared to a control group to elucidate if low tidal volumes of 3ml/kg or 4ml/kg were feasible for one lung ventilation.
This study is part of a research theme aiming at elucidating the physiological mechanisms of action of weight loss after gastric bypass surgery. The Roux-en-Y Gastric Bypass procedure induces pronounced and sustained weight loss, but the physiological mechanisms of action are not completely clear. Neither mechanical restriction of food intake nor malabsorption, are the main contributing factors. The enhanced postprandial responses of gut hormones (e.g. GLP-1 and PYY) which increase satiety as well as energy expenditure after surgery suggest a changed physiological set point for appetite and metabolism. Our hypothesis is that the intake of high quantity of protein in a microcapsule form would be able to reach the distal parts of the intestinal mucosa and stimulate maximum stimulation of the anorectic gut hormones. The higher functions of the brain will respond to these strong neuroendocrine signals by ensuing satiety and fullness.