View clinical trials related to Emergencies.
Filter by:This study is to develop a tool capable of improved risk prediction regarding the 30-day mortality. Based on vital signs, impaired mobility on presentation (IMOP), Clinical Frailty Scale (CFS) and patients' symptomatology three risk categories (low, intermediate, high risk) will be established.
Demographic changes in the industrialized world are expected to prompt a need for better organized and more efficient health care services. In order to curb costs, health care providers in many countries are searching for viable alternatives to hospitalizations. Norwegian white papers and reform documents presume that the municipalities will play a central role in meeting the growth in demand for health services. Central public policy documents and national research strategies highlight that we need pathways characterized by good quality and safe care, and which are responsive to needs, based on user involvement, continuity of care and successful collaboration within and between service levels. The 2012 Coordination Reform placed new responsibilities on municipalities in the delivery of primary health care services and on hospitals as deliverers of specialist services, as well as on the integration and collaboration between the two organizational levels. This reform mandates that all 428 Norwegian municipalities are obliged to establish or co-operate on establishing Municipal Acute Wards (MAW) (In Norwegian: Kommunale akutte døgnplasser), so as to alleviate pressure on hospitals. However, the research basis for these units is relatively weak. Hence, there is little information on the outcomes regarding the quality, cost-effectiveness, patient-reported as well as personnel-reported outcomes of this new level of care. This study aims at assessing the outcome of admissions to MAWs compared to a general hospital for patients in need of acute care, that can be treated at a lower and decentralized level of health care, with potentially less resources than traditional hospitalizations. The study will use a Randomized Controlled Trial (RCT) design. It builds on previous research and systematic reviews, and aims to assess several outcomes, including health-related quality of life (HRQoL), patient experiences, cost-effectiveness, short-term mortality and morbidity, and draws on linkages to national registers.
Can a novel electronic display of pain be successfully used in the emergency department and does it (1) change analgesic prescription and (2) change amount of pain experienced? Pain is a common symptom in emergency care. As patients are seldom reassessed, staff may not be aware of pain. Currently, members of nursing or medical staff need to ask patients about their pain and record it manually using a visual analogue scale from 0-10. The new electronic display uses buttons to represent a pain scale from 0 (no pain) to 10 (worst pain). Patients will select the number that best corresponds to their pain every 15 minutes. In the experimental group, the score will be displayed on a screen. In the control group, the score will not be displayed. The investigators will compare the overall amount of pain in both groups, and will look at their pain management (painkillers prescribed). The investigators will also ask patients and staff for their opinions on the display. The study will include adult patients in the emergency department at Leicester Royal Infirmary with an initial pain score of 5 or more who are able to make a decision about whether to participate. Participants will also need to be likely to stay in the hospital for more than 2 hours to allow the investigators to gather enough useful data. The study will recruit 200 participants. If the study can demonstrate that the monitor is acceptable to patients and staff and results in improved pain management, it is a low cost intervention which could be widely implemented within the NHS. It also has the potential for being used in other areas such as surgical wards. The investigators have previously found that 300-400 patients per week in the department have moderate to severe pain and might therefore benefit from this monitor.
This is a pilot study to evaluate clinical predictors of intracranial bleeding in elderly patients who present to the emergency department (ED) after a fall. The aim is to assess feasibility and rate of patient recruitment, patient follow up, and to establish a point estimate for the incidence of intracranial bleeding in the investigator's population. Currently there are no guidelines for ED physicians to assess the pretest probability of intracranial bleed in these patients, and no safe way to exclude a bleed without CT.
This Canadian, multi-centre, prospective, real world study is designed to evaluate the effectiveness of low dose methoxyflurane (MEOF) (PENTHROX™) for the treatment of moderate to severe pain associated with trauma in the Canadian ED.
This study will determine the feasibility, acceptability, and potential efficacy of an emergency department-based pregnancy prevention intervention targeting sexually active adolescent female emergency department patients.
The study purpose is to collect images and user feedback from the Next Generation Venue Ultrasound system, components, and accessories under clinical conditions, as required for device development and optimization.
Trained anesthesiologist- or emergency physician-divers will perform an airway management in simulated microgravity on a submerged model.
The purpose of this study is to test the additional effect of paracetamol in combination with morphine for analgesia, respectively to test/confirm an opioid sparing effect due to the additional use of Paracetamol, as well as the reduction of adverse drug reactions of morphine.
Recent studies have shown that end tidal oxygen (ETO2) monitoring can be useful to determine the adequacy of preoxygenation. No study has assessed the correlation between ETO2 values obtained during preoxygenation to predict the PaO2 in patients undergoing RSI in the ED. Our objective was to determine whether a novel equation using the ETO2 at the end of preoxygenation could reliably estimate the partial pressure of arterial oxygen (PaO2) in critically-ill ED patients undergoing RSI.