View clinical trials related to Emergencies.
Filter by:Video streaming as an additional tool to telephone was introduced in some Norwegian emergency medical call centers during the spring of 2020. This allows the dispatchers to communicate with the caller through video streaming during emergency calls. Some studies are conducted on this use of video streaming, but further research is needed. In this study, the investigators have chosen to focus on potential effect from video streaming on bystander first aid for injured patients. The investigators have knowledge from preliminary results that dispatchers often find video streaming useful in emergency calls regarding injuries. This study will investigate whether the use of video streaming might have an effect on the recognition rate by dispatchers on the need for bystander first aid for injured patients. In addition, the investigators will investigate whether video-instructions from dispatcher can improve bystander first aid quality. The investigators will be using data collected by ambulance personnel including patients with injuries, as well as data from EMCC journals and audio logs.
Peripheral intravenous line insertion is the most commonly performed invasive procedure in the emergency department (ED). The research hypothesis is that a biplane sonographic approach (i.e., an out-of-plane and in-plane view) might be superior to a mono-plane approach (i.e., an out-of-plane or in-plane view) obtaining a peripheral vascular access among difficult patients admitted to the ED
Pneumonia in children can be caused by different types of germs such as bacteria and viruses. Giving antibiotics to children with bacterial bugs is helpful while giving antibiotics to children with viruses will not help them. Unfortunately, it is difficult for doctors to tell when a child's pneumonia is caused by bacteria or viruses. Most young children are given antibiotics even though it doesn't help them. Our study wants to test a new way to care for children with pneumonia so that only children who will benefit from antibiotics will receive them. The study will use a combination of the child's symptoms, x-rays results, and lab testing to better determine if a child needs antibiotics. The study team will then review the testing results and follow up with the patient and their family in the following days to ensure that the child is improving. PIONEER will test a novel care pathway for treating non-severe pediatric pneumonia with the goal of decreasing antibiotic prescription while maintaining equal clinical outcomes to standard care.
The project aims at designing a machine learning solution able to recognize characteristics signals patterns of brain damages in full term babies born within a context of Hypoxic Ischemic Encephalopathy (HIE)
In this study investigators want to examine if heart rate variability at hospital entry predicts prognosis in participants with severe disease.
Mortality in COVID-19 patients is significantly correlated with age, fever duration, cardiac history, and B-profile and areas of consolidation in LUS. However, it is negatively correlated with initial O2 saturation and ejection fraction. This study was aiming to design a new scoring model to diagnose COVID-19 using bedside lung ultrasound (LUS) in the emergency department (ED).
This is an investigator-initiated, multicenter, randomized, parallel-group, open-labeled, feasibility trial investigating volumes of fluid within 24 hours in 124 patients with sepsis allocated to two different IV fluid regimens enrolled at three emergency departments in Central Region Denmark. The primary outcome is total intravenous, crystalloid fluid volume within 24 hours and key secondary outcomes include protocol violations, total fluids (intravenous and oral) within 24 hours, SAEs/SUSARs, and inhospital-, 30- and 90-day mortality.
This study assesses the performance of radiographers in detecting radiological anomalies of the appendicular skeleton in emergency department. This is a retrospective study comparing the radiographers' diagnostic performance before and after dedicated training, assisted or not by artificial intelligence software. All performances will be evaluated and compared.
The aim of the current study is to evaluate under blinded conditions, both in a simulated environment and during helicopter flight, the effect of a rapid (within 20 minutes) exposure to altitude (4000 m asl) on physiological parameters and selected cognitive domains, in providers operating in helicopter emergency medical service (HEMS) exposed to hypobaric hypoxia or to hypobaric normoxia (H0: cognitive effects under hypobaric hypoxia = cognitive effects under hypobaric normoxia). Simulated environment will allow to control different factors. The parallelism between a study branch conducted in a simulated environment and another one conducted under a real-life condition will allow to evaluate the additive effects on additional stressor factors (processive and systemic ones). - Simulation branch: each participant will take part in three research sessions: a familiarization session and two experimental sessions in simulation facility called terraXcube (test 1 and 2). On test 1 and test 2 each group will be exposed twice to the simulated altitude of 4000 m asl (under hypobaric hypoxia or hypobaric normoxia conditions) according to the randomization protocol. Participants will perform the neurocognitive tests three times on each of the two tests: before the ascent (TC0), after 5 min from the end of the ascent (TC1) and after around 30 min (TC2), to investigate European Union Aviation Safe Agency (EASA) proposed recommendations. After completing each neurocognitive test session, participants will be asked to rate their performance using a visual analogue scales (VAS). All participants will wear the vital parameters monitoring system during the entire duration of the tests inside the chamber, as well as the cerebral oxygen saturation (ScO2) sensor. Samples will be collected by saliva, urine and/or capillary blood. The same schedule is repeated in each test session. - In-field branch: each participant will take part in three research sessions: a familiarization session and two experimental sessions during helicopter flights (test 1 and 2). On test 1 and test 2 each group will be exposed twice to the altitude of 4000 m (under hypobaric hypoxia or hypobaric normoxia conditions) according to the randomization protocol. Participants will perform the neurocognitive test two times on each test: before the ascent (TC0), after around 5 min from the end of the ascent (TC1). After completing each neurocognitive tests, participants will be asked to rate their performance using a visual analogue scales (VAS). All participants will wear the vital parameters monitoring system during the entire duration of the tests. Samples will be collected. The same schedule is planned in each test session.
Asthma is the most common chronic condition among children and many children seek emergency department (ED) care. A key aspect of ED asthma management at the time of discharge is appropriate outpatient referral. Part of the challenge for ED providers is determining which patients require intensive outpatient support as ED providers often do not have the time or familiarity with the asthma guidelines to appropriately stratify asthma severity. Thus, the aim of this study is to determine whether the proportion of children referred to outpatient asthma care can be improved by incorporating a previously validated tool [the Pediatric Asthma Control and Communication Instrument for the Emergency Department (PACCI- ED)] into ED clinical care.