View clinical trials related to Hypothermia.
Filter by:A team of researchers at Rice University and Queen Elizabeth Central Hospital (QECH) are working to develop a low-cost temperature sensor that can continuously monitor an infant's temperature (NTM). This robust, low-cost device will allow for the individualized monitoring of each infant with alerts for hypo and hyperthermia. A reusable band placed around the infant's abdomen to hold the temperature sensor will eliminate disposable components. This study will assess the accuracy of this novel device against a gold standard (Philips Intellivue patient monitor) and up to two existing devices (Bempu and Thermospot).
Hypothermia in preterm infants during the immediate postnatal phase is associated with morbidity and mortality and remains an unresolved, worldwide challenge. A list of interventions, including adequate room temperature, use of infant warmers, polyethylene bags/wrap, pre-heated mattresses, caps and heated and humidified gases, to prevent thermal loss at birth in very preterm infants has been recommended, but a certain percentage of very preterm infants are hypothermic at the time of the neonatal intensive care unit (NICU) admission suggesting that further measures are needed. The thermal servo-controlled systems are routinely used in the NICU to accurately manage the patients' temperature, but their role during the immediate postnatal phase has not been previously assessed. We hypothesized that using a thermal servo-control system at delivery could prevent heat loss during this delicate phase and increase the percentage of very low birth weight infants (VLBWI) in the normal thermal range (temperature 36.5-37.5°C) at NICU admission. The aim of this study will be to compare two modes of thermal management (with and without the use of a thermal servo-controlled system) for preventing heat loss at birth in VLBWI infants.
This research is being done to try to improve the experience of mothers and babies during therapeutic hypothermia. Currently, mothers are not able to hold their baby during hypothermia treatment. Mothers have reported that not being able to hold their baby during this time is stressful. Additionally, it is known that holding has many benefits for mothers' and babies' psychological and physical health. Therapeutic hypothermia is the standard of care. The experimental interventions of this study are to have mothers hold their babies during this treatment, collect saliva samples from mothers and babies, and test the saliva samples for the hormones cortisol and oxytocin. The investigators will test saliva of infants and their mothers before and after holding. The investigators hope to demonstrate decreased cortisol, a marker for stress, and increased oxytocin, a marker for bonding, in infants and mothers while they are held during therapeutic hypothermia.
The aim of this study is to assess the effectiveness of EnsoETM as a supplemental warming device compared to the standard of care warming practice in patients having major surgery.
This study aims to determine the incidence of hypothermia in the local paediatric population in the peri-operative period, identify the risk factors involved, and thereafter develop and implement clinical practice guidelines to reduce IPH such that temperature monitoring and heat conservation measures can be implemented in a cost-effective way. The secondary objectives are to determine the adverse outcomes of hypothermia and warming measures
There are 3 levels of severity of anoxo-ischemic encephalopathy (EAI): mild, moderate and severe. Therapeutic hypothermia is beneficial in children with moderate EAI. It is ineffective in severe EAI and may be deleterious if there is no EAI. He continues to question his interest in light EAIs. There are few studies on the becoming of children with a mild anoxic-ischemic encephalopathy and not set hypothermia. The main hypothesis of the study is that term newborns with anoxo-ischemic encephalopathy who did not require therapeutic hypothermia have normal psychomotor development at 2 years.
The on-going randomized clinical trial TTM2 (Target Hypothermia Versus Targeted Normothermia After Out-of-hospital Cardiac Arrest, NCT02908308) investigates if there is a difference in mortality, neurological function or quality of life in comatose survivors after out-of-hospital cardiac arrest if treated (Group A) at target temperature of 33 oC or (Group B) by avoiding fever during the first 24 h. In this sub study, the effect of different target temperatures on cardiac and circulatory physiology is evaluated by echocardiography and pulmonary artery catheter. Tissue damage after cardiac arrest in part is caused by an activation of different parts of the inflammatory system (reperfusion injury). This study investigates the effect of temperature management on inflammation and the link to the circulatory effects.
Resuscitated cardiac arrest (CA) is a frequent cause of admission in intensive care unit (ICU). Neurological state of postanoxic comatose patients can evolve either towards the absence of awakening or towards a more or less altered state of consciousness, ranging from the vegetative state to the full recovery of cognitive functions. Most of the deaths result from active withdrawal of life-sustaining treatment, based on poor neurological outcome prediction. Neurological prognostication needs therefore a multimodal approach based on reliable parameters, which should be easy to access and available at the early stage of care, in attempt to limit false poor outcome prognostication and help to not prolong futile active care in patient with severe post anoxic cerebral lesions. Nowadays the prediction of neurological outcome relies on a multimodal strategy including clinical examination, biomarkers and electroencephalography (Guidelines ESICM 2015). Early standard electroencephalography (EEG) is currently recommended and some features, notably absence of reactivity, status epilepticus or burst suppression after rewarming are strongly predictive of poor outcome. But those features require a precise analyze of the EEG usually performed by specialist. EEG patterns can be simplified and classified in five grades according to the Synek classification, ranging from dominant reactive alpha activity (grade 1) to isoelectric encephalogram (grade 5). Grade 1 and two are considering as good prognostic, grade 3 as intermediate and grade 4 to five as poor prognostic. Nevertheless, few data are available on the performance of this classification since generalization of TTM use. We hypothesize that a multimodal strategy combining clinical examination, NSE concentration and the Synek score would bring a high degree of prediction. We aimed to assess the performances of the combination of clinical examination, NSE analysed at 48-72h and the Synek score to predict hard outcome defined by a cerebral performance category (CPC) 3-5, in postanoxic comatose patients treated with induced hypothermia
To study the core temperature perioperatively in patients due for elective cesarean sectio in spinal anaesthesia. Core temperature will be registered by a zero-flux (SpotOn. 3m) probe on the forehead, starting in the holding area and continued until normotemperature post-operatively.
This pilot intervention trial will assess the feasibility of a live consultation between community hospital providers and tertiary care providers employing a novel teleconsult platform, Maine Neonatal Encephalopathy Teleconsult (Maine NET), on the time to initiation of therapeutic hypothermia (TH) for 35 infants born in community hospitals in Maine compared with matched historical controls. Community hospital providers and tertiary care center provider satisfaction with the Maine NET platform will also be assessed. The hypothesis is that immediately available expert assessment via a teleconsult platform will promote earlier implementation of TH and be associated with high levels of provider satisfaction.