Active clinical trials for "Hypothermia"

Moderate hypothermia has been demonstrated to be the effective treatment for neonates with hypoxic-ischemic encephalopathy (HIE). However, few studies reveal the actual alterations in physiological parameters (i.e. brain temperature and cerebral blood flow) of neonates undergoing cooling, especially for HIE lesions. Therefore, this project aims to utilize the magnetic resonance imaging (MRI), i.e. MR thermal imaging and phase contrast MRI to measure the changes of these parameters before and during hypothermia; and then make comparisons with the routine nasopharyngeal and rectal temperature. All these would provide in vivo quantitative data for therapeutic evaluation and promote the optimization.

In light of the widespread organ shortage, dynamic preservation by means of Machine Perfusion (MP) has been proposed as a strategy to increase the pool of suitable grafts for liver transplantation. Reproducing more physiological conditions than traditional Static Cold Storage (SCS), MP may allow a better preservation and evaluation and perhaps even the resuscitation of high risk grafts. As a consequence, unnecessary discard of organs could be avoided and quality and safety of transplantation could be improved as well. Hypothermic MP (HMP) seems to reduce ischemia-reperfusion injury. In fact, hypothermia slows down the metabolic rate and the oxygenation of the perfusate leads to re-synthesis of Adenosine TriPhosphate (ATP), which results in the restoration of cellular energy. Four series about the use of HMP in the clinical setting has been published so far. They all report acceptable outcomes after transplantation of human liver grafts from extended criteria Brain Dead Donors (BDD) and from Donation after Circulatory Death (DCD) donors preserved by HMP, thus proving its feasibility and safety. The efficacy of HMP, instead, is still under investigation in a phase II randomized trial. This is an observational, prospective, monocentric study aiming at verifying the feasibility and safety of post-SCS Hypothermic Oxygenated PErfusion (HOPE) in the setting of our liver transplant program. Extended criteria grafts from BDD and grafts from DCD donors will be preserved by post-SCS HOPE prior to transplantation. The recipients of these grafts will be followed-up for at least 1 year.

Primary objective of the study is to project the incidence rate of perioperative hypothermia under general anesthesia in patients who go under minimum 1 hour long elective surgery in at least 25 hospitals/medical centers in Turkey . Secondary objectives are to determine the patient risk factors associated with perioperative hypothermia, to determine the surgery risk factors associated with perioperative hypothermia, to determine the other risk factors associated with perioperative hypothermia, intraoperative infusion volume and effect of warming, intraoperative irrigation volume and effect of warming, intraoperative blood infusion volume and effect of warming, to determine complications related to perioperative hypothermia, to improve patient temperature management awareness and processes.

The purpose of the study is to assess the temperature changes that take place throughout the body in a real world setting, when a patient is given general anaesthesia. Specifically we will investigate the movement of body heat from the core to the peripheries at the beginning of surgery. This will be measures with a series of temperature sensors and infrared thermography

The investigators goal is to improve the outcome of patients with acute stroke by inducing mild cerebral hypothermia through surface cooling at the cervical and shoulder regions using EMCOOLS Brain.Pads®. For this project, the investigators can build further on their research group's experience with hypothermia in animal models and invasive cooling in stroke patients. The COOL program will prospectively evaluate safety, feasibility, patient acceptance and efficacy of mild cerebral hypothermia using EMCOOLS Brain.Pads® in a large cohort of patients presenting with acute stroke at the Emergency Department of the Universitair Ziekenhuis Brussel. The application of EMCOOLS Brain.Pads® will be compared to routine clinical practice in a randomized controlled trial. If proven to be safe, feasible, well-tolerated and efficacious in the inhospital setting, future use in prehospital acute stroke care will be incorporated with telemedicine support, as part of the Prehospital Stroke Study at the Universitair ziekenhuis Brussel (PreSSUB).

Survivors of a cardiac arrest frequently develop severe postanoxic encephalopathy. Derangements in cerebral blood after return of spontaneous circulation play an important role in the pathogenesis of postanoxic encephalopathy. In the present study we examine the effect of mild therapeutic hypothermia on cerebral blood flow and carbondioxide reactivity in patients after cardiac arrest.

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).

In this randomized prospective single-blind study,American Society of Anesthesiologists physical status classification system ( ASA )I-II-III patients aged 50-80 years undergoing transurethral bladder resection will be randomly divided into two groups. First group will be covered with 41 centigrade degrees double layered cotton cloth. Second group will receive active prewarming. Core temperature of all patients will be monitorized via tympanic membrane. Skin temperature will be monitorized from 4 different body areas. Spinal anesthesia will be applied at the level of L3-L4 by a 25 Gauge quincke needle with a dose of 12.5-15 mg hyperbaric bupivacaine. Pinprick test will be used for sensorial block assessment. T10 sensorial block will be our goal. Hemodynamic parameters will be recorded. Skin temperature will be monitorized before and after spinal anesthesia and changes will be recorded. Operation time, amount and temperature of irrigation fluids, transfusion requirement, discharge time from postoperative care unit will also be recorded. Shivering score and thermal comfort scale will be used. The two groups will be compared for the temperature changes.

Many neonates and infants who undergo complex cardiac surgery are affected by neurological developmental delays. Whilst catastrophic events are immediately identifiable from clinical examination or by macro changes on MRI or CT scans, smaller changes are often not immediately visible or detected. This is an observational pilot study examining brain vascular reaction to hypothermic circulatory arrest with antegrade cerebral perfusion and neuro-protection techniques during aortic arch surgery in neonates and infants. A combination of duplex ultrasound and transcranial doppler will be used to record in-depth information on the cerebrovascular changes that occur during the entire length of the surgical procedure and during the early postoperative period. The proposed techniques and equipment are non-invasive and are in use clinically to evaluate brain perfusion in a similar age group. During aortic arch surgery, the patient's body and brain temperature is reduced to values between 18 and 24 degrees centigrade in order to decrease metabolic demand that provides a form of metabolic protection. However, there is no consensus within the clinical community regarding the optimal temperature at which to perform surgery. Moreover, in order to improve cerebral perfusion, the brain is perfused via the right internal carotid artery with cold blood. At Alder Hey Children Hospital, this surgery is undertaken by the three surgeons but, due to clinical preference, differs in relation to the temperature at which surgery is undertaken. This provides the opportunity to observe the impact of different temperatures on cerebral vascular reactivity in neonates and young infants The arguments for future comparisons and a larger randomised study will be made based on the information gained from this observational study.

The primary objective is to evaluate neonatal characteristics, and biological and clinical investigations as predictive factors of death, or of severe and moderate neurodevelopmental disability at 3 years, in a large population-based cohort of full-term and late preterm neonates with moderate or severe HIE. Contrary to most previous studies which have often analyzed the accuracy of one factor among all other clinical investigations, the investigators objective's is to seek a relevant combination of several factors among the following list: Neonatal characteristics: gestational age and birthweight, maternal disease, acute intrapartum event, delivery mode, acidosis, neurological examination, place of birth and neonatal transfer Laboratory investigations: pH, lactates and new biological markers as detailed below Clinical investigations: aEEG, EEG, MRI, diffusion-weighted MRI