View clinical trials related to Hypothermia.
Filter by:Comparing the production of interleukin 6 (inflammatory cytokine) in two heating speed (slow rewarming rate: 0.25 ° C / h or fast rewarming rate 0.50 ° C / h) at the completion of a period of targeted temperature at 33°C after cardiac arrest supported by shockable rhythm and successfully resuscitated.
The goal of this proposal is to profile the pharmacokinetics of dexmedetomidine in newborns ≥36 weeks post-menstrual age during therapeutic hypothermia for hypoxic-ischemic encephalopathy.
This study examined whether 20 minutes of prewarming prior to gynecological laparoscopic surgery prevented inadvertent post-operative hypothermia. Treatment group received prewarming using a forced air body warming, control group received no active warming system. Both groups were then warmed with forced air warmer intraoperatively.
New 2010 neonatal resuscitation guidelines state that offering therapeutic hypothermia (TH) should be a standard of care in managing neonates with perinatal hypoxic - ischemic insult and present with signs of moderate and/or severe hypoxic - ischemic encephalopathy (HIE) . Despite the evidence from several randomized control trial (RCT) proving its effectiveness, its effect is perceived insufficient or only modest. Thus today's research efforts are directed toward finding the new possibilities of enhancing the effects of hypothermia. List of agents with potential neuroprotective properties includes: erythropoetin, melatonin, topiramate, morphine, xenon, MgSO4. Given investigators previous experiences with preterm neonates exposed to MgSO4 prenatally or administered this drug after birth because of perinatal asphyxia, the investigators designed the trial which would evaluate the possibility of increasing the TH effect by combining this method with MgSO4. Until now there are several published studies evaluating the effectiveness of MgSO4 in the group of asphyxiated neonates, including one RCT. However, all of these studies were conducted before the era of TH Furthermore, irrespective of the potential benefits, safety of using MgSO4 during TH in the group of term neonates was not studied. It is particularly important in the light of the results presented by Mittendorf et.al. They studied the effects of prenatal aggressive treatment with MgSO4 on the outcome of preterm neonates showed that patients exposed to high doses of MgSO4 were at higher risk of severe intracranial bleeding. Other side effects of high serum magnesium levels are: vasodilatation, hypotension, cardiac arrhythmias, coagulopathy, and gastrointestinal disturbances. MgSO4 is a very attractive neuroprotective option,also because of its easy availability. Drug can be administered in the birth hospital while neonate is being prepared for the transport to TH center. Timing of the intervention is very important for neonates suffering from perinatal asphyxia. Both TH and administration of potentially neuroprotective drug should be started during "therapeutic window". It is the initial potentially reversible phase of hypoxic insult lasting about 6 hours. If the long-term follow up shows that MgSO4 has an additive neuroprotective effect and no significant side effects in the group of asphyxiated neonates treated with TH this relatively simple and not expensive intervention may be introduced into clinical practice
The ability to maintain normal body temperature (Tcore) is impaired in persons with tetraplegia: subnormal Tcore and vulnerability to hypothermia (<95 F) have been documented in this population after exposure to even mild environmental temperatures. However, no work to date has addressed the effect of subnormal Tcore on cognitive performance in persons with tetraplegia despite studies with able-bodied (AB) individuals that have documented progressive decline in various aspects of cognitive performance associated with the magnitude of the depression in Tcore. The investigators' study will confirm and extend their initial observations in persons with higher cord lesions who have subnormal Tcore to show that cognitive performance will be improved by raising Tcore to euthermic levels. This improvement should be associated with greater function and independence, reintegration into society, and an improved quality of life. Specific Aims: During exposure to 95 F for up to 120 minutes in the seated position, the investigators' aims are: Primary Specific Aim: To determine if a modest rise in Tcore to euthermic levels has a positive effect on cognitive performance (attention, working memory, processing speed, and executive function) in persons with higher-level spinal cord injury (SCI). Primary Hypothesis: Based on the investigators' pilot data: (1) 80% of persons with SCI will demonstrate an increase of 1 F in Tcore, while none of the AB controls will demonstrate such an increase; (2) 80% of persons with SCI will have an improvement of at least one T-score in Stroop Interference scores (a validated measure of executive function), while none of the AB controls will demonstrate a change in cognitive performance. Secondary Specific Aim: To determine changes in: (1) The average of distal skin temperatures; (2) Sweat rate; and (3) Subjective rating of thermal sensitivity. Secondary Hypothesis: Persons with SCI will have less of a percent change in average distal skin temperatures and sweat rate, and will report blunted ratings of thermal sensitivity compared to that of AB controls.
Comparison of forced air and conductive warming devices in outpatient orthopaedic surgeries.
Neonatal hypothermia is associated with increased risk of mortality as well as multiple morbidities. The investigators objective is to determine if an increase in ambient operative room temperature decreases the rate of hypothermia. Operating room temperature will be randomized to the current institutional standard (67°F) or a temperature of 73°F on a weekly basis for a period of six months.
The investigators aim to assess the impact of benchmarked and ranked feedback on anesthesiologists' perioperative temperature management and subsequent patient outcomes.
3500 people suffer from out of hospital cardiac arrest each year in Denmark. Therapeutic hypothermia to 33 degrees celsius is now standard treatment of comatose cardiac arrest patients. The investigators are challenged in our attempt to predict outcome of these patients by both low body temperature in itself and the sedative and relaxing drugs used to keep the patient in a coma. This study is a substudy in a large international multicenter randomized trial that investigates the possible benefit of 48 hours of therapeutic hypothermia versus todays standard of 24 hours. In this substudy the investigators will approach early prediction of neurological outcome using a combination of new examinations backed up by well established ones to engage this challenge from different angles and find a battery of combined examinations, that together will enable us to accurately predict outcome at an earlier stage. Our examinations have been chosen from the three fields of neurophysiology, biochemistry and neurology and consist of electroencephalography (EEG), somatosensory evoked potentials (SEP), biomarkers and clinical examinations such as brain stem reflexes chosen for their prognostic reliability.
The purpose of this study is to investigate whether mechanoreceptor sensitivity of the sole of the feet increases with increased foot temperature and how a heightened sensation may improve characteristics of balance control and gait. As an extension, the investigators also want to determine whether lower limb movement is an efficient activity of increasing foot temperature. There are several objectives of this study. The investigators want to determine the effect of active recovery (via lower limb movements) on increasing plantar temperature, determine the effect of increased plantar temperature on plantar sensation and determine the effect of increased plantar sensation on balance control and gait characteristics. Participants will be asked to complete various tasks under different conditions. Conditions include decreased feet temperature via ice bath emersion, baseline feet temperature (participant's normal temperature after a ten minute equilibration period), and increased feet temperature via active movement of the lower limb. Tasks include walking across the room, performing active movement of the lower limb and a 10 minute treadmill walk. Gait movement will be collected with a three-dimensional motion capture system (Optotrak) and force plates. Feet temperature and sensation information will be collected with a temperature probe (infrared) and monofilaments.