View clinical trials related to Hypothermia.
Filter by:Early hematoma growth (HG) after spontaneous intra-cerebral/intra-parenchymal hemorrhage (IPH) is common and associated with neurological deterioration and poor clinical outcome. Temperature modulation to hypothermia (Temperature, 32-34°C) has been associated with reduction or improvement of physiopathologic processes associated with inflammatory activation and degradation of blood-brain barrier after all types of brain injury. In this sense, we believe that the initiation of an ultra-early protocol of active temperature modulation or Targeted Temperature Management (TTM) to mild induced hypothermia (MIH, 32-34°C) may be associated with good safety and tolerability profile, less HG and cerebral edema after IPH by modulation of systemic and local inflammatory responses, so we hypothesize that TTM to MIH will be a safe/tolerable and effective therapy to limit HG and cerebral edema after IPH.
This research is being done to find out the safety of the investigational study drug, Clonidine Hydrochloride ( CLON). , in infants who are undergoing whole body cooling for the treatment of hypoxic ischemic encephalopathy (HIE). The only known and effective treatment for HIE is therapeutic hypothermia or whole body cooling for72 hours. During the cooling process, babies get agitated, shiver and are uncomfortable. To treat these side effects morphine is frequently used. CLON is very effective in decreasing shivering in adults and children. Furthermore, in some preclinical studies, clonidine has been shown to be neuroprotective (safe for the brain in models of brain injury)..This is a Phase I-II to determine if low dose CLON will reduce the incidence of shivering and whether it has short term cardiovascular safety. In this Phase I-II study, the investigators will determine the (i) the maximum tolerated dose of CLON during cooling for HIE, (ii) the effects of CLON on heart rate, blood pressure, core body temperature and cerebral autoregulation (ability to maintain constant blood flow to the brain) and (iii) association between blood levels and changes in the above parameters. In this study the investigators hope to find ways to improve sedation, shivering and agitation in newborn infants with HIE on the cooling protocol. Our ultimate goal is determine the potential neuro-protective properties of clonidine in newborn babies with HIE.
36 patients American society of anesthesiology (ASA) physical status I,II and III undergoing general anesthesia for elective transurethral resection of the prostate (TUR-P) surgery will be included in the study. Patients will be randomized into two groups; first group(control group) and second group (forced-air warming). Resistive heating will start when patients are transferred to the operating room table; forced-air warming will start before preoperative 30 minute.
A multicenter, single-arm, prospective, interventional trial to evaluate therapeutic hypothermia with intravascular temperature management (IVTM) in post-cardiogenic cardiac arrest, post-return of spontaneous circulation (ROSC) patients in Japan. The objective of this study is to verify that therapeutic hypothermia performed by intravascular cooling using the investigational device (IVTM) can control body temperature appropriately in post-cardiogenic cardiac arrest, post-ROSC patients.
The study will compare the rewarming effectiveness of heat donation through the distal arms and legs during rewarming of mildly hypothermic subjects. Warming will be accomplished through either warm water immersion; and fluidotherapy. The investigators hypothesize that fluidotherapy will be as, or more, effective compared to warm water immersion
The ability to maintain normal body core temperature (Tcore = 98.6°F) is impaired in persons with tetraplegia. Despite the known challenges to the ability of persons with spinal cord injury (SCI) to maintain Tcore, and the effects of hypothermia to impair mental function in able-bodied (AB) persons, there has been no work to date addressing these issues in persons with tetraplegia. The aim of this study is to determine if exposure of up to 2 hrs to cool temperatures (64°F) causes body core temperature to decrease in persons with tetraplegia and if that decrease is related to a decrease in mental performance. After sitting in a cool (64°F) room for up to 2 hours the investigators hypotheses are: Hypotheses (1): Tcore of most of the persons with tetraplegia will decline approximately 1.8°F (e.g., 98.6 to 96.8°F) while Tcore of controls will not decline at all; (2) Most of the persons with tetraplegia will show a decline in mental performance (memory or clear-headedness) while only some of AB controls will show a decline. The second aim of this study is to determine if a 10 mg dose of an approved blood pressure raising medicine (midodrine hydrochloride) will (1) reduce the decrease in body core temperature and (2) prevent or delay the decline in mental performance in the group with tetraplegia compared to the exact same procedures performed on the day with no medicine (Visit 1) in the same group. Hypotheses (3 & 4): The changes in blood flow to the skin caused by taking a one-time dose of midodrine will lessen the decline in Tcore and prevent or delay the decline in mental performance compared to the changes in Tcore and mental performance during cool temperature exposure without midodrine in the group with tetraplegia.
The study should evaluate how long patients undergoing major abdominal surgery under combined general/epidural anaesthesia have to be actively warmed preoperatively to prevent perioperative hypothermia and postoperative shivering. 99 patients will receive forced-air skin-surface warming for different duration. Body temperature will be measured at the tympanic membrane. The investigators hypothesize that active warming before starting the epidural anaesthesia will decrease the incidence of perioperative hypothermia.
Background: Acute pancreatitis is characterized by a high mortality rate (10%-15%), and a remarkably unpredictable clinical course. Approximately 50% of deaths in acute pancreatitis occur early—within the first 14 days—and early mortality is attributable to sequelae of a severe systemic inflammatory response syndrome (SIRS), which is associated with multi-organ dysfunction syndrome (MODS) that can escalate to renal failure, respiratory failure, and death. Significant improvements in acute pancreatitis mortality will demand innovative approaches to counteract early organ failure. A series of destructive cellular processes begins within minutes of initial pancreatic injury, and the ensuing inflammatory cascade is compounded by disease sequelae including edema, ischemia, and tissue necrosis. Early interventions to reduce inflammation within the first 36 hours have been shown to have significant effects in minimizing progressive organ dysfunction. Hypothermia is clinically employed to combat cellular injury and systemic responses following ischemia-reperfusion, and is been studied as a mechanism of acute inflammatory inhibition in processes including cardiogenic shock, lung injury, local intestinal injury, and reperfusion injuries to the lung, liver, and endothelium. In numerous studies, effective immunomodulations have been observed including reduction of pro-inflammatory cytokines (TNF-α, IL-6), stimulation of anti-inflammatory cytokines (IL-10), inhibition of pro-apoptotic JNK signaling, reduction of systemic oxidative stress, and inhibition of neutrophils, monocytes, and monocyte-derived macrophages. Most saliently, in the caerulein model of murine acute pancreatitis, therapeutic hypothermia has been shown to reduce serum IL-1, IL-6, and TNF-α, increased serum IL-10, decrease serum amylase and lipase, lower the histological grade of pancreatic injury as compared to normothermic mice, and significant survival benefit. Although therapeutic hypothermia is actively employed in the treatment of traumatic brain injury, neonatal asphyxia, spinal cord injury, and cardiac arrest, no studies have yet been made of its application to acute pancreatitis. Hypothesis: Patients treated with therapeutic hypothermia (32-34°C) will sustain reduced organ-specific injury in acute pancreatitis. Proposal: In a Phase IIa pilot clinical trial, we will examine the effects of therapeutic hypothermia on organ-specific outcomes during the early stage of acute pancreatitis. We will recruit five patients aged 18 to 80 receiving medically-necessitated ventilator support under ICU monitoring with core temperatures ≥36°C and severe acute pancreatitis defined as either a Ranson Score ≥7, a CT indicating ≥50% pancreatic necrosis, or a significant deterioration in clinical status including dysfunction of two or more organ systems (defined by ACCP/SCCM Organ Failure Guidelines, Chest 2009). All patients will receive current standard management for severe acute pancreatitis and a standardized protocol for application of therapeutic hypothermia and rewarming. Our primary endpoints are organ-specific cardiovascular, respiratory, hematological, renal, and metabolic dysfunction as measured at 28 days. Logistic Organ Dysfunction Scores (LOD) will be compared before and after therapeutic hypothermia, establishing day 4 versus day 1 changes in LOD. Secondary endpoints include D-dimer, IL-6, C-reactive protein, APACHE II scores on day 1 and day 4, inpatient and ICU length-of-stay, infection, mortality, and hypothermia-associated side effects including cardiac arrhythmia, electrolyte imbalance, hyperglycemia, major bleeding, and acute pancreatitis. We believe that such a study will supply preliminary answers to our chief research questions: does therapeutic hypothermia reduce morbidity as assessed by organ-specific outcomes, does therapeutic hypothermia attenuate the steep rise in inflammation observed in severe acute pancreatitis, and does therapeutic hypothermia shorten the clinical course for these patients.
This study should evaluate whether newborns during cesarean section are endangered to get hypothermic while bonding on the mothers chest. Therefore, the investigators want to investigate the effects of active cutaneous warming of the mothers and babies during intraoperative bonding. The investigators plan to enroll 40 parturients scheduled for elective caesarean section to receive passive insulation or forced-air skin surface warming. The investigators will measure core temperature of the newborns and their mothers. The investigators hypothesize that newborns became most often hypothermic without active warming during the bonding procedure and that active warming will be able to decrease the number of hypothermic newborns significantly.
Accurate measurement of core body temperature at the scene of an accident is critical for both diagnosis and treatment/triage decisions for hypothermic patients. Measurement in the lower third of the oesophagus is considered the gold standard of CT reading, but invasive and hardly applicable with a conscious patient. Tympanic membrane sensors for CT reading have been widely tested by may be unreliable in extreme environmental temperatures. Similarly, the Double Sensor device is a non-invasive device and is promising for prehospital use but has not been sufficiently verified under very cold and hot environmental conditions. Furthermore, comparisons of different non-invasive methods with oesophageal measurement in extreme conditions are lacking. The objective of these studies is to compare different techniques of core body temperature measurement with exposure to cold and hot environments.