View clinical trials related to Hypothermia.
Filter by: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.
The mortality effect of kangaroo mother care in stable newborns <2000g is well established but mortality effect in unstable newborns is not conclusively known. This pragmatic clinical trial aims to investigate the mortality and clinical effects of early continuous Kangaroo Mother Care (KMC) compared to standard care in mild-moderately unstable neonates <2000g in a resource limited hospital setting.
Acute kidney injury (AKI), or worsening kidney function, is a common complication after liver transplantation (20-90% in published studies). Patients who experience AKI after liver transplantation have higher mortality, increased graft loss, longer hospital and intensive care unit stays, and more progression to chronic kidney disease compared with those who do not. In this study, half of the participants will have their body temperature cooled to slightly lower than normal (mild hypothermia) for a portion of the liver transplant operation, while the other half will have their body temperature maintained at normal. The study will evaluate if mild hypothermia protects from AKI during liver transplantation.
External warming is routinely used in general surgery to offset the deleterious effects of hypothermia. It entails deployment of a disposable, external heating blanket attached to a regulated hot-air pump. The need for external warming in the morbidly obese population undergoing short laparoscopic procedures is unclear. If proven to be unnecessary, time and momentary costs could be lowered. The study will compare core-temperature dynamics during laparoscopic bariatric procedures anticipated to last <2h. The study group will be left without a warming blanket while the control group will receive routine external warming. Post-anesthesia care unit (PACU) arrival temperature will also be recorded.
The primary aim of the current study will be to determine if the use of an underbody heating mattress during cesarean sections will decrease the incidence of postoperative hypothermia, defined as core temperature less than 36C, and if hypothermia occurs, time to normothermia. As part of the primary outcome the difference in the incidence of shivering, its severity, and need for treatment will be investigated. As a secondary goal other maternal perioperative outcomes will be studied i.e. estimated blood loss, change in hemoglobin level on the morning after surgery ie postop day 1, need for blood transfusion, rate of wound infections, length of hospital stay, maternal satisfaction, time to first breastfeeding, time to first 'skin to skin' contact. The relationship between maternal hypothermia and newborn outcomes of temperature and APGAR scores will also be evaluated. Active preoperative and intraoperative warming may prevents inadvertent perioperative hypothermia and may be beneficial for pregnant patients undergoing cesarean delivery. The underbody warming mattress may be a step towards finding a suitable form of warming that is comfortable for awake patients, does not interfere with skin to skin contact and maternal-fetal bonding.
Mild Therapeutic Hypothermia for Patients with Acute Coronary Syndrome and Cardiac Arrest Treated with Percutaneous Coronary Intervention (UNICORN) study is designed to determine whether mild therapeutic hypothermia (MTH) applied in patients with acute coronary syndromes (ACS) and cardiac arrest treated with percutaneous coronary intervention (PCI) is associated with better clinical outcomes as compared with therapy without MTH.
This study is a pilot, multi-centered, randomized, clinical trial to evaluate the safety and efficacy of performing early Coronary Angiography (CAG) versus no early CAG in post-cardiac arrest patients without ST segment elevation. Safety will be assessed by evaluating the association of major adverse events (re-arrest, bleeding, pulmonary edema, hypotension, acute renal insufficiency, and pneumonia) with early coronary angiogram. Efficacy will be assessed by a composite endpoint of improved left ventricular regional and global function (both regional wall motion analysis and left ventricular ejection fraction) as measured by echocardiography prior to hospital discharge and favourable neurological function (Cerebral Performance Categories 1 or 2) at discharge.
This is a descriptive, nonrandomized, noninvasive, single-group, single-center pilot study of a Core Cooling System (CCS) device for reducing core body temperature in ICU patients at University Medical Center Brackenridge (UMCB) and Seton Medical Center Austin (SMCA). The proposed research on human subjects will provide data that will be used to improve a specialized human heat transfer technique/device. By stimulating specialized blood vessels (arteriovenous anastomoses) AVAs in the palm of the hand, it is possible to greatly increase local blood flow and thus greatly increase the potential for effective heat transfer between the environment and body. The hypothesis of this trial is that the Core Cooling System (CCS) will prove to be a practical, safe, and effective method to raise or lower body temperature in critically ill patients.
This study will look at the safety of treating patients with heart attack with mild hypothermia induced using a system of automated peritoneal lavage. The hypothesis is that the Velomedix Automated Peritoneal Lavage System can treat patients with heart attack safely and with adequate performance.
The purpose of this study is to determine if placement of a forced-air warming device prior to institution of regional anesthesia improves perioperative temperature control in patients undergoing total hip arthroplasty.