View clinical trials related to Hypothermia.
Filter by:The optimal method of prehospital insulation and rewarming of hypothermic patients have been subject of debate, and there is a substantial lack og high-quality evidence to guide providers. One question concerns whether or not the patients clothing should be removed prior to being wrapped in an insulating model with a vapor barrier. Evaporative heat loss is one of four mechanisms of heat loss, and preventing evaporative heat loss should be a prioritized task for providers. Removal of wet clothing usually means subjecting the patient to the environment, but will reduce the evaporative heat loss considerably. An other alternative is to encapsulate the patient in a vapor barrier. Evaporative heat loss will stop when the humidity inside the vapor barrier reaches 100%. We aim to investigate whether it is recommended to removed wet clothing or encase the patient in a vapor barrier.
The incidence of postoperative hypothermia in patients with laparoscopic gastrointestinal tumors is high. Hypothermia increases the risk of postoperative complications and medical costs. Early warning can effectively reduce the incidence of postoperative hypothermia in patients. Multivariate prediction models help identify high-risk patients and reversible factors. At present, there are few reports on the risk factors and prediction models of postoperative hypothermia in patients with laparoscopic gastrointestinal tumors. Therefore, this study aims to clarify the risk factors of postoperative hypothermia in patients with laparoscopic gastrointestinal tumors. Four machine learning algorithms, traditional Logistic regression analysis, decision tree, random forest and naive Bayes, were used to establish risk prediction models. According to the TRIPOD statement, C-index, Hosmer-Lemeshow ( H-L ) test and decision curve analysis ( DCA ) were used to evaluate the prediction and fitting effects of the models in all aspects, and the optimal model was selected and verified. Provide reference for subsequent research.
This study aims to report mortality and neurological outcome 180 days after drowning incident in patients with accidental hypothermia vs normothermia following drowning-related OHCA in Denmark during a six-year period from 2016-2021.
The aim of this study is to examine the effect of the sock to be developed with wearable technology for patients who will undergo TUR surgery on the development of hypothermia and VTE. The population of the study will consist of patients who will undergo TUR surgery between 01 October 2023 and 01 October 2024. patients will be included in the study. The study was planned as a prospective, two-arm (1:1), randomised controlled, double-blind clinical trial. The data will be collected with the "Descriptive Characteristics Form" and "Hypothermia Monitoring Form". The hypothermia follow-up form includes "Shivering Level Diagnosis Form" and "Temperature Comfort Perception Scale" The descriptive variables of the patients included in the study will be expressed as mean ± standard deviation and median (maximum-minimum), percentage and frequency. In data analysis; dependent and independent t test will be used when parametric test preconditions are met. Changes in body temperature measurements obtained after wearing socks to be developed with wearable technology, repeated measurements, analysis of variance (Repeated ANOVA) if parametric, Friedman test if non-parametric, and post-hoc test will be used in intra-group multiple comparison analyses as further analysis. Post hoc power analysis will be performed after the sample size reaches 70.
The prevalence of hypothermia across low-resource settings is high, especially in countries with high neonatal mortality rates. If left untreated, hypothermia can additionally result in a significant comorbidity, and has been linked to a reduction in the effectiveness of treatment for other newborn conditions. Thermal care for hypothermic newborns is not widely available in low-resource settings due to cost, and lack of consumables and spare parts. In this study, the research team will evaluate the efficacy of a novel neonatal warming mattress intreating hypothermic newborns. The warming mattress, 'Celsi Warmer', has been developed by Rice360 Institute for Global Health Technologies, in conjunction with African clinicians, to be a robust, low-cost, and easy-to-use warming mattress which can address the challenges of hypothermia. This is a single-arm, non-randomized, prospective intervention study. Up to90eligible infants at Muhimbili National Hospital (MNH) at Upanga Neonatal Unit will be recruited to evaluate the efficacy of Celsi Warmer in rewarming hypothermic newborns. Infants temperature will be monitored during thermal intervention and the performance of the device will be evaluated. The temperatures of each infant will be compared before, during, and after the intervention.
Hypothermic oxygenated ex-situ machine perfusion (HOPE) is a dynamic preservation method that has been developed to reduce the incidence and severity of ischaemia-reperfusion injury and to improve outcomes after liver transplantation. Whit this study Pi and collaborators hypothesize that the application of ex-situ liver perfusion before LT in HCC recipients leads to an optimization of graft function, with a decrease in ischaemia-reperfusion injury and a possible decrease in tumor cell growth. This is multicentre, prospective, two-arm, randomized, controlled, clinical trial, that will will involve patients with HCC candidate to LT. The liver grafts will be randomized in two groups to compare HOPE and static cold storage (SCS) preservation before transplantation. For each group evaluation of clinical outcomes, graft function tests, histologic findings, perfusate, tumor characteristics, and recurrence will be done.
Acute kidney injury is a significant complication for infants who experience hypoxic ischemic encephalopathy, being associated with increased rates of death and prolonged hospitalization. This pilot study of theophylline administration soon after birth for the prevention of kidney injury will lay the foundation for the conduct of a larger clinical trial that seeks to identify a theophylline as a novel therapy to prevent kidney injury in thousands of at-risk infants.
This is a prospective, single center, pharmacokinetic study of intravenous hydrocortisone therapy for systemic low blood pressure during hypothermia treatment in asphyxiated newborns. Patients will be allocated to hydrocortisone supplementation while receiving conventional inotropic therapy as needed. The hypothesis is that a detailed study of hydrocortisone pharmacokinetics during therapeutic hypothermia would help to personalize steroid supplementation in asphyxiated neonates. As the overall metabolic rate decreases with lower body temperature, drug metabolism is likely to be reduced as well, and lower doses, or less frequent dosing will be sufficient to achieve the targeted steroid range and biological effects in asphyxiated neonates with relative adrenal insufficiency. Thus, the investigators are planning to measure initial, baseline serum cortisol levels and serial serum cortisol levels after hydrocortisone supplementation in cooled asphyxiated neonates.
The purpose of the research is to determine if the Hepatitis B vaccine after birth provides enough protection after cooling for Hypoxic Ischemic Encephalopathy (HIE). To do this, Hepatitis B titers (blood sample) would be taken before, during, and after administering of the Hepatitis B vaccine series to measure efficacy of the vaccine.
Most guidelines recommend the use of a vapor barrier when wrapping and isolating hypothermic patients from the environment, and this is especially important if the patient is wearing wet clothing. The vapor barrier will contain moisture evaporated from the wet clothes of the patient and increase the humidity. Once the humidity levels reach 100%, the evaporation and thereby the evaporative heat loss will stop. The theory is that the addition of a vapor barrier will reduce the amount of heat loss and contribute to more efficient rewarming of wet, hypothermic patients. We aim to investigate how much more efficient a wrapping model with active external rewarming is with the addition of a vapor barrier.