Active clinical trials for "Body Temperature Changes"

The aim of the study conducted at the UKSH is to investigate the measuring accuracy of the body core temperature thermometer Tcore®. Therefore the bias of the measurements to the reference measurements of the bladder catheter thermometer is determined.

The purpose of this preliminary experiment is to measure the effect of a novel ventilation system on the physiological strain during exercise in high heat load while wearing ballistic protective vest. Ten young and healthy participants will participate in the study. They will all go through a six days heat acclimation period in a heat chamber according to a valid protocol. Afterwards they will be randomly exposed to 4 conditions during four separate consecutive days.

Background: To maintain the body temperature of preterm newborns is one of the essential criteria for discharge from hospital. Aim: we aimed to assess the feasibility and the safety of an early weaning protocol from incubator to unheated cot at 1400 g preterm newborns. Methods: This was a randomized control trial with preterm neonates with birth weights < 1400 g conducted at King Fahad Medical City, Riyadh, Saudi Arabia. We compared newborns weaned to cot at a weight of 1400 g to newborns weaned at a weight of 1600 g. The outcome was to assess the feasibility of the protocol in terms of temperature control and average weight gain. Results: A total of 23 preterm neonates were recruited in this study. The baseline characteristics were similar except for the gestational age was higher in the newborns enrolled to 1400 g group. Early weaning was achieved in 100% of newborns without significant adverse effects on temperature stability or weight gain. Incidence of low and high temperatures per newborn and the average weight gain before and after transfer and after transfer were not different between the two groups. Conclusion: Our results showed the feasibility and safety of 1400 g weaning protocol for preterm newborns, without any adverse effects or increasing the neonatal length of hospital stay. Further investigations in larger patient groups are recommended.

The purpose of this study is to compare three radiant warmer beds that contain different computer heating software and different bed styles. Radiant warmers are used in many neonatal intensive care units (NICU) to provide heat to infants to help regulate an infant's temperature. It is common for babies to require care on an open bed that provides heat to the baby according to the baby's needs and at the same time allows easy access to the baby for care and necessary procedures. There are different styles of beds, each with unique computer software that can guide how a bed's heater output is automatically adjusted according to a baby's temperature needs. It is unknown which style of bed or method of heating might be best. This study seeks to evaluate infant responses to three different types of radiant warmer beds.

Propofol injection pain will be surfed by up to 70-80 percentage by the Patients who induced by propofol. Temperature of Operating room was set to a certain range in normal clinical practice, which is 22- 26 centigrade. Warm feeling will make skin vassal dilated and more blood will pass through to bring more heat out of our body. It had been reported that a bigger venous vessels will get less propofol injection pain. The investigators hypothesis that Patients who stayed in a warmer room temperature will surf less injection pain while compare to a normal setting room temperature.

The body core temperature drops during general anesthesia. To maintain homeostasis, patients require warming measures. Different methods to measure body core temperature exist, which are either highly accurate but invasive, or non-invasive but non-accurate. A new monitoring device, Tcore(TM), enables a non-invasive but accurate core temperature assessment. This study is performed to quantify accuracy and bias of the Tcore system in comparison with the blood temperature, which is the gold standard of core temperature measurement.

Compare core body temperature after laparoscopic surgery using the forced air heating system versus the WARMTAC® (a carbon fiber electric blanket).

The aim of the study was to investigate whether a color changing nail polish would be an indicator to assess infraclavicular brachial plexus block success based on skin temperature differences before and after performed the block.

During general anesthesia, temperature monitoring is critical especially in pediatrics. Recently developed 3M™ Bair Hugger™ skin temperature which is applied on temporal artery is correlated with core temperature measure by esophageal prove in several studies. Conventional skin temperature over carotid artery is also correlated with core temperature in several studies. The purpose of this study is comparing 2 methods of temperature monitoring in pediatrics. First, conventional core temperature measure by esophageal stethoscope. Second, 3M™ Bair Hugger™ applying on carotid artery.

An increasing number of children undergo Magnetic Resonance Imaging (MRI). In MRI, radio waves and magnetism are used to form images of the body's interior, to diagnose and monitoring diseases in children. Many children are sedated to be able to collaborate with the MRI procedure. Sedation and general anesthesia cause the child to some extent to lose the ability to regulate his or her own bodytemperature. MRI rooms are most often cold due to the function of the magnet, leading to a risk of hypothermia in young children. Conversely, the MRI scanner generates radio frequencies that are absorbed by the body and converted to heat, which especially in small children due to their large surface area can potentially result in an increase in bodytemperature. In this study we therefore want to investigate changes in bodytemperature in children who are undergoing MRI- scanning within the Neuroanesthesiology Clinic. Furthermore, we want to define possible risk factors for possible temperature changes. Our hypothesis: Children undergoing MRI scanning increase in bodytemperature.