50 Clinical Trials for Various Conditions
The purpose of our study is to understand the impact of different meal timing alterations on blood sugars, metabolism, microbiome and sleep physiology in people with prediabetes and diabetes; and to study the temperature/heart rate response to different meals in different people.
This study is intended to calculate the core body temperature in patients who are having a Cesarean Section (C/S) and are kept warm with an Upper Body Forced Air Warming device (Bair Hugger) or underbody forced air warmer. These warming devices are approved and are a required item in many if not all surgical procedures. They are used daily throughout the hospital. The research question is: Where is the best place to position the warming blanket in pregnant mothers undergoing Cesarean section delivery. The researchers hope to compare post - operative core body temperatures in patients getting an Upper Body forced air device versus those getting an Underbody Body forced air warming device.
The primary objective of this study is to determine if the Infrared Cameras, Inc (ICI) FMX 400 infrared (IR) Class 1 infrared thermal camera (IRT) system is comparable to oral, forehead, and ear thermometers for determining human body temperature.
BHSAI is developing a computational system that provides early alerts of a rise in core body temperature to help reduce the risk of heat injury in the field and during training. The goal of the body temperature alerting system is to use it during rest, exercise in the heat and during body cooling. Using this system during cooling will allow healthcare professionals and military personnel monitor core temperature to ensure cooling is effective (and prevent hypothermia). Therefore, the primary purpose of this investigation is to validate a body temperature alerting system using physiological responses that occur during rest, exercise in the heat and during body cooling. Multiple cooling modalities will be validated. The effectiveness of each cooling modality (passive cooling, mist-fan cooling, hand/forearm immersion) on physiological variables after exercise in the heat will be assessed. Lastly, subject characteristics (demographic and anthropometric characteristics) will be examined to examine their effect on physiological variables during exercise in the heat and during body cooling with each cooling modality.
Whole-body hyperthermia (WBH) to an internal temperature of 38.5 C (101.3 F) using an infrared heating device has been associated with significant reductions in clinical depression. This prior work utilized a WBH medical device that is manufactured in Germany, is not FDA approved, and is not widely available. The goal of this initial pilot project is to ascertain whether an infrared sauna, the Curve Sauna Dome, which is readily accessible (i.e., can be purchased by consumers in the US) can be used to conduct WBH that achieves an internal body temperature of of 101.3 F in healthy volunteers.
Our goal is to evaluate the efficacy of the Westmed system vs the Bair Hugger Blanket.
Thermal comfort and subsequent sleep quality will improve with the use of bedding that incorporates thermoregulation technology, in comparison to standard bedding products.
In this study the investigator will randomize 273 subjects to deep (\<20°C), low (20.1°C-24°C), or moderate (24.1°C-28°C) hypothermia during aortic arch surgery with circulatory arrest. The primary purpose of this study is to determine the effect of deep vs low vs moderate hypothermia on neurocognitive function, brain functional connectivity, and leukocyte SUMOylation patterns after surgical circulatory arrest in participants.
Carbohydrate ingestion, in particular fructose, has been shown in a handful of previous studies to elicit a thermic effect and increase core body temperature after ingestion. Carbohydrate foods and supplements are commonly consumed prior to endurance running competition, including situations where an athlete's ability to dissipate body heat is compromised. Thus, there is some potential for pre-exercise carbohydrate ingestion to have a deleterious effect on body heat regulation in hot and humid environments. Thus, this projects aims to study the effects of pre-exercise carbohydrate ingestion on core body temperature, perceived thermal stress, and perceived exertion during high-intensity running.
This study evaluates the safety and usability of a continuous temperature sensor for women. Data will compare the date of ovulation identified by the continuous temperature sensor to that of transvaginal ultrasound and serum progesterone levels. Subjects will also compare sensor results to once-daily oral temperatures and urine luteinizing hormone (LH) status.
The primary objective of the proposed study is to determine the use of a wireless method to monitor and record core body temperature during a Whole Body Hyperthermia treatment, compared to an indwelling rectal thermometer. This protocol is intended to study the differences between a rectal temperature probe and an approved wireless and indigestible thermometer during a WBH session. The current standard in monitoring core body temperature is the usage of an indwelling rectal thermometer. Many patients and potential study subjects, however, decline receiving the treatment, due to the discomfort of using this measuring method and a wireless measuring device would open the possibility for those patients to receive a treatment. The primary endpoint for example of a treatment for MDD is currently defined with reaching a rectal temperature of 38.5 C. However, due to the proximity of the probe to the body's surface, the core body temperature will vary from the rectal temperature and the comparison between the two methods with a validation of the wireless device is necessary. The investigators will monitor subject's physiological outcome from a single Whole Body Hyperthermia treatment in an open fashion (no placebo/control condition). This study will include safety assessments 7 days several days prior to or same day as the WBH, and include follow-up assessments 1 day and 1 week later.
The deleterious effects of hyperthermia are well appreciated in able-bodied persons. However, the consequences of impaired regulation of normal body temperature on cognitive performance of persons with tetraplegia is not known. This study will provide the preliminary findings necessary for future work to design and explore physical and medical interventions to improve temperature regulation in those with tetraplegia with the goal of improved clinical care, health, and quality of life. The proposed study consists of 1 visit during which 20 subjects (10 with tetraplegia, 10 controls) will be exposed to 81°F for 40 minutes and then 95° F for up to 2 hours. Physiological as well as psychological processes will be monitored in all subjects during the study for safety and to determine differences in responses to exposure to hot ambient temperatures
The purpose of this study is to compare the effects of intravenous acetaminophen to placebo on body temperature and hemodynamic (heart rate and blood pressure) responses in febrile critically ill adult patients. There are limited data to explain the variable and unpredictable antipyretic and hemodynamic response to acetaminophen in febrile ICU patients. The complex pathophysiology of critically ill patients, co-morbid conditions, the effect of multiple pharmacologic and non-pharmacologic care interventions, and/or the potential interferences with absorption of enteral or rectal formulations may be related to variations in the antipyretic response to acetaminophen. It is necessary for clinicians to have a better understanding of the therapy response and potential adverse effects of this commonly administered medication, especially the recently available IV formulation, in critically ill patients. Further research of the antipyretic response to acetaminophen in critically ill patients is warranted to inform evidence-based practice guidelines for fever management. Further randomized, placebo-controlled studies of hemodynamic responses to IV acetaminophen are also warranted. Primary Hypothesis: There is a significant reduction in time-weighted average core body temperature over 4 hours after administration of IV acetaminophen compared to placebo in febrile critically ill patients. Secondary Hypotheses: 1. There is a significant reduction in time-weighted average heart rate over 4 hours after administration of IV acetaminophen compared to placebo in febrile critically ill patients. 2. There is a significant reduction in time-weighted mean arterial pressure over 4 hours after administration of IV acetaminophen compared to placebo in febrile critically ill patients. Adult patients with fever (≥ 38.3ºCentigrade/101ºFarenheit) in the intensive care unit will be screened for eligibility and enrolled after informed consent. Patients will be randomized to receive IV acetaminophen 1 gram or normal saline 100 mLs. Body temperature, heart rate, and blood pressure will be measured at baseline and during the 4 hours post study drug administration.
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 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.
Hypothesis: Mild Hypothermia has a protective effect on residual hearing of patients undergoing cochlear implantation
The goal of this study is to collect febrile, healthy, and in some instances cold temperature data from human subjects ranging from newborns to geriatrics. This data will be used to develop a new thermometer.
The goal of this clinical trial is to compare betaine supplementation to placebo in firefighters undergoing live burn training regarding thermoregulation and inflammation. The main questions it aims to answer are: * Does betaine supplementation mitigate rises in core temperature during firefighter live burn training? * Does betaine supplementation decrease inflammation from firefighter training? * Does betaine supplementation increase total body water stores? Participants will supplement with betaine for 1 month and complete: * Total Body Water measures * Body Composition measures * Live Burn training with Core Temperature Measurements * Provide Salivary samples
The aim of this investigation is to provide guidance for assessing the influence of wet clothing, and its drying time, on body temperature responses during cold air exposure. Twelve healthy and fit adults (men and women aged 18-49) will complete this study. Four cold air exposures (41°F, 180 min) will be randomly conducted, each while wearing a different clothing ensemble that has been saturated by water. During each cold air exposure, you will be asked to rest for 60 min and perform weighted (38.5lbs) treadmill walking for up to 120 min.
The investigators will propose a randomized cross-over trial using a uniform and strongly balanced 4-period design in which will include four operations for each surgeon. Surgeons will be randomized to 1 of 4 sequences: ABBA, BAAB, AABB or BBAA. The design is "uniform" in that each treatment appears the same number of times within each sequence (uniform within sequence) and if each treatment appears the same number of times within each period (uniform within each period). It is strongly balanced with respect to first-order carryover effects because each treatment precedes every other treatment, including itself, the same number of times
Very low birth weight (VLBW) infants (\<1500 grams at birth) and other low birth weight infants experience hypothermia after birth and through stabilization (first 24 hours of life) due to an inability to keep warm through metabolic heat production while experiencing heat loss during care. The investigator hypothesizes that inserting an InnerSense oral gastric tube (Philips Healthcare) with its imbedded thermistor and attaching the tube to a temperature monitor with a digital temperature display will enable care-providers to monitor continuous body temperature and prompt them to provide warmth and prevent heat loss, thus preventing hypothermia in these infants for the first 24 hours of life. The investigator predicts infants in the intervention group will have warmer axillary temperatures upon admission to the NICU and at 1, 4, and 8 hours of age. Mothers in non-active labor will be sought for consent to enroll their VLBW infant into this study after the infant's birth. 160 VLBW infants and other low birth weight infants 1000-2000 grams will be randomized to the intervention group (placement of InnerSense oral gastric tube with thermistor to a Squirrel monitor for continuous digital temperature display, immediately after birth through 24 hours of life) or the control group (standard delivery room care and stabilization care). The study staff plans to enroll 180 infants (90 per group) to allow for screen failures. Axillary temperatures of all infants will be recorded at NICU admission, 1, 4, 8 and 24 hours of age. Further, the study staff intends to enroll approximately 300 Intensive Care Nursery providers who care for an InnerSense study infant and wish to complete a provider satisfaction survey. These providers will be asked to provide consent prior to completing the survey and their names will be recorded on a separate study enrollment log. Infant demographic data will be compared to make sure groups are not significantly different. Temperatures from the intervention group will be compared to the control group using a student t test at each time point. Satisfaction questionnaires will be summarized and described. The InnerSense oral gastric tube with temperature monitoring is FDA approved for use and is being marketed commercially by Philips Healthcare. VLBW infants have oral gastric tubes placed as standard of care for feeding, and intermittently in the delivery room when positive pressure ventilation is necessary for respiratory stabilization. There are no additional safety risks to the intervention of this study; however, a safety/data monitoring committee will be formed and meet quarterly to monitor the trial.
The objectives of this study are to demonstrate that real time physiological status monitoring and the use of optimization techniques during exercise can have a positive impact on physiological status, and to collect metabolic flexibility profiles of young fit adults during rest and exercise.
Nasopharyngeal and deep tissue temperatures will be measured simultaneously during surgery and compared for agreement. The hypothesis of this trial is that deep tissue temperature as measured by zero-heat-flux thermometry will agree with nasopharyngeal temperatures during surgery.
The purpose of this study is to test if temperature homeostasis in football players can be improved by circulating cool, dry air underneath shoulder pads between periods of intense physical activity.
The purpose of this study is to determine the safety and feasibility of weaning from the incubator at a lower post-natal weight at 1600 grams. Our hypothesis is that early weaning from the incubator to a crib/bassinet is safe and may result in a decrease in length of hospital stay while maintaining appropriate growth velocity. Specific outcomes the investigators will evaluate are the length of hospital stay and growth velocity at early weaning.
Persons with higher levels of spinal cord injury (above the 6th thoracic vertebrae: Hi-SCI) are unable to maintain their core body temperature (Tcore) within the normal range (97.5-99.7 °F) when exposed to warm environments. Even limited exposure to warm temperatures can cause hyperthermia (Tcore 100.4°F) in Hi-SCI. Mild hyperthermia causes discomfort and impaired thinking, but if unchecked, can lead to permanent damage to the brain, multiple body organ failure, and death. Warm seasonal temperatures have an adverse effect on personal comfort and the ability to participate in daily social activities in persons with Hi-SCI. Interventions addressing this vulnerability to hyperthermia are limited. A self-regulating "smart" cooling vest designed for persons with Hi-SCI, that can effectively dissipate body heat, is a novel and promising strategy to address this problem. Once the current prototype is further developed and bench-tested, the investigators will test the vest in able-bodied participants for safety and comfort. The investigators will then test the vest in participants with Hi-SCI for efficacy. The aim for the cooling vest to minimize the expected increase of 1.1°F in Tcore by at least 50 percent and increase thermal comfort, during a controlled exposure to heat (95°F). If successful, the vest will provide a promising intervention to decrease the adverse impact of warm temperatures on comfort, quality of life, and participation in societal functions for Veterans with Hi-SCI during the warmer seasons.
Long-wavelength infrared (IR) detectors have a more than 20-year history in medical thermometry and have been used widely for febrile screening. However, over the past year and a half, public health entities, medical professionals, and the general public have begun to question the claimed accuracy of non-contact body thermometry. The standard assessment of a device's performance relies on clinical testing with febrile individuals, yet this practice may have inadvertently allowed the approval of IR systems that are unable to detect moderate fevers. The ability to test device performance without relying on febrile test participants would have important ramifications for public health, especially if this test discovered undisclosed differences in accuracy in widely used devices. The aim is to examine the effect of the local environment and the physiology of the human body on the relationship between core body temperature and inner canthi (region near tear duct) skin temperature measured using non-contact thermal imaging and to use of this relationship to test actual device performance at detecting simulated elevated temperatures, without requiring volunteers having actual elevated temperatures. The overall goal of this research study is to validate and improve the science of non-contact core body temperature measurement.
Persons with higher levels of spinal cord injury (above the 2nd thoracic vertebrae; tetraplegia) are unable to maintain normal core body temperature (Tcore) when exposed to cool environments. In persons with tetraplegia, even limited exposure to cool temperatures may cause Tcore to approach hypothermic values and impair cognitive performance. Conversely, an increase in Tcore from subnormal to normal range may improve cognitive performance. Prior work has shown that cool seasonal temperatures have an adverse effect on personal comfort and the ability to perform vital daily activities of self-care in persons with tetraplegia. Interventions that address the vulnerability to hypothermia are limited. A self-regulating heated vest designed specifically for persons with tetraplegia is a novel and promising strategy to address this problem. By more effectively maintaining Tcore, the vest can decrease the adverse impact of cool temperatures on comfort, quality of life, and performance of vital daily tasks for Veterans with tetraplegia during the cooler seasons.
The purpose of the study is to evaluate effects of high rebound mattress toppers (i.e., airweave®) on sleep and sleep-related symptoms. The study will compare effects of use of high rebound mattress toppers versus use of low rebound mattress toppers on sleep and sleep related symptoms and core body temperature during diagnostic sleep studies.
Alzheimer's disease (AD) is a common neurodegenerative disease characterized by the accumulation of amyloid plaques and neurofibrillary tangles. Current consensus is that the AD pathological process begins decades before clinical symptoms occur. This long "preclinical" phase of AD might first become detectable in middle-age as deposits of hyperphosphorylated tau (P-tau) in the transentorhinal cortex and subcortical nuclei such as the locus coeruleus (LC) and the nucleus basalis of Meynert. There is strong preliminary evidence showing that cerebrospinal fluid (CSF) levels of orexin-A (OxA) are associated with increased P-tau (r=.52, p\<.01) and total-tau (T-tau) (r=.42, p\<.01) in cognitively normal older adults (mean age: 69.6±8.6 years). This study poses that onset of tauopathy in the LC results in down regulation of orexin receptors, leading to a homeostatic increase of OxA production by the hypothalamus, which results in changes in core body temperature (CBT) and sleep disruption that cause further neurodegeneration. This hypothesis will be tested by demonstrating that increases in CSF P-tau are associated in vivo with tau PET uptake, and that tau binding in the LC is associated with increases in CSF OxA (Aim 1); and second, by analyzing the downstream consequences of increased central nervous system (CNS) OxA on sleep architecture and CBT (Aim 2). To test these hypotheses, 19 older adults (age 55-75) balanced by sex, will first perform a full clinical evaluation and PET-MRI where Tau burden will be analyzed by PET-MR using 18F-MK6240 (visits 1-2). Subjects will later undergo 7 days of actigraphy followed by nocturnal polysomnography (NPSG) for 2 consecutive nights (N1-2) during which we will measure CBT (visits 3-4). A morning lumbar puncture (LP) will be performed after N2 to obtain CSF.