180 Clinical Trials for Various Conditions
We are conducting a research study to learn about how individuals living in Washington, DC perceive and experience temperature. Participation in this study will include: 2 remote visits over the phone and/or computer (these will each last about1.5 to 2 hours) * During the remote visits, you will be asked to respond to a series of surveys, so that we can learn about your life, behaviors, and health 2 weeks of data collection where you will be asked to: * Wear monitoring devices * These will collect information on your location and physical activity * We will ask you to wear the monitors on a belt around your waist all day every day during these 2 weeks of data collection. * All of the monitors will be sent to you in the mail. * Leave a temperature tracker near where you sleep to measure the temperature of your environment. * Use a phone app * We will also send you questions through the phone app that will ask about your stress level, sleep duration, sleep quality, and how you feel about the current temperature. Risks of participating in this study are minimal. They include the inconvenience of wearing the monitors and the possibility of a breach of your confidentiality. We are collecting personal information about you and the location monitor will collect information about where you spend your time. We will take every precaution in order to safeguard the data that you provide, including limiting who has access to it, storing it safely, and removing the capacity to identify you individually, as much as possible. You will receive no immediate benefits from participating in this study. We hope what we learn will help us to develop policies and programs to help keep urban populations safe during increasingly warm summer temperatures. You are eligible for this study if you are 18 years of age or older, live in Washington, DC, can read and write in English, and have access to a smartphone that you can use for the 2 week data collection period....
The purpose of this program is to evaluate remote temperature monitoring in cancer patients at risk of fever and infection due to chemotherapy treatment. The main questions it aims to answer are: * does remote temperature monitoring reduce the number of days spent inpatient * what out-of-pocket cost can a patient expect to incur for participating in remote temperature monitoring * the number of billable CPT codes that will be generated by providing remote temperature monitoring Researchers will compare compliant and non-compliant patients to assess if compliance with remote temperature monitoring is associated with a decrease in the number of days spent inpatient. Patients will * wear the thermometer for the duration of their participation in the study * have their temperature monitored continuously * receive alerts on their phone when their temperature exceeds a threshold for a sustained duration, configurable by their physician * respond to texts or calls from remote monitors when an alert is triggered
The primary aim of the present research project is to investigate the preliminary effects of four weeks of forehead temperature-regulating therapy on insomnia in adults with Tourette's disorder and co-occurring insomnia disorder. This project will also examine the effects of the device on depression, anxiety, and daytime sleepiness, and explore its effects on tic severity.
This research was designed with partners to determine differences in temperature exposures in urban and rural communities in Alabama. The investigators hypothesized that significant differences in temperature exposure exist between urban and rural settings. Time spent outdoors has been previously positively associated with greater physical activity. Built environment components in urban versus rural environments and ambient temperatures experienced during the summer may pose barriers to time spent outdoors. Persons with Type II Diabetes Mellitus may find it more difficult to overcome temperature barriers due to reduced thermoregulation capacity. This analysis will result in a more precise picture of temperature exposure as well as behavioral factors that may mediate exposure.
This study will compare standard methods of stabilizing a newborn's temperature after birth with mother-infant skin-to-skin contact for stabilizing newborn temperature. The study will look at the effects of each warming method on the timing of newborns' initial bath and the effects on newborn initiation and percent weight loss by discharge. The study will use a randomized controlled trial (RCT) design to test a clinical intervention at TriHealth Good Samaritan Hospital. Study participants will be randomized to the intervention group (IG), which will implement mother-baby Skin-to-Skin (STS) immediately after vaginal birth, or to the control group (CG), which will receive standard care for newborn and mother immediately after vaginal birth. This study will test the hypothesis that mother-baby STS contact implemented immediately after delivery for a minimum of the newborn's first 60 minutes and with a resumption of STS (if a 15-minute break in STS occurs at some point after the first hour) until the newborn's temperature stabilizes after the initial bath will result in: 1. Improved newborn temperature stability and thermoregulation for newborns whether breast or formula-fed. 2. Initiation of effective breastfeeding behavior within 90 minutes of birth and the addition of at least one more breastfeeding within four hours of birth for breastfed newborns. 3. Avoidance of newborn weight loss of 10% or greater.
Purpose: The purpose of this protocol is to understand how individuals respond to the air pollutant ozone at elevated temperatures. Ultimately, this will help us understand what the risks from poor air quality are during a heat wave. Participants: We will recruit up to 30 healthy adults, 18-55 years old, to participate in this study. Procedures (methods): Subjects will be exposed to clean air and to 0.3 ppm of ozone for 2 hours with intermittent exercise in a controlled environment chamber. For each exposure the temperature in the chamber will be between 31-34oC (88-93 oF). Because the aim of the study is to mimic high exposure during a heat wave, we will perform exposures only on days when mean ambient temperatures was less than 24 oC in Chapel Hill on the previous day. Primary endpoints will include spirometry and Heart Rate Variability monitoring. Secondary endpoints will include analysis of blood clotting/coagulation factors, and analysis of soluble factors present in plasma.
Many human and animal studies over the past 40 years have revealed that ovaries and Fallopian tubes have a lower temperature than core body temperature, especially around the time of ovulation and early embryo development. Whether average core body temperature, 37 degrees Celsius, is ideal temperature for culture has not been prospectively evaluated. The purpose of this study is to determine whether lowering the incubator temperature by 1 degree Celsius will result in meaningful improvements in embryo development and pregnancy rates. Patients participating in this study will undergo routine in vitro fertilization (IVF) stimulation. Following egg retrieval, patients with at least 8 mature eggs will have those eggs divided randomly into two groups. Both groups will then under ICSI (intra-cytoplasmic sperm injection) to fertilize the eggs. The groups will randomly be assigned to control or study condition. The control condition group will be cultured at 37 degrees Celsius, the current standard of care. The study group will be cultured at 36 degrees Celsius. All other culture conditions will be kept identical and embryos will be assessed on day 3 and day 5 of development. On day 5, all well-developed blastocysts will undergo biopsy for Comprehensive Chromosomal Screening (CCS), which will evaluate the chromosomal normalcy of the embryo . Patients will undergo transfer on the morning of day 6 and the highest quality, chromosomally normal embryo from each group (the 36 degree cultured embryos and the 37 degree cultured embryos) will be transferred. If only 1 embryo is available for transfer, the patient will have a single embryo transfer. All embryos available for cryopreservation will undergo biopsy for CCS before being frozen. Some arrested embryos from each temperature group will also undergo genetic analysis to evaluate chromosomal normalcy or mosaicism. The female patient will undergo a blood draw at 9 weeks gestation and buccal swabs will be obtained from the infant(s) after birth.
Preterm infants will have their body temperature measured by three different devices in order to evaluate whether the newest device, a temporal artery scanning thermometer, is accurate for patients in the preterm period.
The primary objective of this study is to determine if the intraoperative distal esophageal (core) temperature with vitalHEAT warming is non-inferior to upper-body forced-air warming in patients undergoing open colectomy under general anesthesia. This is a randomized study.
This study will evaluate the accuracy of several thermometers and temperature changes during surgery and immediately after surgery.
The purpose of this study is to compare first urge, strong urge, and maximum capacity, and perception of discomfort during urodynamic testing between room temperature and body temperate saline. Twenty-four non-pregnant females referred to the urogynecology clinic for bladder testing will be enrolled into the study. Each patient will serve as her own control, undergoing the bladder testing with both room temperature and body temperature saline.
This study will evaluate the effectiveness of a specially designed head-neck cooling system for way lowering the body's central, or core, temperature and cooling the brain. Brain cooling has an effect on stopping seizure discharges in the brain as well as the seizures themselves. If this system works to cool the brain, a similar study may be tried in patients with epilepsy. Normal volunteers 21 years of age and older who have no medical or neurological condition and do not use any medications may be eligible for this study. Candidates will be screened with an interview. Women will have a pregnancy test. Those enrolled will be hospitalized twice for overnight stays, with the admissions 2 to 3 days apart. Participants will have a medical history, physical and neurological examinations, electroencephalogram (EEG) and electrocardiogram (EKG). Then, electrodes will be attached to their scalp, forearm and calf to measure temperatures in those locations. Intestinal (core) temperature will be measured with a temperature-sensing pill, which will be swallowed earlier), and a hand-held infrared thermometer will be used to measure temperatures from the ear canal, face, head, arms legs, and abdomen. Electrodes on the scalp will also measure changes in blood volume in the brain for a study of brain blood flow. Subjects will be seated in a comfortable chair and fitted with the cooling system, a portable unit with a circulating coolant. Cooling will last 30 minutes for the first session and 60 minutes for the second. Participants will be monitored for at least 30 minutes after each session to track temperature changes and have a post-cooling EEG recording.
This study is a prospective, observational investigation evaluating the effectiveness of Remote ThermoVisual Monitoring (RTVM) in the early detection of diabetic foot ulcers (DFUs) in high-risk populations. The primary objective is to compare the incidence of Wagner stage 2 or higher DFUs at the time of presentation between patients using RTVM and a matched control group from a retrospective patient database. Participants will include adults aged 18 years or older with type 1 or type 2 diabetes mellitus and a history of a plantar DFU that healed within the past five years. The study will enroll approximately 100 participants across up to 30 centers affiliated with SerenaGroup®. The intervention involves daily use of the OneStep Foot Scanner™, which measures temperature and captures visual images of the soles of the feet to detect signs of inflammation or anomalies. Secondary objectives include evaluating ulcer-free survival, amputation-free survival, time to first evaluation for new DFUs, and healthcare utilization rates. Exploratory endpoints will assess neuropathy-specific quality of life and the costs associated with ulcer and amputation care. Participants will be monitored over a period of 12 months. Results from this study aim to provide insights into the efficacy of RTVM as a preventative tool for managing diabetic foot health and reducing the burden of DFUs in high-risk populations.
Nearly 50% of older adults complain of poor habitual sleep, and in many cases the underlying reason remains undiagnosed or unknown. Meanwhile, observational data suggest that bedroom temperature significantly influences sleep quality in community-dwelling older adults, including those without financial constraints that limit the use of heating and cooling. These individuals often struggle to maintain an optimal bedroom temperature, either due to impaired motor function and cognitive abilities, and/or a lack of awareness about how temperature affects their sleep. Therefore, for a non-trivial portion of older adults, optimizing the bedroom temperature presents an exciting and untapped opportunity to improve sleep without substantial cost, burden, and side effects. The intervention, biologically adaptive control of bedroom temperature, uses wearable health trackers (e.g., a Garmin watch) and smart thermostats to automate and personalize bedroom temperature control, tailoring it to each person's unique physiology and context. Initially, individuals will be monitored in their home to determine each person's specific temperature range that promotes sleep quality, as measured by the wearable device. After the initial monitoring, the smart thermostat will maintain bedroom temperature within the optimal range for sleep for as long as the individual uses the intervention. The primary purpose of this project is to test the feasibility of biologically adaptive control of bedroom temperature as an intervention to improve sleep in older adults and gather preliminary data to facilitate sample size calculations for a definitive trial. 20 Older adults, aged 65 and above, will be enrolled and their bedrooms bedrooms will be equipped with smart thermostats. The first aim focuses on assessing the feasibility of the intervention. This includes evaluating participant recruitment and retention, the acceptability of temperature adjustments (tracked through the number of temperature overrides by participants), and the self-reported likelihood of future use. The second aim involves analyzing the mean and variance of sleep outcomes during observation and intervention phases (separately for each group), examining the degree to which they vary with temperature variations and behavioral adaptations.
The goal of this clinical trial is to compare two temperature management systems, the warmUP (WU-20) and the Bair Hugger®, in preventing perioperative hypothermia during surgeries. The study aims to determine whether the warmUP system is as effective as the Bair Hugger® in maintaining core body temperature. The main questions this trial aims to answer are: Does the warmUP system maintain intraoperative body temperatures as effectively as the Bair Hugger® during abdominal surgeries? Does the warmUP system offer additional benefits, such as reduced bacterial dispersion compared to the Bair Hugger®? Participants will: Use either the warmUP or Bair Hugger® system during surgery Undergo abdominal surgeries lasting approximately 2.5 hours Have their core temperatures monitored to assess the effectiveness of the warming device The study will evaluate whether the warmUP system provides equivalent temperature management with a smaller body surface area exposed, potentially offering advantages in surgical infection control.
The purpose of this study is to compare surface and intradermal skin temperature responses to heat stress with and without evaporative and convective cooling.
This study will assess how two different ablation strategies, using two different ablation catheters during catheter ablation for paroxysmal atrial fibrillation, affect the temperature of the esophagus during ablation, and the risk of injury to the esophagus.
Background and Objective: To evaluate the efficacy of cooled versus room temperature artificial tears in reducing post intravitreal injection (IVI) ocular discomfort. Patients and Methods: Patients receiving IVI were randomized to either cooled or room temperature tears intervention groups. Both groups rated their ocular discomfort following IVI before intervention and again after administration of cooled or room temperature tears.
Assess the effects of intranasal cocaine on temperature regulation and whole-body sweat rate during exercise in warm environmental conditions.
Diabetic foot ulcers are common, debilitating, and costly complications of diabetes, disproportionately impacting Black and rural Veterans. Forty percent of individuals have an ulcer recurrence within a year of ulcer healing and 65% within 5 years. Monitoring plantar foot temperatures is one of the few interventions that reduces the risk of ulcer recurrence. Despite the evidence, adoption has been poor because the original procedures, including the use of handheld thermometers, were burdensome and time-consuming. Podimetrics, a private company, has developed a temperature monitoring system involving a "smart" mat that can wirelessly transmit data and a remote monitoring team that works with VA providers to assist with triage and monitoring. This care model has incredible promise, but has been untested in VA. The investigators propose to conduct a randomized trial to evaluate effectiveness of remote temperature monitoring as well as costs. Additionally, the investigators will evaluate the implementation process, including barriers and facilitators to use among key stakeholders.
The goal of this clinical trial is to test the performance of the Masimo noninvasive temperature device in patients with fever. The main question it aims to answer is whether the Masimo temperature device is comparable to standard methods of taking temperature such as inserting a probe under the tongue or using a forehead thermometer. Participants will be asked to sit still while rounds of measurements are taken using the Masimo temperature device and the reference temperature device. Researchers will compare the measurements taken with the Masimo device with the measurements taken with the reference device.
Hysteroscopic surgery is widely used for the treatment of gynecological diseases, such as septum, synechiae, polyp and intrauterine fibroids. The complication rate is estimated as 0.22% and includes uterine perforation, massive bleeding, and fluid overload. Operative hysteroscopy intravascular absorption (OHIA) syndrome refers to fluid overload complications from operative hysteroscopies and is considered a major complication. Report describing the clinical association between irrigation fluid temperature to intravasation rate itself or the risk of fluid overload are limited mainly to theoretical models. Due to the aforementioned, we aim to evaluated the role of temperature on absorption of the irrigation solution in hysteroscopic surgery.
IDION is currently seeking FDA approval for this device- the IDION iTempShield. It is a skin-safe, FDA complaint and non-invasive device that can read and monitor skin temperature. Having continuous temperature monitoring using the IDION iTempShield may provide early detection of a fever for patients with febrile neutropenia. Febrile neutropenic fever is common in patients receiving chemotherapy and can often indicate infection. The main potential benefit potenially experienced from participating in this study would be the early detection of fever. There is a potential benefit that infection will be detected earlier in subjects wearing the IDION iTempShield.
To look at the feasibility of using a water warming/cooling garment (called the ALLON system) to maintain a target body temperature during surgery and chemotherapy perfusion (a method of pouring chemotherapy throughout your abdominal cavity) without overheating or overcooling your body.
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.
The purpose of this research study is to measure tissue temperatures and generate a prospective database of participants undergoing mastectomy with or without breast reconstruction at Wake Forest Baptist Hospital (WFBH) in order to enable and facilitate the evaluation of important and novel research questions - and quality improvement (QI) ideas/objectives - that may improve the care of breast surgery patients.
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 purpose of this study is to examine the effect of human skeletal muscle temperature during resistance exercise on myogenic and proteolytic signaling. Subjects will perform bilateral resistance exercise bouts at an intensity that should stimulate a muscle growth response in the Vastus Lateralis. During the resistance exercise, the subjects will receive a cold (10°C) intervention on the experimental limb, while receiving a neutral temperature intervention (22°C) on the control limb.
BioSticker data is remotely tracked and displayed in a report termed the BioReport for retrospective data analysis. Typically, the biosensor collects data on an interval of \~1 minute and this data is collated and reported remotely back to the BioReport every 6 hours. More importantly, for future applications of the BioSticker for early detection of FN, there are ongoing efforts to implement real time reporting and alarms using remote monitoring services that could alert the patient that they need to seek medical care. There are no known deleterious effects from the BioSticker and it is now being widely used and tested in diverse applications including detection and contact tracing of COVID and others.
The objective of this study was to clarify whether neck cooling can be used to non-invasively lower brain temperature in healthy adults.