417 Clinical Trials for Various Conditions
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 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.
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.
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.
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.
Febrile neutropenic patients are at high risk for developing sepsis and other infections which often necessitates acute admission to the Intensive Care Unit (ICU) and are associated with high mortality. Neutropenic fever is a medical emergency and early detection of fever allows for prompt infectious work up. In this study, the investigators will collect pilot data from outpatients utilizing a remote outpatient continuous temperature monitoring device to compare the incidence of ICU admission and severe sepsis to historical data for prior patients who did not receive at home monitoring device.
This study will assess the impact of fever prevention on fever burden and short- and long-term neurologic outcomes in brain injured patients. Half of the subjects will undergo fever prevention using a targeted temperature management system and half of the subjects will be treated for fever should it develop.
This phase I trial studies the side effects and best way to give hyperthermia and high dose rate radiation therapy in treating patients with prostate cancer that has come back after prior radiation treatment. Radiation therapy, such as high dose rate brachytherapy, uses radioactive material placed directly into or near a tumor to kill tumor cells. Hyperthermia therapy may make tumor cells more sensitive to the effects of radiation therapy by heating them to several degrees above normal body temperature. Giving hyperthermia and high dose rate radiation therapy may work better in treating patients with recurrent prostate cancer after radiation.
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.
This study aims to conduct a double-blind, placebo-controlled study to assess the effect of prophylactic antipyretics on the immune responses and rates of fever after inactivated influenza vaccine (IIV) in children 6 through 47 months of age. In this study, 160 healthy children, 6 through 47 months of age, including some children at risk of febrile seizure, will be randomized to one of three different treatment arms. Children will receive either blinded therapy with prophylactic acetaminophen or placebo immediately following and every 4 to 6 hours in the 24 hours after receipt of a dose of IIV or open-label ibuprofen every 6 to 8 hours in the 24 hours after receipt of a dose of IIV. Children will be followed for the occurrence of fever, fussiness, changes in appetite and sleep patterns, and use of medical services on the day of and for two days following vaccination. Antibody to influenza antigens contained in the respective 2014-2015 and 2015-2016 vaccines as measured by hemagglutination inhibition (HAI) antibody will be assessed at baseline and four weeks following vaccination. The proportions of children experiencing fever, having solicited side effects, using medical services, demonstrating a serologic response corresponding to seroprotection and seroconversion to each of the IIV antigens will be determined for groups of children in each of the three treatment arms. Likewise geometric mean HAI titers (GMTs) and corresponding 95% confidence intervals for each IIV antigen will be calculated for the three treatment arms. The investigators hope to learn whether or not prophylactic antipyretics affect the immune response and fever rates following IIV.
The study team aims to conduct a double-blind, placebo-controlled, pilot study to assess the effect of prophylactic antipyretics on the immune responses and rates of fever after inactivated influenza vaccine (IIV) in children 12 through 35 months of age. In this pilot, 40 healthy children, 12 through 35 months of age, including some children at risk of febrile seizure, will be randomized to receive prophylactic acetaminophen or oral placebo immediately following and every 4 to 6 hours in the 24 hours after receipt of a dose of IIV. Data derived from the pilot study will be used to assess the feasibility of conducting a larger scale study. Feasibility will include assessments of the speed and ease of study recruitment and adherence to and completion of study assessments. Children will be followed for the occurrence of fever, fussiness, changes in appetite and sleep patterns, and use of medical services on the day of and day following vaccination. Antibody to influenza antigens contained in the 2013-2014 vaccine as measured by hemagglutination inhibition (HAI) antibody will be assessed at baseline and four weeks following vaccination. The proportions of children experiencing fever, having solicited reactions, using medical services, demonstrating a serologic response corresponding to seroprotection and seroconversion to each of the IIV antigens will be determined for groups of children receiving acetaminophen and placebo. Likewise geometric mean HAI titers (GMT) and corresponding 95% confidence intervals for each IIV antigen will be calculated for both vaccine groups.
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.
Assessment and evaluation of body temperature is an important sign of health and disease. Inferior thermometry increases the risk of morbidity and mortality, and increases health care cost by delaying the diagnosis and treatment of fever-related disease. The gold standard for measuring core body temperature is the pulmonary artery thermistor (PAT). The measurement of the PAT requires the insertion of the invasive pulmonary artery catheter, a high risk procedure. An innovative thermometry technology, the temporal artery thermometer (TAT), has been introduced into the clinical arena as a potential non-invasive proxy for the PAT. The TAT reduces the risk and cost of pulmonary artery catheter insertion by non-invasively measuring core blood temperature by measuring temperature over the skin of the temporal artery. Research to demonstrate the precision and accuracy of the TAT in normothermic patients has been published, but little to no data is available in those with temperatures greater than 100.4oF. The purpose of this study is to measure the precision and accuracy of 2standard of care temperature methods: the thermistor from the PAT, considered the gold standard, and the TAT as measured in those patients with a PAT temperature greater than 100.4oF.
There are few treatments for central fever (fever that is due to the central nervous system, as opposed to an infectious source). We hypothesize that an externally applied cooling blanket will reduce temperature in neurologically ill patients with central fever.
RATIONALE: Comparing results of three different thermometers used to measure body temperature may help doctors find the most accurate thermometer to detect fever and plan the best treatment. PURPOSE: This clinical trial is studying three different types of thermometers to measure temperature in young patients with fever and without fever.
RATIONALE: Drugs used in chemotherapy, such as liposomal doxorubicin, work in different ways to stop the growth of tumor cells, either by killing the cells or by stopping them from dividing. Hyperthermia therapy kills tumor cells by heating them to several degrees above normal body temperature. Giving temperature-sensitive liposomal doxorubicin together with hyperthermia may kill more tumor cells. PURPOSE: This phase I trial is studying the side effects and best dose of temperature-sensitive liposomal doxorubicin when given together with hyperthermia in treating women with locally recurrent breast cancer.
RATIONALE: Caspofungin acetate or amphotericin B liposomal may be effective in preventing or controlling fever and neutropenia caused by chemotherapy, bone marrow transplantation, or peripheral stem cell transplantation. It is not yet known whether caspofungin acetate or amphotericin B liposomal is more effective for treating these side effects. PURPOSE: Randomized phase III trial to compare the effectiveness of caspofungin acetate with that of amphotericin B liposomal in treating patients who have persistent fever and neutropenia after receiving anticancer therapy.
The goal of this clinical trial is to assess the safety, tolerability and immunogenicity of three dosage levels, and a single or two-dose administration regimen, of the investigational HDT-321 product administered intra-muscularly. The main questions it aims to answer are: * Is HDT-321 safe to use * Does HDT-321 provide protection against Crimean-Congo hemorrhagic fever virus (CCHFV) Researchers will record any adverse events and test blood samples to see if HDT-321 is safe and works to protect participants against Crimean-Congo hemorrhagic fever virus (CCHFV) Participants will: * Receive 1 or 2 doses of HDT-321 * Complete a memory aid and measurements for 7 days after receiving each dose of HDT-321 * Be followed throughout the study using phone calls and clinic visits to check for and record adverse events * Provide blood samples at specific study visits
This study is being done to see if the investigators can improve the outcome of patients with biliary tract cancer that do not qualify for surgery. This study will compare the effects, good and/or bad, of using a combination of standard of care chemoimmunotherapy, with the addition of radiation and deep hyperthermia. In this study, participants will be receiving standard of care chemoimmunotherapy (gemcitabine, cisplatin, and durvalumab), radiation (spatially fractionated radiation therapy), and deep hyperthermia. Chemoimmunotherapy Chemoimmunotherapy is when chemotherapy drugs are combined with immunotherapy drugs. Chemotherapy uses different drugs to kill or slow the growth of cancer cells, whereas immunotherapy drugs are used to help the immune system attack cancer cells. For this study, the drugs Gemcitabine, Cisplatin, and Durvalumab will be used. Chemoimmunotherapy will be delivered over 4 cycles for this study and can continue longer if the treating physician decides this is appropriate. Each cycle will last 3 weeks. Spatially fractionated radiation therapy (SFRT) SFRT is a form of radiation therapy that gives a single large dose of radiation to large tumors or tumors that do not qualify for surgery. This is not a standard type of treatment for people with this diagnosis. For this study, participants will be receiving radiation once on day 1 of the second chemoimmunotherapy cycle. Deep Hyperthermia (HT) Hyperthermia is used in combination with chemoimmunotherapy and radiation treatment in this study. Hyperthermia has the potential to make both chemotherapy and radiation treatments more effective. For this study, participants will receive HT three times: on the first day of cycles 2, 3, and 4 of chemoimmunotherapy.
This study proposes the evaluation of a novel, first-in-human Lassa fever vaccine based on the complete Lassa glycoprotein complex (GPC) antigen. The antigen will be presented on a genetically modified and attenuated rabies vector expressing both the rabies glycoprotein (GP) antigen and the Lassa GPC. The inactivated chimeric virus is delivered with a toll-like receptor (TLR-4)-activating oil-in-water emulsion adjuvant. Studies using this vaccine administered as a prime-boost series in mice and non-human primates, and then challenged with Lassa virus demonstrated significant protection against Lassa fever. Given that the vaccine backbone is an attenuated and inactivated rabies virus expressing rabies GP, this vaccine will also be evaluated for immunogenicity against rabies virus.
The investigators are conducting this research study is to evaluate the feasibility (recruitment, compliance, safety, and acceptance) of using electroacupuncture (EA) to manage complex symptoms such as pain, nausea/vomiting, diarrhea, and insomnia in patients who have undergone Cytoreductive Surgery and Hyperthermic Intraperitoneal Chemotherapy. Additionally, the investigators are aiming to determine the effectiveness of EA in reducing these symptoms, and to examine how EA impacts important biomarkers, or proteins in the blood, that can be used as indicators or signs of these symptoms.
This study aims to examine the scientific mechanisms of whole-body hyperthermia (WBH), a novel, rapidly acting, single session antidepressant and anxiolytic therapy. It also aims to determine its feasibility and acceptability in women with postpartum depression (PPD). The study will enroll four cohorts of participants: healthy postpartum controls; postpartum women with PPD; healthy adult controls; and adults with major depressive disorder or anxiety disorders in a longitudinal protocol.
The objective of this study is to evaluate the efficacy of the COOLSTAT® Transnasal Thermal Regulating Device in reducing temperature in a population of febrile subjects who meet the inclusion/exclusion criteria.
In this study, tumors of the pancreas are treated with a device placed around the abdomen that creates an electromagnetic field that generates heat in the tumor. Heating the tumor improves blood flow and the delivery of chemotherapy to the tumor as has been shown in numerous studies for various cancers with potential clinical benefits. Subjects will receive the thermal treatment on the same day and prior to receiving standard of care chemotherapy for a total of 4 treatments. This study is an early feasibility study that aims to demonstrate the safety and the performance of the device.
The goal of this clinical trial is to assess the immune response to the yellow fever vaccine 17D in adults with prior 17D vaccination. The main questions this study aims to answer are: * how does prior vaccination affect antibody responses to re-vaccination? * how does prior vaccination affect the immune cell response to re-vaccination? Participants will: * have been previously vaccinated with 17D. * be re-vaccinated with 17D. * provide medical and travel histories. * provide a blood sample prior to vaccination * provide a blood sample approximately every other day for 14 days after vaccination. * provide a blood sample approximately 28 days after vaccination. * complete a daily diary of symptoms following vaccination for 14 days. * report any additional symptoms after 14 days.
This is a prospective, non-randomized data collection study to evaluate the performance of the Masimo INVSENSOR00063 in obtaining temperature measurements.
This phase II clinical trial tests how well robotic cytoreduction and hyperthermic intraperitoneal chemotherapy (HIPEC) in treating patients with gastric cancer that has spread to the tissue that lines the wall of the abdominal cavity (peritoneum). Gastric cancer is the third leading cause of cancer related deaths worldwide and peritoneal metastasis are found in 30% of patients at time of diagnosis. Patients with peritoneal metastasis have poor survival rates. Traditional surgery is done with a large incision and has a high complication rate and longer hospital stays. Robot assisted (robotic) cytoreduction is a surgical option that uses small incisions and there is less risk of complications. HIPEC involves infusing heated chemotherapy into the abdominal cavity during surgery. Robotic cytoreduction together with HIPEC may improve recovery and decrease complications after surgery.
This randomized two-arm intervention trial administers 8 weekly cognitive behavioral therapy (CBT) sessions and 4 bi-weekly active whole-body hyperthermia (active WBH) sessions or 4 bi-weekly sham WBH sessions to adults aged 18 years or older with major depressive disorder (MDD).
Background: Periodic fever, aphthous stomatitis, pharyngitis, and cervical adenitis (PFAPA) is the most common periodic fever syndrome of childhood. Symptoms can include swelling of the glands in the throat, mouth ulcers, and tonsillitis. Removal of the tonsils can stop the periodic flareups. But researchers do not know how PFAPA develops. In this natural history study, researchers will collect specimens and data from people with PFAPA to see what they might have in common. Objective: To collect blood and other specimens from people with PFAPA to learn more about the illness. Eligibility: People aged 1 month or older with symptoms of PFAPA or another tonsil disorder. Design: Participants will be screened. Their medical records will be reviewed. Researchers will ask about a family history of PFAPA. The following specimens may be collected: Blood. Blood will be drawn either from a needle inserted into a vein or from a prick in the finger or heel. Mucus and cells. A stick with soft padding on the tip may be rubbed inside the nostrils or mouth. Stool. Saliva. Tissue samples may be taken if participants are having surgery to remove the tonsils or adenoids. Participants having surgery may also have a nasopharyngeal wash; salt water will be squirted into the back of the throat and then sucked back out with a syringe. Most participants will provide specimens only once. They can do this in person at the clinic; they can also have their local health providers send specimens to the researchers. Some participants may have optional follow-up visits over 10 years.
Hyperthermic Intraperitoneal Chemotherapy (HIPEC) is a well-established alternative for patients with peritoneal surface malignancies. Although HIPEC has a predetermined protocol to manage body temperature, the resultant bladder and core-body temperatures are highly variable and unstable in clinical practice. Such results highlight an incomplete understanding of the thermodynamic processes during HIPEC in humans. Previous clinical and animal investigations have studied abdominal hyperthermia, but a full human model incorporating patient variables, heat delivery, and the impact of the circulatory system and anesthesia in HIPEC has not been established. This project seeks to develop and validate a computational thermodynamic model using prospective real-world data from humans undergoing HIPEC surgery. It is hypothesized that by incorporating patient, anesthetic, and perfusion-related variables in a thermodynamic model, the temperatures inside and outside the abdomen during HIPEC can be predicted.