157 Clinical Trials for Various Conditions
The ability of smart phones, aided by wearable devices (e.g. smart watches), to collect a variety of data, including physical activity, heart rate, and other exercise metrics, may provide a unique opportunity to understand real-world variability. The primary objective of this study is to test user engagement, app functionality, and feasibility of the newly developed Gatorade Sports Science Institute (GSSI) Labs App to conduct Real-World research studies. The secondary purpose of this study is to determine if Training Intensity (%Heart Rate maximum) in minutes during low heart rate variability (HRV) periods (below HRV baseline consecutive days) will have a negative relationship with post-study 5K (5 kilometer) running times as measured by their activity tracker, which could lead to personalized training recommendations using HRV. This study is conducted remotely, there are no in-person visits.
The goal of this clinical trial study is to test the heart rate variability biofeedback training in female college students with eating disorders and compare the results between intervention and control group. The main questions it aims to answer are: * How does heart rate variability biofeedback (HRVB) training impact behaviors related to eating disorders (EDs) and the perceived stress associated with these behaviors? * What difference are observed in the quality of life and stress responses between individuals trained in HRVB protocol and those in the wait list condition? * Does HRVB training enhance heart resilience and improve the ability to cope with psychosocial stressors in young women with eating disorders, compared to those in the wait list condition? Participants will be asked to do the following steps: * Baseline heart rate variability assessment and completion of the baseline questionnaire * HRVB training session and two weeks of at-home HRVB practice-10 minutes daily, (intervention group) * Post-intervention questionnaire completion and heart rate variability assessment * Optional interview (for intervention group) and HRVB training session (for control group) Researchers will compare the results of intervention group with control group to see if the participants improve in levels of emotional health, quality of life, and resilience.
The goals of this study are to test the effectiveness of a virtually delivered, group-based coping skills treatment program incorporating heart rate variability biofeedback to target autonomic dysfunction in youth diagnosed with inflammatory bowel disease (IBD). The investigators will enroll participants with IBD in a biofeedback enhanced cognitive behaviorally based coping skills treatment. Participants will be randomized to biofeedback enhanced treatment or wait-list control.
This technology development project will be informed and guided by initial data collection of human subject data. For this purpose, the investigators will recruit n=100 people with mild to moderate depression in a double-blinded, parallel-arm, sham-controlled data collection period administered at home and using the investigator's remotely supervised (RS) tDCS protocol. Enrolled participants will complete 10 days of 30-minute tDCS (2.0, DLPFC left anodal) using the RS-tDCS protocol. During each daily session, standard HR and impedance-based HR (i-HR), obtained from the tDCS headset, will be collected to identify a possible marker of response to tDCS in depression. Participants will be randomized 2:1 to active vs. sham tDCS.
Heart rate variability (HRV) is a measure of the variation in time between each heartbeat. It is an indirect and ubiquitous biomarker of performance readiness and recovery measured by most consumer-grade wearable fitness trackers. However, there is little documented on the relationship between HRV, training load, and performance measures in the Real-World. Whoop wrist-worn activity trackers have been validated against the gold-standard Electrocardiography (ECG) for HRV and HR measurements. Whoop leverages photoplethysmography (PPG) technology to continuously track (HR, HRV, respiratory rate, energy expenditure) and provides, daily, individual insights, trends, and coaching to improve strain, sleep, and recovery. Research has demonstrated that heart rate variability (HRV) guided training may be more optimal compared to predetermined training for aerobic exercise improvements. The purpose of this study is to assess the feasibility of providing personalized training recommendations based on HRV measured by a consumer-grade wearable (Whoop) in a real-world setting to better understand the HRV relationship with performance.
Heat therapy has been shown to reduce risk of various diseases, including heart disease, alzheimers, and pneumonia, as well as all-cause mortality . A previous study found heating a single hand lowers postprandial blood glucose levels with a magnitude similar to certain exercise interventions such as 40 minutes of slow walking We propose that heating both feet and heating both legs up to the calves will result in similar glucose reductions in a dose response manner.Overview To determine the effect of heating both feet to the ankles and heating both legs to the calves on postprandial blood glucose
Individuals with mild traumatic brain injury will be randomly assigned to an active heart rate variability biofeedback condition and a sham condition. The investigators will use a randomized pre-post design that will consist of two data collection phases and a 5-week treatment condition. The heart rate variability biofeedback active condition is designed to increase heart rate oscillations (Osc+ condition) consistent with current best practices, while the sham control heart rate variability biofeedback condition is designed to decrease heart rate oscillations (Osc- condition).
Older adults will be randomly assigned to an active heart rate variability biofeedback condition and a "sham" control condition. Stress recovery measures and emotional and cognitive functioning will be assessed before and following the five-week intervention to assess potential changes from the intervention.
The purpose of this research is to examine a wearable device called Apollo that emits gentle vibrations found to benefit mood, energy, and focus. We want to understand how it affects burnout in physicians.
The purpose of this study is to evaluate how variations in oxygen demands may change heart electrical activity in individuals with and without oxygen dependence.
Heart rate variability biofeedback (HRVB) is an biobehavioral intervention involving rhythmic breathing at resonance frequency that stimulates cardiovascular regulatory systems to help individuals better regulate affect and bolster cognitive control. This intervention has already shown its potential as a substance use disorder (SUD) treatment tool, but practical limitations of its accessibility, labor intensiveness, and cost have previously prevented this intervention from going to scale. Second-generation, ambulatory HRVB technology, however, has overcome these limitations and now allows patients to practice HRVB in-the-moment when its needed most. This study is testing the efficacy of second-generation, ambulatory HRVB for the first time with individuals with SUD.
This randomized controlled trial will assess the effects of External Cues focused messaging (i.e., government recommendations of MyPlate) compared to Internal Cues focused messaging (i.e., intuitive eating). The investigators will collect data on within-person changes in psychological (e.g. affect) and physiological (e.g. heart rate variability) outcomes in female college students. Participants will be randomly assigned to one of two study conditions. In condition one, participants will view a five-minute video focusing on traditional nutrition education principles. In condition two, participants will view a five-minute video focusing on intuitive eating principles.
The purpose of the study is to conduct an open trial examining the feasibility and acceptability of an adapted heart rate variability biofeedback and smoking cessation treatment that was using a primarily virtual remote intervention.
The objective of this study is to monitor heart rate variability in preterm infants receiving respiratory support, including conventional mechanical ventilation, during skin-to-skin care. We hypothesize that skin to skin care will be associated with a more mature pattern of parasympathetic activity as measured by various domains of heart rate variability. Specifically, the standard deviation of the normal-to-normal interval (SDNN), the root mean squared of successive differences of normal-to-normal intervals (RMSDD), and the standard deviation of deceleration (SDDec) will decrease in infants that are receiving skin-to-skin care across all types of respiratory support compared to infants who are lying in their isolette.
Cardiovascular disease is the leading cause of death worldwide, with ischemic heart disease (IHD) the leading cause of cardiovascular mortality. Persons with IHD suffering from psychological distress, including hopelessness, are more likely to die from IHD. Following a stressful event, the vagus nerve enables activation of either a sympathetic (fight/flight) or parasympathetic (rest/digest) response. Heart rate variability (HRV), the beat-to-beat variability between normal successive heart beats, is a biomarker of both adaptive and maladaptive reactions to stress. Decreased HRV predicts greater risk for morbidity and mortality and is associated with poor mental health outcomes in persons with IHD. As stated by polyvagal theory, HRV may be influenced by social support. Decreased perceived social support (PSS), a social determinant of cardiovascular risk, is predictive of increased morbidity and mortality in persons with IHD. Decreased PSS has been associated with hopelessness in patients with cancer, but this relationship has not been studied in IHD beyond the applicant's small pilot study of patients with hopelessness. Hopelessness, a negative outlook and sense of helplessness about the future, is present in 27-52% of patients with IHD. This is of grave concern, because hopelessness is associated with a 3.4 times increased risk of mortality and nonfatal myocardial infarction in patients with IHD, independent of depression. This research focuses on understanding the biological (HRV) and social (PSS) aspects of hopelessness, with the long-term goal of developing and testing novel interventions to reduce the adverse effects of hopelessness and improve health outcomes in patients with IHD. Participants for this cross-sectional study will be recruited while hospitalized for an IHD event. Participants will include patients who report moderate to severe hopelessness from the sponsor's NIH-funded study (n = 225); additional patients with minimal to no hopelessness will be recruited and enrolled by the applicant (n = 45). Data collection will take place remotely two weeks after hospital discharge. Specific aims include: Aim 1) Evaluate the relationship between HRV and hopelessness in patients with IHD; Aim 2) Determine the relationship between PSS and hopelessness in patients with IHD; and Aim 3) Explore the possible mediating effect of HRV on the relationship between PSS and hopelessness in patients with IHD.
The primary aim of this randomized clinical trial is to determine the effectiveness of a 16 wk individualized aerobic exercise program, using heart rate variability to guide the exercise prescription, for increasing aerobic capacity of individuals with type 2 diabetes, compared to a traditional exercise training paradigm and usual care. To accomplish this aim the investigators plan to test for greater improvements in: 1) fitness (primary outcome); as well as secondary variables of 2) cardiovascular autonomic function via baroreflex function; 3) glucose control (HbA1c); and 4) psychosocial factors.
The primary objective of this study is to determine whether the effect of continuous positive airway pressure (CPAP) therapy on 24-hour mean blood pressure (BP) in patients with obstructive sleep apnea (OSA) varies between symptom phenotypes.
The investigators predict that decreased heart rate variability and poor sleep quality will be significantly correlated with higher self-reported anxiety following brain injury.
Recent research has suggested that stress and anxiety levels are associated with gastrointestinal (GI) symptoms in endurance athletes (runners, cyclists, triathletes). Yet, there has been limited attempt to evaluate whether GI symptoms during running can be mitigated by interventions designed to reduce stress and anxiety. Thus, this study will evaluate the effects of four-week slow deep breathing and mindful breath counting interventions on subjective and objective measures of stress/anxiety and GI symptoms in runners with mild-to-high anxiety and that are prone to GI symptoms during runs.
This study examines heart rate monitoring variability for the early detection of pancreatic cancer. Pancreatic cancer is a very difficult disease to detect early. This study is being done to observe the heart rate variability in patients with pancreatic cancer compared to undiagnosed individuals with increased risk of developing pancreatic cancer. This may help researchers determine if pancreatic occurrences/recurrences (chance of coming back) can be detected sooner through monitoring heart rate and activity.
This study will be conducted by using two devices (Apollo and Biostrap) for monitoring of baseline physiologic variables and heart rate variability. The biostrap will be worn by residents and will monitor heart rate, heart rate variability, respiratory rate, sleep patterns, steps, etc. The Apollo is a pulse generator device aimed at modulating heart rate variability for (hopefully) reduction in stress and improving performance in and around the hospital. Resident neurosurgeons will wear the biostrap for a two week cycle and follow that with the addition of the Apollo device for heart rate variability modulation.
Patients undergoing hematopoietic stem cell transplantation (HCT) often continue to experience anxiety, depression, isolation, and other psychosocial distress due to the severe nature of the transplant experience. Storytelling interventions that provide an opportunity for emotional disclosure have shown preliminary efficacy to alleviate psychosocial distress and improve emotion regulation during health challenges. Not only are these changes observed in response to such interventions, but they can also be directly strengthened with HRV biofeedback (HRVB) training, a device-driven breath pacing practice that uses colored light signals to provide feedback to increase vagal tone and improve emotional responses and sleep quality by regulating negative affect and stress. This randomized controlled trial will explore the effects of HRV biofeedback (HRVB) training combined with a digital storytelling intervention and changes in psychosocial distress with a modified waitlist control in a population of Hematopoietic cell transplantation (HCT) patients.
The goal of this study is to test the effects of oxytocin on heart rate variability and pupil diameter, both of which have subtle effects on the activity rate of the autonomic nervous system.
Open trial of heart rate variability biofeedback as an adjunct to individualized smoking cessation counseling (SCT) plus transdermal nicotine replacement patch (NRT) in smokers with elevated emotional distress.
Primary Objective The objective is to determine the feasibility and agreement of remote evaluation of resting heart rate and HRV using the commercially available WHOOP® wrist monitor, compared to in-office measurements using AtCor Medical SphygmoCor HRV Software, in a cohort of 40 St. Jude Life Study participants with a history of mantle radiation for management of Hodgkin lymphoma. Elucidating the mechanisms that contribute to adverse cardiovascular outcomes and reduced quality of life among the growing population of childhood cancer survivors is paramount. Cancer, certain cancer drugs, radiation therapy, cancer-associated lifestyle disturbances, and cancer-independent comorbidities combine to predispose cancer survivors to autonomic dysfunction (AD). Reduced heart rate variability (HRV) has been described in various cancer cohorts. Furthermore, these markers of AD have been implicated in adverse outcomes in oncology patients, including increased mortality, exercise limitation, and fatigue. However, data are largely derived from small studies with methodological limitations, and the contribution of AD to overall morbidity and mortality in cancer survivors is not well understood. The objective is to determine the feasibility and agreement of remote evaluation of resting heart rate and HRV using the commercially available WHOOP® wrist monitor, compared to in-office measurements using AtCor Medical SphygmoCor HRV Software, in a cohort of 40 St. Jude Life Study participants with a history of mantle radiation for management of Hodgkin lymphoma.
To study whether heart rate variability training and respiratory coherence can improve hypertension in individuals with FXTAS. All patients will receive HRV biofeedback training for 20 sessions. Our hypothesis is that individuals with FXTAS who undergo 20 sessions of biofeedback training will improve self-regulatory skills for reducing hypertension, as measured by blood pressure measurement to below 140/90. The investigators hypothesize that individuals who successfully develop increased heart rate variability and better synchrony between heart rhythm and respiration will show the greatest improvements in self-regulatory skills for hypertension.
Heart rate variability biofeedback (HRV-B) is a complementary, non-pharmacologic therapy that is being tested to see if it can help cancer survivors reduce their symptoms of pain, stress, insomnia, fatigue, or depression. HRV-B is an interactive procedure in which participants relax and breathe regularly while watching the a computer screen. The computer screen provides feedback that helps people increase their heart rate variability.
The purpose of this study is to examine the effects of heart-rate variability biofeedback training on lung cancer patients receiving definitive radiation therapy. The target population consists of non-small cell lung cancer (NSCLC) patients receiving 6 weeks of radiation therapy. The study will utilize the Physiolab GP8 heart rate variability and respiration system to collect data as well as several survey instruments to analyze quality of life measures. The goal is to show the HRV training can improve certain QOL measures like anxiety and sleep quality.
Previous research suggests that heart rate variability (HRV) biofeedback aimed at increasing HRV can reduce anxiety and stress. However, some mental quiescence practices that reduce HRV during the practice sessions also lead to positive emotional outcomes. Thus, it is not obvious that the benefits of HRV-biofeedback accrue due to increasing HRV during the session. An alternative possibility is that the benefits arise from engaging prefrontal control over heart rate. In this study, the investigators will test two possible mechanisms of the effects of HRV on emotional health by comparing two groups. In one group, participants will be asked to engage in daily training to decrease HRV using the HRV biofeedback device. In the other group, participants will be asked to engage in daily training to increase HRV using the HRV biofeedback device. This will allow analyses to pit two possible mechanisms against each other: 1. Mechanism 1: engaging prefrontal control over heart rate is the critical factor that allows HRV biofeedback to help improve well-being. In this case, well-being should increase over time in both groups, as both training should engage prefrontal cortex to implement self-directed control over heart rate. Strengthening prefrontal control mechanisms may help improve emotion regulation in everyday life. 2. Mechanism 2: increased HRV during the training sessions leads to greater functional connectivity among brain regions associated with emotion regulation during the high HRV state. In this case, improved well-being would be specifically associated with having time each day during which there were very high HRV states, and so improved well-being should be seen only in the group in which participants get biofeedback to increase HRV.
Identification of patients who are at highest risk for heart attack is an important task for emergency medicine physicians. Currently, physicians use a variety of different scoring systems to stratify their risk for having a heart attack. Heart rate variability (HRV) is a measure derived from noninvasive cardiac monitoring. This data is collected from a simple, non-invasive chest strap during a 10-minute recording session. The purpose of this proposal is to collect heart rate variability data on patients admitted to the emergency department with chest pain. The intent is to measure the association between heart rate variability and the various risk stratification scoring systems for chest pain.