108 Clinical Trials for Various Conditions
The purpose of this study is to pilot test the feasibility of providing patients diagnosed with a hematologic malignancy, undergoing an allogeneic bone marrow transplant, a wearable device and smartphone app (similar to a Fitbit), that would send personalized reminders to move during their post-transplant inpatient hospital stay to promote physical recovery and well-being.
The goal of this clinical trial is to learn how integrating health and wellness coaching (HWC) with Continuous Positive Airway Pressure (CPAP) therapy affects adherence to treatment and overall health outcomes in individuals with obstructive sleep apnea. The main questions it aims to answer are: * Does HWC improve CPAP adherence compared to standard care, in terms of device usage metrics (hours per night and days per month)? * How does combining HWC with weight management influence CPAP adherence and weight loss? * What are the differences in treatment outcomes between individuals receiving standard care and those receiving HWC? Researchers will compare two groups: * Standard Care Group: Participants receiving standard CPAP therapy without additional health coaching. * HWC Group: Participants receiving CPAP therapy combined with health and wellness coaching focused on weight management and sleep hygiene. Participants will: * Attend 2 in-office visits with a study physician (2 hours maximum) * Have 6 virtual visits via video with a study health coach (3 hours maximum) if in the HWC group This study aims to provide valuable insights into enhancing treatment outcomes for individuals with sleep apnea by integrating health coaching with CPAP therapy.
Creation and use of a smartphone application for older adults to assess the participants' risk of fall. Phase 1: Compare the accuracy and validity of accelerometer and gyroscopic data from a smartphone and gold-standard, wearable sensors gathered during balance and gait activities. Phase 2: Develop a model that integrates wearable sensor data and individual characteristics, such as age, medical conditions, exercises, previous falls, fear of falls, along with gait and balance outcome measurements, to evaluate fall risk in older adults. Phase 3: Integrate the computational model in the design of a mobile app for wearable devices for older adults to self-administer fall risk assessments and provide individualized risk of fall information.
This phase III trial evaluates whether patient care can be done remotely for patients having cranial (skull) radiation or who have previously had cranial radiation. In addition, this trial compares study outcomes between patients who get metformin and those who do not. Cranial radiation, an essential component of brain tumor treatment, can result in significant negative effects on cognitive (the ability to clearly think, learn, and remember) function. Wearable devices have been used in the field of neurology for seizure detection and assessment of patients with movement disorders. Wearable device technology has also been implemented for remote monitoring of cancer patients and for cancer clinical trials. Metformin is the active ingredient in a drug used to treat type 2 diabetes mellitus (a condition in which the body cannot control the level of sugar in the blood). It is also being studied in the treatment of cancer. Use of metformin may reduce risk of cognitive decline following radiation therapy within the skull (intracranial). These effects may be further strengthen by addition of device-based physical activity promotion. Mayo Test Drive is a web-based platform for remote self-administered cognitive assessment. Using Mayo Test Drive may help determine whether patient care can be done remotely, while simultaneously evaluating benefits of health promotion through use of a wearable watch device and metformin in preventing radiation-related cognitive decline.
The goal of this clinical trial in adults with obstructive sleep apnea prescribed positive airway pressure therapy is to test the effects of a new patient-facing consumer wearable-based program (that involves provision of a consumer wearable that measures oxygen levels during sleep plus customized weekly reports to participants). The main question is to learn whether participants' use of positive airway pressure therapy will differ between the participants who receive the new program immediately versus delayed. Participants assigned to the delayed program will receive usual care while waiting for the program to begin.
The purpose of this research is to observe the daily loss of benefit from DBS therapy by performing a standardized set of tasks throughout the day while wearing an Apple Watch to collect movement and other physiological data.
The purpose of the study is to help determine if a wearable sleep wellness device improves sleep among adults with insomnia. This study will enroll a total of 60 participants for this remotly conducted study and randomize 1:1 for treatment and control. Aim 1 of the study is to test the effects of the sleep wellness device compared to a placebo device on sleep after 28 days of use. Aim 2 of the study is to test the longer term effects of the sleep wellness device at 3 month follow-up.
The purpose of this research is to determine if data from smart devices, including heart rate and movement during sleep and wake times, will be able to track headaches and predict recurrence and exacerbations (make worse). This use of this information may in the future allow patients earlier and more effective treatments if these devices can help predict when the headaches may occur.
To further characterize Long COVID-19 by collecting data from individuals who already own wearable devices or are provided with a wearable device along with basic and enhanced educational materials to determine if both can improve Long COVID-19 symptom management and post-exertional malaise.
This study is open to adults aged 18 years and older who have pulmonary fibrosis with or without a known cause (or other forms of pulmonary fibrosis). The purpose of this study is to better understand coughing in people with pulmonary fibrosis. To do this, a wearable cough monitor called Strados Remote Electronic Stethoscope Platform (RESP) is used. This device will measure how often and how forceful coughing is in people with pulmonary fibrosis. All participants in the study get the device. It is placed on their skin over the chest. Participants are in the study for 3 months. During this time, they visit the study site 2 to 3 times. 4 visits are done at the participant's home by video call with the site staff. During the study, the device measures coughing over 24 hours. This is done on 4 days. Participants fill in questionnaires about their coughing and doctors regularly check participant's lung function. A breathing test that measures how well the lungs are working is performed both in the office and during home visits. The doctors also regularly check participants' health and take note of any unwanted effects. This study will also record patients' experiences using the cough monitor and video assisted breathing tests at visits 3, 4, 5 and 6 at home.
The purpose of this research is to search for reproducible changes in a wide range of physical signals, including heart rate, muscle tone and activity and EEG before and at the onset of seizures in patients with epilepsy.
This study will examine the pain-relieving effects of a transcutaneous electrical nerve stimulator device called a Quell for persons with multiple chronic overlapping pain conditions.
This study aims to promote daily physical activity in cancer survivors who are at high risk for type 2 diabetes (T2D) by using a personalized biological-based feedback strategy. T2D is one of the most common co-occurring conditions in cancer survivors and can worsen cancer-related health outcomes, especially in those who are insufficiently active. The investigators hypothesize that seeing the immediate impacts of exercise on their biological status will motivate cancer survivors to exercise. The investigators will use real-time data from continuous glucose monitor to demonstrate the acute impact of physical activity and measure daily activity levels using wearable trackers. As wearable sensor technology is constantly advancing, this study is the first step to exploring how researchers can use wearable sensors to help people make a direct connection between their daily behaviors and health outcomes.
The purpose of this study is to use a minimally invasive erectile device for patients suffering from erectile dysfunction.
The Survivor mobile health (mHealth) study is testing the use of wearable devices (Fitbits) and a smartphone application in cancer survivors. The goal of the program is to increase survivor's physical activity levels. The Fitbit will be synced to the app and participants will receive messages and notifications about their activity levels. Participants will also complete surveys through the app asking how useful it is and ways to improve it. The study team will conduct qualitative interviews at the completion of the 3 months to see how participants liked the program, and ways it can be improved and make it more specific to cancer survivors. The study team will also conduct interviews with providers and clinic staff to assess their perceptions of patient digital health programs and preferences for receiving patient-generated health data.
The cardinal motor features of Parkinson's disease (PD) include bradykinesia, rest tremor, and rigidity. Though non-motor features have been recognized for centuries, only recently has the prevalence and impact of non-motor symptoms become the focus of intense study. Disturbances of sleep are among the most common non-motor manifestations of PD; approximately two-thirds of PD patients experience sleep dysfunction of some kind. Given that sleep contributes to the regulation of many physiological processes, sleep disturbance has a significant impact on quality of life in PD, and places high strain on caregivers. Though numerous symptomatic therapies exist, the treatment of sleep disorders in PD is limited by a lack of adequately powered, randomized studies providing high quality evidence. Although deep brain stimulation (DBS) is primarily used to treat PD motor symptoms and reduce the need for dopaminergic medications, several studies have shown that DBS provides benefit for non-motor symptoms, including sleep disturbance. Few studies have used an objective measure to assess the impact of DBS on sleep in PD, and none have done so by studying sleep in the home environment. Existing studies have largely been limited to a single night of sleep recording in a sleep lab. Furthermore, no studies have assessed sleep both on and off medication, before and after DBS implantation. This study will enroll patients undergoing evaluation for DBS implantation. Sleep will be assessed before DBS implantation, both while patients continue their usual medication regimen and while withholding medications. After DBS implantation and programming, sleep will again be assessed with stimulation on, both while continuing medications and subsequently while withholding medications.
The purpose of this study is to asses the function of an oxygen sensor and the movement sensor in a novel device prototype.
An estimated 70% of the 7.2+ million people in the U.S. with Alzheimer's Disease and Alzheimer's Disease-Related Dementias experience agitation, characterized by poorly organized and purposeless psychomotor activity that diminishes their quality of life. The goal of this Small Business Innovation Research (SBIR) project is to develop a wearable therapy device that automatically senses rising agitation, and alerts caregivers while deploying calming voice and music therapy to help them avoid crisis level behavior. This device will improve health outcomes for AD/ADRD sufferers and reduce the substantial stress suffered by their caregivers.
The purpose of this study is to collect clinical data, biological specimens (e.g., blood, tumor, cerebrospinal fluid, urine sample, etc.), and digital health data from patients with tumors, cancer and/or neurological disorders in order to perform research studies that could advance patient care. By collecting these specimens, the investigators plan to create and maintain a biorepository to make data and specimens available to collaborating investigators performing research to discover predictive biomarkers, patterns of care, and personalized treatments that could directly improve the care of our patients through focused proof-of-concept clinical trials.
The overarching goal of this research is to use machine learning analysis of high-resolution data-collected by wearable technology-of cardiothoracic surgical patients to assess recovery and detect complications at their earliest stage
Acucela Inc. intends to develop a medical device to significantly halt or reverse myopic progression, which is a significant public health concern across the world, especially in Asian demographics. Acucela is working towards a spectacle-like device (eSPECs), which will have a clear zone for unimpeded central visual tasks and a periphery that provides defocus in order to alter retinal physiology leading to myopia regulation. This study will establish the changes seen during a proof-of-concept that projected defocus in the periphery utilizing a wearable device will stimulate physiological changes similar to those in the literature.
Trichotillomania is characterized by recurrent hair pulling resulting in hair loss causing significant distress and impairment which persists despite repeated attempts to stop. Behavioral based therapies focused on increasing awareness of hair pulling followed by the use of an incompatible behavior have proven effective. In an effort to enhance awareness, a wrist worn motion detection device was created. In this study, we will test the feasibility of the HabitAware device and accompanying app as a system for delivering self-administered habit reversal training (HRT).
The objective of this study is to collect data comparing the Zensorium Biosensing Wearable Device (zBWD) to polysomnography (PSG) in individuals with Sleep-Wake Disorders. zBWD is similar to other wearable devices (e.g., fitbit and apple watch) that use an optical light sensor and Tri-axis Accelerometer to record steps, activity, sleep/awake states, sleep staging, and statistical variation of pulse pressure to track stress. Specifically, it is designed to report sleep duration, non-rapid eye movement (NREM) and REM sleep duration. However, zBWD has not been validated against PSG for sleep tracking in healthy controls or in individuals with sleep-wake disorders.
Over 5 million new cases of skin cancer are diagnosed in the United States each year, more than all other cancers combined. Most of these cases are caused by excess exposure to ultraviolet radiation from the sun and artificial sources such as indoor tanning. Melanoma, approximately 87,000 of the annual skin cancer cases and one of the more deadly skin cancers, is on the rise. Previous research on these individuals suggests that while some change how much time they spend in the sun and adopt ways to protect themselves when in the sun, many do not. In our previous study, we found that 20% of melanoma survivors reported a sunburn in the past year and 10% intentionally went outside for a tan, both strong indicators of inappropriate sun exposure. Melanoma survivors are at high risk of second melanomas, making it critical that they spend less time in the sun or take actions to protect themselves when they are in the sun. No studies to date have investigated technology-based strategies in melanoma survivors to improve sun exposure and protection behaviors. This project will test whether a wearable device that tracks sun exposure and provides alerts regarding sun exposure and protection behaviors will increase sun protection behaviors in melanoma survivors. The use of wearable technology devices (e.g., Fitbit) has grown quickly over the last decade and studies using these devices to promote physical activity and weight loss have been promising. We will test the technology device versus a similar control device in 368 melanoma survivors and compare sun protection behaviors between the two groups. This project has the potential to identify a strategy that could significantly lower the number of melanoma survivors who go on to have a second melanoma diagnosis. Importantly, this easy to use technology could also be utilized by survivors' family members, who are also at higher risk for melanoma, and the general population as a means to reduce risk of all forms of skin cancer.
This study is designed for patients with primary fibromyalgia (FM) pain. The overall aim of the study is to determine the effect of the high frequency Quell device to manage FM compared with a low frequency device. Investigators hypothesize that those assigned to using the high frequency Quell device will report reduced pain compared with those using the low frequency Quell device; with those using the high frequency device also showing more improvement in sleep, mood, and level of activity. Investigators also hypothesize that frequency of using the Quell (increased tolerability and adherence) will be correlated with greater reduction in pain.
Evaluate the benefits of Kinesia-360™ wearable technology in addition to standard clinical practice on improving Parkinson´s disease motor symptoms, Neupro dosing regimen and adherence to Neupro compared with only standard clinical practice.
The goal of this study is to determine the effectiveness of interactive feedback from a wearable device that senses hand function, the Manumeter, in improving upper extremity function in a pilot, randomized controlled trial with chronic stroke patients
The study approach is to leverage the most cutting-edge techniques of multi-omics biology, wearable physiology, and digital real-time psychology profiling and using machine learning models to understand the mechanisms underlying the strategies and techniques that enable participants the power to initiate and maintain sustainable behavior change. Over the years, millions of people worldwide have attended immersive personal development seminars aiming to improve participants' health behaviors and wellness. Nevertheless, there's a scarcity of large-scale studies to assess their effects on behavior change and investigate their mechanism of action. A recent publication by the Science of Behavior Change Program (SOBC), launched by the National Institute of Health (NIH), recognized that: "science has not yet delivered a unified understanding of basic mechanisms of behavior change across a broad range of health-related behaviors, limiting progress in the development and translation of effective and efficacious behavioral intervention." As such, understanding the mechanisms underlying sustainable behavior change is key.
Early ambulation of inpatients has been shown to be a key driver of decreased LOS and also reduced adverse events such as venous thromboembolism (VTE). We will test if a patient wearable device (pedometer) measuring steps and ambulation sessions decreases hospital LOS (primary outcome), decreases hospital LOS index (LOSI), decreases time to first ambulation, decreases time to first bowel movement (BM), decreases incidence of VTEs, and decreases costs (secondary outcomes). In a pilot randomized control trial, we will randomize 150 total adult patients admitted to UF Health Jacksonville in a 1:1 fashion to usual care and wearable pedometer or usual care. Patients randomized to the study intervention will receive a wearable pedometer upon admission, to be worn for the duration of their inpatient stay. Study outcome measures to be compared between the pedometer and no pedometer group include hospital LOS (primary outcome), hospital LOSI, time to first ambulation, time to first BM, incidence of VTEs, patient experience, and costs (secondary outcomes).
The goal of this study is to evaluate if a novel near-infrared spectroscopy (NIRS) device can accurately estimate blood pressure in newborns at risk for unstable blood pressure. The main questions it aims to answer are: * Can NIRS accurately estimate blood pressure when compared to the gold standard, arterial line blood pressure * Can NIRS accurately estimate blood pressure when compared to infants with cuff blood pressure monitoring Researchers will compare NIRS-based estimates to arterial line blood pressure readings and manual cuff measurements to optimize and validate the FlexNIRS device for neonates to accurately estimate blood pressure continuously and noninvasively. Participants will wear a small, noninvasive NIRS sensor on the forehead.