89 Clinical Trials for Various Conditions
The goal of this 52 week prospective study is to learn whether a Diabetes Care Management Program using a continuous glucose monitor (CGM) and remotely monitoring (RPM) glucose readings can help improve glucose levels and diabetes related distress in individuals with uncontrolled type 2 diabetes. The CGM and RPM are used as an adjunct to usual care. The main questions it aims to answer are: Does use of CGM \& RPM improve A1c? Does use of CGM \& RPM improve the percent of time spent with glucose levels between 70-180 mg/dl? Does the diabetes care management program improve diabetes related distress? Participants enrolled in the study will be wearing a CGM. Participants will be able to see the glucose readings from the CGM and see how their glucose level responds to food, physical activity, medications and daily life. The diabetes primary care team will be remotely monitoring the participant's glucose data from the CGM. They will reach out to the participant to make adjustments in treatment regimen as needed. Participants will answer a "Problem Areas in Diabetes"questionnaire that asks questions about diabetes related distress.
Previous research has investigated the use of remote patient monitoring in various clinical contexts, however there has not been a clinical trial examining use of the VitalCare platform for ambulatory management of heart failure. This trial will serve as a pilot study examining the feasibility of use of the VitalCare platform for ambulatory heart failure management and examine the effect of remote patient monitoring on patient engagement. To the investigators' knowledge, this will be the first study examining the effect of remote patient monitoring with the VitalCare platform on heart failure clinical outcomes, such as hospitalization for heart failure exacerbations and emergency room visits for heart failure.
A longer-term follow-up of patients with remote patient monitoring ordered from the initial six pilot primary care clinics (from the prior study periods: Study 1 and Study 2) will be performed and compared to a cohort of patients without RPM orders, matched on clinical and demographic characteristics, from the same six pilot primary care clinics, to serve as contemporary controls.
This is a randomized controlled trial of the use of Remote Patient Monitoring (RPM) compared to usual care among rural patients with poorly controlled type 2 diabetes. Usual care is defined as participation in Living Well with Diabetes/Virtual Diabetes Self-Management Program and Primary Care Provider evaluation and management at the providers' discretion, including medication adjustment or interventions, and other types of interventions depending on clinical judgement.
High blood pressure, also known as hypertension, affects nearly half of all Americans and increases the risk for heart disease and stroke. Only about half of people with high blood pressure have it under control. New methods to control blood pressure are needed to reduce heart attack and stroke rates. The purpose of this study is to test whether a digital program that includes personalized health coaching and remote patient monitoring with a connected blood pressure cuff, all delivered on a smartphone or website, can improve blood pressure control compared with usual care among patients with high blood pressure.
This study is a device study that will use a double-arm. It will integrate the ANNE ONE platform which continuously tracks enrolled COPD patients' vital signs and symptoms over the course of the study and digitally shares that data with providers for clinical interpretation, potential intervention and treatment decision making and will help evaluate the impact on participating patient's COPD Assessment Test (CAT) scores. Subjects will be recruited from Emory clinics and identified via a data pull based on clinical relevant codes. Letters will be sent out to eligible candidates and interested participants will contact the research team. The research team will consent them over the phone and mail the device to them; participants will be compensated.
The investigators will conduct a pragmatic pilot test of a remote patient monitoring system (RPM) for blood pressure measurement for Medicare patients with hypertension with and without the support of a care management program. The primary objective is to better understand how patients' remote monitoring of blood pressure and the direct transmission of this data to a healthcare system's EHR can be used by the patient and the care team to support optimal hypertension care and whether the addition of active care management increases the use of RPM and improvements in blood pressure. This pilot study will be conducted in four Northwestern Medical Group (NMG) primary care practices. Two practices will have RPM available for primary care physicians to order for their eligible Medicare patients and two practices will also receive the support of a care management program to assist with patient enrollment, blood pressure monitoring and taking action in the setting of uncontrolled blood pressure. The investigators will conduct a pragmatic non-blinded, non-randomized pilot study with contemporaneous controls among NMG outpatient clinics that provide adult primary care. They will make comparisons of data obtained through the course of routine care delivery from pilot and non-pilot practices.
The investigators will conduct a pragmatic pilot test of a remote patient monitoring system (RPM) for blood pressure measurement for Medicare patients with hypertension. The primary objective is to better understand how patients' remote monitoring of blood pressure and the direct transmission of this data to a healthcare system's EHR can be used by the patient and the care team to support optimal hypertension care. This pilot study which we will conduct in two Northwestern Medical Group (NMG) primary care practices will: evaluate the integration of Omron's remote monitoring system into Northwestern Medicine's electronic health record (so that clinical data can flow directly from the patient's monitor to the EHR), evaluate the use of billing work flows for covered Medicare services, build and deploy clinical decision support to aid with patient identification and ordering of the remote patient monitoring system, and evaluate the uptake and clinical effects of this system in the pilot practices compared to matched patients selected from non-pilot control practices. The investigators will conduct a pragmatic non-blinded, non-randomized pilot study with contemporaneous controls among NMG outpatient clinics that provide adult primary care. They will make comparisons of data obtained through the course of routine care delivery from pilot and non-pilot practices.
The purpose of this study is to investigate whether automation of glucose monitoring data to facilitate the total number of recommended and completed SMBG checks improve clinical outcomes for women living with gestational and type 2 diabetes during pregnancy? This is a RCT
The goal of this study is to examine the feasibility and efficacy of a remote patient monitoring system for children who are obese.
This study will use a randomized, crossover design. Children aged 13-18 years who have been diagnosed with Type 1 diabetes for at least 1 year and with at least 2 Hemoglobin A1c values ≥10.0% more than 60 days apart within the past year, with the most recent HbA1c value between 10-14%, will be placed into two separate treatment groups. Group A will undergo home monitoring for 12 weeks through the use of the Vivify kit, which contains a wireless tablet with daily medication/diet/symptom questionnaires. Group B will initially continue diabetes management per standard of care, including quarterly office visits. After a period of 12 weeks, Group B will switch to the RPM protocol, while Group A will return to standard of care. Both groups will have HbA1c values checked at the 0, 3, and 6 month time periods to assess the effect of the remote monitoring protocol. Participation in the RPM protocol will involve daily completion of the Care Plan questions, as well as weekly uploads of blood glucose values using the Glooko, Inc (Mountain View, CA) application, and weekly video visits with a member of the endocrinology team that will aim to address barriers to optimal care, whether they be motivation, knowledge or other difficulties. Barriers to care will be assessed in part through the completion of knowledge and self-efficacy assessments.
The purpose of this study is to see if Honeywell Genesis Android Touch Bluetooth System (mobile health) can improve patient satisfaction and quality of care provided to women experiencing complications due to high blood pressure during pregnancy.
This study will evaluate the performance of the Zephyr BioPatch in measuring heart rate, respiration rate, posture, and activity level compared to reference devices in healthy adult subjects during a variety of situations including hospital room movements, talking, and a short bout of exercise.
Telehealth remote patient monitoring is a means of using communications technology - such as telephones, computers, and the Internet - to connect patients remotely with their healthcare team from their homes. The investigators hope to learn more about improving healthy behaviors and blood glucose among persons with diabetes using telehealth remote patient monitoring technology to connect directly with nurse care coordinators. The purpose of this study is to evaluate a process for improving blood glucose and healthy behaviors among people with type 2 diabetes using telehealth remote patient monitoring technology with nurse care coordinators. Some of the people in this study will work with a nurse care coordinator who will review your blood glucose weekly and call you at home every month for 3 months, while some of the people in this study will simply receive their normal care. At the end of the study, every participant will be asked questions about how they feel about their health care.
The goal of this observational study is to evaluate the feasibility and acceptability of a 12-week intervention utilizing a Fitbit and artificial intelligence (AI)-delivered diabetes self-management education and support (DSMES) with tailored text messages. The main question it aims to answer is: Does providing a wearable fitness and activity tracker plus AI-tailored and DSMES improve clinical outcomes for patients with type 2 diabetes? Participants will complete a baseline visit, wear a Fitbit and answer text messages for 12-weeks, and complete by a final visit.
Antenatal nonstress tests (NSTs) are performed to assess fetal health and are used as a cost-effective test that can be widely administered. However, an NST is operator-dependent due to the nature of Doppler ultrasound and is primarily performed in a clinic and hospital setting. The ability to conduct a clinically valuable test at home would address access to care issues faced by numerous women in the United States and reduce the workload on healthcare clinicians facing a shortage of human resources. This pilot study aims to assess the feasibility and acceptability of home NST monitoring in order to determine whether femomTM could be utilized as an adjunct to routine prenatal care. Patients with high risk pregnancies who are recommended to undergo at least once weekly at 32 weeks testing by the obstetrician will be recruited for participation in this study. Participants will be asked to perform three 30 minute monitoring sessions weekly starting at 32 weeks for 6 weeks.
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
This study is being done to adapt the Staying Healthy After Childbirth (STAC) intervention for implementation among Black Women and Birthing Persons (WBP).
This is a single-site, stratified grouping parallel- randomized control trial design comparing 30-day all-cause readmission rates and parent experience with two groups of pediatric participants.
Patient populations at community health centers, specifically Black or African American and Hispanic or Latino populations with Type 2 diabetes, experience significant health disparities. In particular, they have higher rates of diabetes-related complications and other related conditions such as myocardial infarction, cerebrovascular disease, kidney failure, blindness, neuropathy, and the risk of amputation. Diabetes affects 34 million adults in the US. Achieving a target HbA1c less than 8% can be challenging through diabetes management. Patients are able to monitor their blood glucose levels with devices such as blood glucose meters or continuous glucose monitors to facilitate diabetes management and glycemic control. Past studies have demonstrated that these devices are effective in engaging patients in the improvement of diabetes management. Current advancements in remote patient monitoring and self-monitoring have been observed to be effective in facilitating improvement in diabetes outcomes. However, the effectiveness and financial feasibility of these devices delivered in conjunction with automated patient engagement systems in remote patient monitoring programs is not well understood among underinsured, underserved, and vulnerable minority populations as they face a high-cost barrier particularly with continuous glucose monitors. To better address this gap in knowledge, this pilot study will compare and examine the effectiveness of these interventions on patient outcomes with Type 2 diabetes among populations in the West Side of Chicago. Study the comparative effectiveness among patients with uncontrolled Type 2 diabetes on insulin in an intervention group using remote patient monitoring and automated patient engagement system with blood glucose monitors to a group using a self-monitoring program with continuous glucose monitors and a usual care group receiving standard care. Conduct a feasibility analysis and financial impact of these programs among an underinsured and underserved population of Black/African Americans or Hispanic/Latinos with Type 2 diabetes.
The goal of the 4T program is to implement proven methods and emerging diabetes technology into clinical practice to sustain tight glucose control from the onset of type 1 diabetes (T1D) and optimize patient-reported and psychosocial outcomes. The investigators will expand the 4T (Teamwork, Targets, Technology, and Tight Control) program to all patients seen at Stanford Pediatric Diabetes Endocrinology as the standard of care. Disseminating the 4T program as the standard of care will optimize the benefits of diabetes technology by lowering HbA1c, improving PROs, and reducing disparities.
The goal of this pilot clinical trial is to determine feasibility and explore whether immediate versus delayed patient financial incentives improve patient engagement with self-monitoring of blood pressure in patients with uncontrolled hypertension at Louisiana federally qualified health centers (FQHCs). The main questions it aims to answer are: * Do patients randomized to receive financial incentives on a weekly basis during the study (immediate) have better adherence to blood pressure self-monitoring compared to patients randomized to receive financial incentives at the end of the study (delayed)? * Do patients randomized to immediate financial incentives have better blood pressure control compared to patients randomized to delayed incentives? Participants will: * attend a baseline visit to measure blood pressure, respond to a baseline survey, and receive remote patient monitoring devices and instructions to take home with them (home blood pressure monitor, wrist-worn sensor to track sleep activity, and associated apps) * receive a random allocation to one of two groups: control condition (receive cash incentives at the end of the study for measuring blood pressure as instructed) or intervention condition (receive weekly cash incentives throughout the study for measuring blood pressure as instructed) * use remote patient monitoring devices during a two month study period, receive weekly reports on adherence to blood pressure monitoring, and receive weekly financial incentives (intervention condition only) * attend one follow-up visit at 2 months to measure their blood pressure, complete a follow-up survey, return the remote patient monitoring devices, and receive financial incentives for blood pressure monitoring (control condition only) Researchers will compare the immediate and delayed incentive groups to see if there are differences in blood pressure monitoring adherence rates and blood pressure control.
This study seeks to develop the evidence for a sustainable, community-partnered, multi-level health system strategy to improve blood pressure control. Two team-based approaches are being tested: 1) a medical model of remote BP management (RBPM) alone, and 2) RBPM plus a social model with a community health worker (CHW). These 2 strategies are being compared with a standard community screening program with referral to primary care.
Some children who are born very early or have other congenital conditions may develop severe, long-term lung problems that make them need to use a breathing machine to live at home. There are no studies that identify the best ways to monitor a home breathing machine or adjust its settings. Increasingly, healthcare systems are using information collected at home to make more informed decisions about a patient's healthcare treatment, which is called "remote patient monitoring". This study will ask whether using remote patient monitoring can provide more complete information to a child's team of doctors, nurses, and respiratory therapists to help a child's healthcare team and family make more informed decisions about a child's home ventilator care. The investigators are hypothesizing it can safely decrease the level of breathing support children need while also avoiding emergency and hospital care and supporting their growth, development, and participation in daily life.
The goal of this research is to determine whether a theory-informed implementation strategy is successful at increasing the uptake of a supported home blood pressure monitoring (HBPM) program as well as to determine the effectiveness of this evidence-based practice when implemented across multiple practices serving a diverse patient population.
Cognitive frailty, characterized by the coexistence of physical frailty and cognitive impairment, is a robust indicator of cognitive decline. Recognizing its significance, the International Association of Gerontology and Geriatrics and the International Academy on Nutrition and Aging have advocated for the use of cognitive frailty assessment as a means of monitoring the progression of mild cognitive impairment towards debilitating conditions like dementia, Alzheimer's disease, and loss of independence. Despite the clear need, a practical and remotely accessible tool for measuring cognitive frailty is currently lacking, especially within the context of telehealth visits. With telehealth video-conferencing becoming increasingly popular, accepted by healthcare payers, and preferred by older adults who may face difficulties traveling to a clinic, there is a pressing need for a software-based solution for remote cognitive frailty assessment that can be easily integrated into existing telehealth systems. This study proposes designing and validating a video-based solution to remotely monitor cognitive-frailty in older adults.
The goal of this hybrid implementation-effectiveness study is to evaluate the effectiveness (hastened recovery times) and feasibility (fidelity in connecting to concussion specialty care) of a novel mobile health intervention, designed to reduce disparities in access to specialty care through the use of remote patient monitoring (RPM) to facilitate care hand-off from the emergency department (ED) to concussion specialty care. Participants will report their symptoms and activity once daily through RPM chat technology that is linked to their electronic health record and prompts referral to specialty care.
This pre/post study was a retrospective analysis of unplanned hospitalization rates in a cohort of COPD subjects started on remote physiologic monitoring (RPM) at a large, outpatient pulmonary practice. The study included all subjects with high healthcare utilization (≥1 hospitalization or emergency room visit in the prior year) who had elected to enroll in an RPM service for assistance with clinical management. Additional inclusion criteria included being on RPM for at least 12 months and a patient of the practice for at least two years (12 months pre- and post-initiation of RPM).
The goal of this study is to support patients with hypertension self-management using both home blood pressure monitors and digital messaging programs. The investigators will first engage patients with technology training to use home monitors, online portal websites to view their medical record information online, and texting and mobile phone applications. Then investigators will assess the effectiveness of home blood pressure monitors and enhanced patient-clinician digital communication on blood pressure control during a 12-month intervention.
The overall objective of this proposal is to evaluate the feasibility of a comprehensive digital atrial fibrillation (AFib) management tool that will empower patients to a) take an active role in learning about AFib management options, starting and adhering to evidence-based therapies and lifestyle changes and b) to guide the patients during AFib episodes which are associated with anxiety and impairment in quality of life. Researchers plan to evaluate the feasibility and preliminary efficacy of this novel digital toolkit in improving quality of life and decreasing AFib burden in a pilot randomized clinical trial (RCT).