View clinical trials related to Remote Monitoring.
Filter by:A mixed-methods study will be used to evaluate the use of standard of care periodic pulse oximetry by parents/LAR and the feasibility of the collection of physiologic data related to the use of the Pediarity System. This system includes the Gabi Band and software platform (Gabi Analytics).
The goal of this clinical trial is to test a mobile application amongst caregiver's supporting patients diagnosed with Alzheimer's Disease and Related Dementias (ADRD). The main question it aims to answer is: Will caregivers supporting patients diagnosed with ADRD utilize a mobile application to routinely report symptoms of the patients they care for?
We will conduct a two-group randomized controlled trial to examine the eMocha DOT intervention with pediatric HT recipients.In this population, medication nonadherence remains a primary cause of late acute rejection (LAR) episodes, increased number of hospitalizations, graft failure, and patient mortality. Herein, we propose an innovative approach to promote medication adherence and improve patient and graft outcomes.
A reliable method for monitoring stress and burnout among medical students is critically needed. To address this gap, our team aims to utilize the cost-effective WHOOP strap 4.0 wearable device to continuously capture stress-relevant physiologic data (i.e., sleep hours, heart rate variability, respiration rate, resting heart rate) among up to 50 third-year medical students at 24 Sidney Kimmel Medical College at Thomas Jefferson University for 6 months.
Heart failure (HF) is a leading cause of hospitalisation and disability-adjusted life years lost, with mortality rates exceeding most cancers. Despite compelling evidence and recommendations, less than 20% of the HF patients are followed-up by the specialist healthcare after hospital discharge. Due to limited outpatient capacity, human resources and increasing incidence of HF over the next decades, new care models are obviously needed. Remote monitoring (i.e. telemonitoring) encompasses the use of audio, video and other telecommunication technologies to monitor patient status at a distance. Remote monitoring is a promising strategy that can facilitate rapid access to care when needed and reduce patient travel to hospital consultations. It also promotes self-care behaviour, psychosocial support, and early detection of cardiac decompensation. Despite intensive research for >10 years, randomised trials show conflicting results, and European HF guidelines are confined to a weak (class IIb, level of evidence B) recommendation. More knowledge about the role of remote monitoring strategies in HF management, especially in the transition from hospital to home, is thus requested in the most recent European and US guidelines. In particular, studies of high-risk patients integrating the community health services are largely lacking. Furthermore, the components of the intervention that mediate the effect need to be identified. The proposed study aims to address these gaps in evidence and assess whether individually tailored remote monitoring at home (IT-HEART) is improves clinical outcomes in patients hospitalized with decompensated HF. We also aim to identify modifiable clinical and behavioural (drug adherence, self-care, psychological factors) outcome predictors. A prospective, multicentre, randomized, open-label, blinded endpoint adjudication (PROBE) intervention study is designed and powered to include at least150 patients with at least one HF hospitalization in the 12 months preceding enrolment. To ensure generalizability, patients will be included regardless of comorbidity, frailty and ejection fraction. We have conducted a pilot-study providing empirical evidence for the expected participation rate, readmission rate and barriers to HF management in current clinical practice that will be targets for the intervention. This will promote high adherence to the intervention and positive long-term clinical and health economic effects.
A single site, cross-sectional, feasibility study will be used to evaluate the feasibility of the collection of physiologic data related to the use of the Vitls Platform in the pediatric (< 2 year of age) congenital heart and general surgery populations in the hospital setting that is using 24 hour a day monitoring for routine care over a 48-hour period. A short questionnaire will be sent electronically for the parent-child dyad feedback after the participating child has worn the device. No data will be available at the time of placement for the Healthcare team and will not replace any routine/standard of care monitoring already in place for this complex population.
The purpose of the clinical investigation is to document the safety and the performances of the remote monitoring functions of the ALIZEA, BOREA and CELEA pacemakers, i.e. the RAAT, the RVAT and the remote alerts.
Actually, there are few data about the effectiveness of remote monitoring (RM) and patient centered alarms setting in patients with unexplained syncope underwent implanted loop recorder (ILR) monitoring. The aim of this study is to evaluate the time from onset of first physician's evaluation of asyntomatic ECG events lead to medical treatment in ordinary clinical practice for syncope patients with ILR patients and compare it between patients followed with RM or conventionally with annual in-hospital visits.
This study is designed to determine the perceived value of continuous remote monitoring to surgeons and surgical patients at Mayo Clinic in Rochester, MN, and determine whether algorithms can be generated to predict risk of readmission following discharge. This initial study will be conducted through the Department of Cardiovascular Surgery.
This pilot project will evaluate Internet-based remote access to electronic clinical systems to support study monitoring tasks. The project engages two NIH-sponsored clinical trial networks (adult: ARDS network; pediatrics: ChiLDREN network) at five trial locations and two coordinating centers located across four states, which engages three collaborating NCRR-funded CTSA institutions. Each study location uses different electronic clinical systems and remote access methods, replicating the diversity of clinical applications and access methods found across large research networks. The results of this pilot project will inform a broader project that will engage all trial sites with electronic clinical systems in both national networks. This proposal extends Specific Aim 1.2 of the Research Informatics Integrated Core (RIIC) in the parent grant (UL1 RR025780) for the Colorado Clinical and Translational Sciences Institute (CCTSI): "The RIIC will develop and implement tools and services that will….(2) support the efficient execution of the CCTSI translational research projects." (CCTSI grant page 1053). Specific Aim 1.2 proposes to develop new informatics methods that increase the translational research capacity by improving the efficiency of executing clinical studies. Reducing barriers to study monitoring via remote access will enable new innovative approaches to protecting study subjects, ensuring study data quality and documenting regulatory compliance. An example of a completely new model for study monitoring could be continuous study monitoring from any coordinating center to any study location in the Internet-connected world. We hypothesize that remote monitoring will demonstrate substantial improvements in study monitoring efficiency, effectiveness, and possibly overall costs when compared to present monitoring plans that require a prolonged on-site visit by a study monitor from the coordinating center. We do not claim that remote study monitoring will replace all monitoring tasks . But, for monitoring tasks that require access to electronic clinical data, we seek to demonstrate that remote access can enable more frequent SDV and regulatory documentation compliance, which in turn could facilitate new models of continuous study monitoring. The results of these studies would support improvements in study monitoring that would both significantly reduce the cost of conducting large multi-center clinical while improving the safety of those patients who are enrolled into these trials