6 Clinical Trials for Various Conditions
The Remote Alert Pathway to Optimize Care of Cardiac Implantable Electrical Devices (RAPTOR-CIED) Study is a pragmatic, multi-center, randomized trial with 1:1 patient-level randomization comparing the safety and effectiveness of alert-driven care versus guideline-based care for patients with wireless cardiac implantable electrical devices (CIEDs). The study will be conducted in 2 phases: a Feasibility Phase and a Main Phase. This registration outlines the goals and design features of the Feasibility Phase of the study.
The purpose of this study is to evaluate the use of remote interrogation (readers) of CIEDs in evaluation of suspected TIA/stroke patients, HF or those experiencing syncope. This approach has the potential to advance the practice of CIED evaluation by staff without specialized training in cardiac electrophysiology (non-EP staff). We hypothesize that actionable events will be identified with use of CIED readers. These events may include identification of atrial fibrillation in TIA/stroke patients, percentage biventricular pacing in patients with HF or evaluation of arrhythmic events in syncope patients. We believe that non-EP staff will find CIED readers easy or very easy to use and that time from transmission to analysis for non-EP trained staff will be low.
We tested the effect of informational postcards on improving remote monitoring adherence among Veterans with pacemakers and implantable cardioverter-defibrillators in a stepped-wedge randomized controlled trial.
This study will utilize 3D mapping as a tool to explore electro-anatomical and electrocardiographic characteristics of the Left Bundle Branch Area. We plan on prospectively reviewing the data found from 3D mapping the left bundle branch implantation cases and using the data to improve understanding of electro-anatomical characteristics of this area for a better definition of the implantation target and depth.
Several studies have shown that specialized pacemaking devices (DDD pacing) can improve the symptoms associated with hypertrophic cardiomyopathy (HCM) in adults. In addition, studies have also shown that specialized pacemaking devices (DDD pacing) can improve conditions of HCM in children. However, growth of the body and organs, including the heart, is very rapid during childhood. Therefore the long-term effects of DDD pacing in children are unknown. The purpose of this study is to examine the growth rate and nutrition of children with HCM. Due to this heart condition and the restrictions that are often placed on the child's activity level, children with HCM may grow at a slower rat and may have a greater tendency to be overweight. Children participating in the study will have their growth rate and nutritional status measured before the study begins and throughout the course of the study. Findings in this research study will not directly benefit the patients participating in it. However, information gathered as a result of this study may lead to improvements in the management of children with HCM in the future.
DDD pacing improves symptoms and relieves LV outflow tract (LVOT) obstruction in most patients with hypertrophic cardiomyopathy (HCM). Notably, when pacing is temporarily discontinued, the beneficial effects of pacing are evident in sinus rhythm. The long term results of this novel therapy are, however, uncertain. We propose (1) to record the hemodynamic changes following \>4 years of pacing; and (2) to determine whether DDD pacing continues to be necessary in patients who have had a substantial relief of their LVOT obstruction. Patients who have had \>50% reduction in LVOT pressure gradients will be randomized to two pacing modalities: DDD at 70 beats per minute and AAI pacing at 70 beats per minute (DDD switched off), and reevaluated after a six-month period.