Pulmonary Hemodynamics during Exercise - Research Network

Date Added
May 16th, 2019
PRO Number
Pro00087395
Researcher
Ryan Tedford

List of Studies


Keywords
Cardiovascular, Heart
Summary

Elevated pressures in the heart can represent a severe medical condition known as pulmonary hypertension. This can result in chronic right heart failure. An abnormal increase in this pressure during exercise may be represent an early stage of vascular lung disease. This study will investigate the prognostic implications of the measured pressures obtained during exercise while undergoing a right heart catheterization procedure based on a large scale multi-center approach by using retrospective and prospective analysis of hemodynamic data.

Institution
MUSC
Recruitment Contact
Brandon Sykes
843-876-5873
sykesb@musc.edu

Right Ventricular Reserve Measures with Cardiac MRI

Date Added
October 16th, 2019
PRO Number
Pro00085562
Researcher
Ryan Tedford

List of Studies


Keywords
Cardiovascular, Heart, Sarcoidosis, Scleroderma, Shortness of Breath
Summary

This research study aims to determine a less invasive way to assess heart function by taking measurements of the heart while subjects are performing an exercise cardiac MRI. Subjects will undergo two exercise phases and MRI measurements will be taken after each exercise phase. These measurements will be compared to available clinical data (including demographic, hemodynamic, radiologic, and functional) and future outcome data.

Institution
MUSC
Recruitment Contact
Melissa Lamicq
843-876-5783
lamicq@musc.edu

SUPERIOR VENA CAVAL OCCLUSION IN SUBJECTS WITH ACUTE DECOMPENSATED HEART FAILURE - AN EARLY FEASIBILITY STUDY

Date Added
June 9th, 2020
PRO Number
Pro00096629
Researcher
Ryan Tedford

List of Studies


Keywords
Cardiovascular
Summary

This study is an early feasibility study which typically consist of evaluating innovative devices or innovative uses of approved devices. The purpose of this study is to see if an investigational device called preCARDIA Intermittent Balloon Device can limit fluid overload in congested patients with advanced heart failure. This investigational device is a catheter which has been approved by the U.S. Food and Drug Administration (FDA) to occlude large vessels but not for the treatment of advanced heart failure. Currently, there are no device-based approaches that are FDA-approved for advanced heart failure. This study will help find out if this device-based approach can improve symptoms and heart function in congested patients with advanced heart failure

Institution
MUSC
Recruitment Contact
Kavin Panneerselvam
8437920464
panneeer@musc.edu

Hemodynamic Effects of Pacing at Higher Rates in Subjects Recently Implanted with Durable Left Ventricular Assist Devices (LVADs)

Date Added
December 15th, 2020
PRO Number
Pro00103747
Researcher
Ryan Tedford

List of Studies


Keywords
Heart
Summary

Participants in this study will undergo a series of adjustments to their pacemaker that will be made while they are undergoing routine, clinically indicated right heart catheterization in the outpatient setting after their left ventricular assist device (LVAD) surgery. Patients will undergo the study procedures while in the catheterization lab under controlled conditions. The study protocol involves increasing the rate that the pacemaker paces at. While the pacemaker is set to pace at different, increasing heart rates, pressures will be measured in the different chambers of the heart utilizing a special type of intravenous (IV) line called a pulmonary artery catheter. Several small blood samples will also be drawn from this venous catheter in order to measure oxygen levels in the blood. It will take approximately 30 minutes to perform the study, and when it is completed, the pacemaker will be returned to its original settings.

Institution
MUSC
Recruitment Contact
Daniel Silverman
6308023360
dns200@musc.edu



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