Heart failure is a syndrome that is defined by distinctive clinical, hemodynamic, and neurohormonal findings. HF represents a final common pathway for many different cardiovascular diseases, including coronary disease, hypertension, Valvular disease, and many primary heart muscle diseases. Clinically, HF patients experience dyspnea, fatigue and diminished exercise tolerance, reflecting elevated left and/or right ventricular filling pressures and decreased cardiac output.
Heart failure patients are frequently hospitalized and have a high mortality rate and accounts for over 1 million hospital admissions yearly in the U.S. It is associated with a 2-year mortality rate of up to 40% to 50. The annual mortality rate for Acute Decompensated Heart Failure (ADHF) is 21%. ADHF initial hospitalization mortality rates range from 4% to 7%, with mortality as high as 22% in high risk patients. About 30% to 60% of ADHF patients are readmitted within 3-6 months after discharge from the first hospitalization. Inpatient treatment for ADHF consists of diuretics, vasodilators and inotropes. Hospital admissions for ADHF have increased precipitously during the past few decades and are projected to continue to increase in the future. To optimize patient outcomes and reduce the costs associated with this disorder, evidenced-based device and pharmacotherapy is essential. Diuretics, Beta blockers, RAAS blockers and cardiac resynchronization therapy are all useful to some extent in improving outcomes of quality of life and survival. In spite of optimized therapy, there is still relentless progression of disease and clinical exacerbations of fluid retention that precipitates hospital admissions and readmissions increasing poor quality outcomes as well as the cost burden for individual, hospitals, ACOs, payers and society as a whole. There is an urgent need to decrease hospital readmissions in Post Myocardial Infarction patients and subjects with recurrent CHF. This project will use patient empowerment and new technologies to increase QOL of patients as well as to reduce readmissions
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
NONE
Enrollment
1,000
Vitals data collected by the Vitalbeat workbench for biomarker based algorithm variables will be used to drive intervention based on PAP systolic and diastolic pressures.
Multiple Locations
Phoenix, Arizona, United States
RECRUITINGReducing readmissions
The primary objective of this study is to evaluate the efficacy of treatment strategy in reducing readmissions based on the COMPASSION algorithm obtained from biomarkers and diagnostics utilizing remote sensor driven technology tools, care coordination and patient empowerment. Improvement of patient outcomes will be measured by reduction of composite of HF re-hospitalization and all-cause mortality through 30 days in patients with recent acute Myocardial Infarction and recent admission for decompensated heart failure.
Time frame: 30 days
Well-being Self-assessed Likert scale at 30 days from hospitalization
The secondary objectives of this study are to evaluate the effect of treatment in: Improving subject self-assessed overall well-being as measured by self-assessed Likert scale at 30 days from hospitalization Increasing the number of days alive and outside the hospital from hospitalization through day 30. Reducing the composite of cardiovascular re-hospitalization and Cardiovascular mortality from hospitalization through 30 days
Time frame: 30 Days
Sharolynn Mclurg
CONTACT
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