Hemodynamic Factors Associated With Acute Decompensated Heart Failure: Part 2—Use in Automated Detection

Hemodynamic Factors Associated With Acute Decompensated Heart Failure: Part 2—Use in Automated Detection

Abstract Background The purpose of this study was to develop an automated surveillance system, using pressure-based hemodynamic factors that would detect which patients were making the transition from compensated to decompensated heart failure before they developed worsening symptoms and required ac...

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Bibliographic Details
Published in:Journal of cardiac failure Vol. 17; no. 5; pp. 366 - 373
Main Authors: Adamson, Philip B., MD, Zile, Michael R., MD, Cho, Yong K., PhD, Bennett, Tom D., PhD, Bourge, Robert C., MD, Aaron, Mark F., MD, Aranda, Juan M., MD, Abraham, William T., MD, Kueffer, Fred J., MS, Taepke, Robert T., MS
Format: Journal Article
Language:English
Published: United States Elsevier Inc 01-05-2011
Subjects:
acute decompensation
Acute Disease
Adult
Aged
Blood Pressure - physiology
Blood Pressure Monitoring, Ambulatory - methods
Cardiovascular
Female
Heart failure
Heart Failure - diagnosis
Heart Failure - physiopathology
hemodynamics
Hemodynamics - physiology
Humans
Male
Middle Aged
Monitoring, Physiologic - methods
Prospective Studies
Retrospective Studies
Heart failure
acute decompensation
hemodynamics
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Summary:Abstract Background The purpose of this study was to develop an automated surveillance system, using pressure-based hemodynamic factors that would detect which patients were making the transition from compensated to decompensated heart failure before they developed worsening symptoms and required acute medical care. Methods and Results Intracardiac pressures in 274 patients with heart failure were measured using an implantable hemodynamic monitor (IHM) and were analyzed in a retrospective manner. An automated pressure change detection (PCD) algorithm was developed using the cumulative sum method. The performance characteristics of the PCD algorithm were defined in all patients who developed a heart failure–related event (HFRE); patients without HFRE served as controls. Optimal PCD threshold values were chosen using a receiver operator curve analysis. Each of the pressures measured with the IHM were evaluated using the PCD analysis. All had sensitivities ≥80% and false-positive rates <4.7/patient-year; however, estimated pulmonary artery diastolic pressure (ePAD) had the best performance. An ePAD based on the optimized PCD threshold of 6.0 yielded a sensitivity of 83% and a false-positive rate of 4.1/patient-year for detecting patients making the transition from compensated to decompensated heart failure. These performance characteristics were not significantly different for patients with an ejection fraction > vs. <50%, estimated glomerular filtration rate > vs. <60 mL/min/1.73 m2 , or age > vs. <60 years. Conclusions The automated PCD algorithm had high sensitivity and acceptable false-positive rates in detecting the development of decompensated heart failure before the patient developed worsening symptoms and required acute medical care. These data support the development of a prospective study to examine the utility of adding an automated PCD algorithm to IHM-based management strategies to prevent decompensated heart failure.
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ISSN:1071-9164
1532-8414
DOI:10.1016/j.cardfail.2011.01.011