ISSN 1016-5169 | E-ISSN 1308-4488
Cardiovascular disintegration: A conceptual, model-based approach to heart failure hemodynamics [Turk Kardiyol Dern Ars]
Turk Kardiyol Dern Ars. 2021; 49(4): 275-285 | DOI: 10.5543/tkda.2021.69548

Cardiovascular disintegration: A conceptual, model-based approach to heart failure hemodynamics

Emre Aslanger1, Özlem Yıldırımtürk2, Ayça Türer Cabbar1, Muzaffer Değertekin1
1Department of Cardiology, Yeditepe University School of Medicine, İstanbul, Turkey
2Department of Cardiology, Health Sciences University, Dr. Siyami Ersek Thoracic and Cardiovascular Surgery Training and Research Hospital, İstanbul, Turkey


OBJECTIVE
The current understanding of heart failure (HF) largely centers round left ventricular (LV) function; however, disorders in serial integration of cardiovascular system may cause a hemodynamic picture similar to left-sided HF. Therefore, focusing only on LV function may be a limited and misleading approach. We hypothesized that cardiovascular system has four major integration points, and disintegration in any of these points may produce the hemodynamic picture of HF.

METHODS
We used a computational model in which mechanical properties of each chamber were characterized using time-varying elastance, and vascular beds were modeled by series of capacitances and resistances. The required percent changes in stressed volume (Vstressed) was presented as a measure of congestion susceptibility.

RESULTS
As mean systemic pressure is closely correlated with pulmonary capillary wedge pressure (PCWP), arteriovenous disintegration can create a diastolic dysfunction pattern, even without any change in diastolic function. For 10%, 20%, 30%, 40%, and 50% interventricular disintegration, required Vstressed for reaching a PCWP over 20 mmHg was decreased by 42.0%, 31.2%, 22.5%, 15%, and 8.3%, respectively. Systolodiastolic disintegration, namely combined changes in the end-diastolic and systolic pressure-volume curves and ventriculoarterial disintegration significantly decreases the required percent change in Vstressed for generating congestion.

CONCLUSION
Four disintegration points can produce the hemodynamic picture of HF, which indicates that combination of even seemingly mild abnormalities is more important than an isolated abnormality in a single function of a single chamber. Our findings suggest that a “cardiovascular disintegration” perspective may provide a different approach for assessing the HF syndrome.

Keywords: Diastolic dysfunction, heart failure, hemodynamics, pressure-volume loop, ventriculoarterial coupling

Corresponding Author: Emre Aslanger, Türkiye
Manuscript Language: English
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Journal Citation Indicator: 0.18
CiteScore: 1.1
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SCImago Journal Rank: 0.348

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