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Non-invasive quantification of pressure–volume loops in patients with Fontan circulation

Sjöberg, Pia LU ; Liuba, Petru LU ; Arheden, Håkan LU ; Heiberg, Einar LU and Carlsson, Marcus LU (2022) In BMC Cardiovascular Disorders 22(1).
Abstract

Background: Pressure–volume (PV) loops provide comprehensive information of cardiac function, but commonly implies an invasive procedure under general anesthesia. A novel technique has made it possible to non-invasively estimate PV loops with cardiac magnetic resonance (CMR) and brachial pressure which would enable good volume estimation of often anatomically complex ventricles without the need of anesthesia in most cases. In this study we aimed to compare how hemodynamic parameters derived from PV loops in patients with Fontan circulation differ to controls. Methods: Patients with Fontan circulation (n = 17, median age 12 years, IQR 6–15) and healthy controls (n = 17, 14 years, IQR 13–22) were examined with CMR. Short axis balanced... (More)

Background: Pressure–volume (PV) loops provide comprehensive information of cardiac function, but commonly implies an invasive procedure under general anesthesia. A novel technique has made it possible to non-invasively estimate PV loops with cardiac magnetic resonance (CMR) and brachial pressure which would enable good volume estimation of often anatomically complex ventricles without the need of anesthesia in most cases. In this study we aimed to compare how hemodynamic parameters derived from PV loops in patients with Fontan circulation differ to controls. Methods: Patients with Fontan circulation (n = 17, median age 12 years, IQR 6–15) and healthy controls (n = 17, 14 years, IQR 13–22) were examined with CMR. Short axis balanced steady-state free-precession cine images covering the entire heart were acquired. PV loops were derived from left ventricular volumes in all timeframes and brachial blood pressure from cuff sphygmomanometry. Results: Fontan patients had lower stroke work, ventricular mechanical efficiency and external power compared to controls. Fontan patients with dominant right ventricle had higher potential energy indexed to body surface area but lower contractility (Ees) compared to controls. Fontan patients had higher arterial elastance (Ea) and Ea/Ees ratio than controls. Contractility showed no correlation with ejection fraction (EF) in Fontan patients irrespective of ventricular morphology. No difference was seen in energy per ejected volume between Fontan patients and controls. Conclusions: This non-invasive PV-loop method could be used in future studies to show the potential prognostic value of these measures and if changes in ventricular function over time can be detected earlier by this method compared to changes in ventricular volumes and EF. In contrast to patients with acquired heart failure, Fontan patients had similar energy per ejected volume as controls which suggests similar ventricular oxygen consumption to deliver the same volume in Fontan patients as in controls.

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author
; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Congenital heart disease, Contractility, Heart failure, Single ventricle, Stroke work, Ventricular-arterial coupling
in
BMC Cardiovascular Disorders
volume
22
issue
1
article number
253
publisher
BioMed Central (BMC)
external identifiers
  • pmid:35668358
  • scopus:85131301847
ISSN
1471-2261
DOI
10.1186/s12872-022-02686-7
language
English
LU publication?
yes
id
4fb458b7-d8ef-4cf2-a13f-07ba29d67ffb
date added to LUP
2022-08-19 13:59:12
date last changed
2024-10-18 00:06:40
@article{4fb458b7-d8ef-4cf2-a13f-07ba29d67ffb,
  abstract     = {{<p>Background: Pressure–volume (PV) loops provide comprehensive information of cardiac function, but commonly implies an invasive procedure under general anesthesia. A novel technique has made it possible to non-invasively estimate PV loops with cardiac magnetic resonance (CMR) and brachial pressure which would enable good volume estimation of often anatomically complex ventricles without the need of anesthesia in most cases. In this study we aimed to compare how hemodynamic parameters derived from PV loops in patients with Fontan circulation differ to controls. Methods: Patients with Fontan circulation (n = 17, median age 12 years, IQR 6–15) and healthy controls (n = 17, 14 years, IQR 13–22) were examined with CMR. Short axis balanced steady-state free-precession cine images covering the entire heart were acquired. PV loops were derived from left ventricular volumes in all timeframes and brachial blood pressure from cuff sphygmomanometry. Results: Fontan patients had lower stroke work, ventricular mechanical efficiency and external power compared to controls. Fontan patients with dominant right ventricle had higher potential energy indexed to body surface area but lower contractility (Ees) compared to controls. Fontan patients had higher arterial elastance (Ea) and Ea/Ees ratio than controls. Contractility showed no correlation with ejection fraction (EF) in Fontan patients irrespective of ventricular morphology. No difference was seen in energy per ejected volume between Fontan patients and controls. Conclusions: This non-invasive PV-loop method could be used in future studies to show the potential prognostic value of these measures and if changes in ventricular function over time can be detected earlier by this method compared to changes in ventricular volumes and EF. In contrast to patients with acquired heart failure, Fontan patients had similar energy per ejected volume as controls which suggests similar ventricular oxygen consumption to deliver the same volume in Fontan patients as in controls.</p>}},
  author       = {{Sjöberg, Pia and Liuba, Petru and Arheden, Håkan and Heiberg, Einar and Carlsson, Marcus}},
  issn         = {{1471-2261}},
  keywords     = {{Congenital heart disease; Contractility; Heart failure; Single ventricle; Stroke work; Ventricular-arterial coupling}},
  language     = {{eng}},
  number       = {{1}},
  publisher    = {{BioMed Central (BMC)}},
  series       = {{BMC Cardiovascular Disorders}},
  title        = {{Non-invasive quantification of pressure–volume loops in patients with Fontan circulation}},
  url          = {{http://dx.doi.org/10.1186/s12872-022-02686-7}},
  doi          = {{10.1186/s12872-022-02686-7}},
  volume       = {{22}},
  year         = {{2022}},
}