Impact of coronary artery disease on contractile function and ventricular‐arterial coupling during exercise: Simultaneous assessment of left‐ventricular pressure–volume and coronary pressure and flow during cardiac catheterization

Tiffany Patterson; Simone Rivolo; Daniel Burkhoff; Jan Schreuder; Natalia Briceno; Rupert Williams; Satpal Arri; Kaleab N. Asrress; Christopher Allen; Jubin Joseph; Hannah Z. R. McConkey; Howard Ellis; Antonis Pavlidis; Brian Clapp; Divaka Perera; Jack Lee; Michael S. Marber; Simon R. Redwood

doi:10.14814/phy2.14768

Physiological Reports (May 2021)

Impact of coronary artery disease on contractile function and ventricular‐arterial coupling during exercise: Simultaneous assessment of left‐ventricular pressure–volume and coronary pressure and flow during cardiac catheterization

Tiffany Patterson,
Simone Rivolo,
Daniel Burkhoff,
Jan Schreuder,
Natalia Briceno,
Rupert Williams,
Satpal Arri,
Kaleab N. Asrress,
Christopher Allen,
Jubin Joseph,
Hannah Z. R. McConkey,
Howard Ellis,
Antonis Pavlidis,
Brian Clapp,
Divaka Perera,
Jack Lee,
Michael S. Marber,
Simon R. Redwood

Affiliations

Tiffany Patterson: Cardiovascular Division King's College LondonSt. Thomas’ Hospital London UK
Simone Rivolo: Department of Imaging Science King's College LondonSt. Thomas’ Hospital London UK
Daniel Burkhoff: Cardiac Research Foundation New York NY USA
Jan Schreuder: CD Leycom Erasmus University Rotterdam Rotterdam The Netherlands
Natalia Briceno: Cardiovascular Division King's College LondonSt. Thomas’ Hospital London UK
Rupert Williams: Cardiovascular Division King's College LondonSt. Thomas’ Hospital London UK
Satpal Arri: Cardiovascular Division King's College LondonSt. Thomas’ Hospital London UK
Kaleab N. Asrress: Cardiovascular Division King's College LondonSt. Thomas’ Hospital London UK
Christopher Allen: Cardiovascular Division King's College LondonSt. Thomas’ Hospital London UK
Jubin Joseph: Cardiovascular Division King's College LondonSt. Thomas’ Hospital London UK
Hannah Z. R. McConkey: Cardiovascular Division King's College LondonSt. Thomas’ Hospital London UK
Howard Ellis: Cardiovascular Division King's College LondonSt. Thomas’ Hospital London UK
Antonis Pavlidis: Cardiothoracic Department St. Thomas’ HospitalGuy’s and St. Thomas’ NHS Foundation Trust London UK
Brian Clapp: Cardiothoracic Department St. Thomas’ HospitalGuy’s and St. Thomas’ NHS Foundation Trust London UK
Divaka Perera: Cardiovascular Division King's College LondonSt. Thomas’ Hospital London UK
Jack Lee: Department of Imaging Science King's College LondonSt. Thomas’ Hospital London UK
Michael S. Marber: Cardiovascular Division King's College LondonSt. Thomas’ Hospital London UK
Simon R. Redwood: Cardiovascular Division King's College LondonSt. Thomas’ Hospital London UK

DOI: https://doi.org/10.14814/phy2.14768
Journal volume & issue: Vol. 9, no. 10
pp. n/a – n/a

Abstract

Read online

Abstract Coronary artery disease (CAD) can adversely affect left ventricular (LV) performance during exercise by impairment of contractile function in the presence of increasing afterload. By performing invasive measures of LV pressure–volume and coronary pressure and flow during exercise, we sought to accurately measure this with comparison to the control group. Sixteen patients, with CCS class >II angina and CAD underwent invasive simultaneous measurement of left ventricular pressure–volume and coronary pressure and flow velocity during cardiac catheterization. Measurements performed at rest were compared with peak exercise using bicycle ergometry. The LV contractile function was measured invasively using the end‐systolic pressure–volume relationship, a load independent marker of contractile function (Ees). Vascular afterload forces were derived from the ratio of LV end‐systolic pressure to stroke volume to generate arterial elastance (Ea). These were combined to assess cardiovascular performance (ventricular‐arterial [VA] coupling ratio [Ea/Ees]). Eleven patients demonstrated flow‐limiting (FL) CAD (hyperemic Pd/Pa <0.80; ST‐segment depression on exercise); five patients without flow‐limiting (NFL) CAD served as the control group. Exercise in the presence of FL CAD was associated impairment of Ees, increased Ea, and deterioration of VA coupling. In the control cohort, exercise was associated with increased Ees and improved VA coupling. The backward compression wave energy directly correlated with the magnitude contraction as measured by dP/dTmax (r = 0.88, p = 0.004). This study demonstrates that in the presence of flow‐limiting CAD, exercise to maximal effort can lead to impairment of LV contractile function and a deterioration in VA coupling compared to a control cohort.

Published in Physiological Reports

ISSN: 2051-817X (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physiology
Website: https://physoc.onlinelibrary.wiley.com/journal/2051817x

About the journal

Abstract

Keywords