Differential modulation of right ventricular strain and right atrial mechanics in mild vs. severe pressure overload

Rochus K. Voeller, Abdulhameed Aziz, Hersh S. Maniar, Nneka N. Ufere, Ajay K. Taggar, Noel J. Bernabe, Brian P. Cupps, Marc R. Moon

Research output: Contribution to journalArticle

16 Scopus citations

Abstract

Increased right atrial (RA) and ventricular (RV) chamber volumes are a late maladaptive response to chronic pulmonary hypertension. The purpose of the current investigation was to characterize the early compensatory changes that occur in the right heart during chronic RV pressure overload before the development of chamber dilation. Magnetic resonance imaging with radiofrequency tissue tagging was performed on dogs at baseline and after 10 wk of pulmonary artery banding to yield either mild RV pressure overload (36% rise in RV pressure; n = 5) or severe overload (250% rise in RV pressure; n = 4). The RV free wall was divided into three segments within a midventricular plane, and circumferential myocardial strain was calculated for each segment, the septum, and the left ventricle. Chamber volumes were calculated from stacked MRI images, and RA mechanics were characterized by calculating the RA reservoir, conduit, and pump contribution to RV filling. With mild RV overload, there were no changes in RV strain or RA function. With severe RV overload, RV circumferential strain diminished by 62% anterior (P = 0.04), 42% inferior (P = 0.03), and 50% in the septum (P = 0.02), with no change in the left ventricle (P = 0.12). RV filling became more dependent on RA conduit function, which increased from 30 ± 9 to 43 ±13% (P = 0.01), than on RA reservoir function, which decreased from 47 ± 6 to 33 ± 4% (P = 0.04), with no change in RA pump function (P = 0.94). RA and RV volumes and RV ejection fraction were unchanged from baseline during either mild (P = 0.10) or severe RV pressure overload (P = 0.53). In response to severe RV pressure overload, RV myocardial strain is segmentally diminished and RV filling becomes more dependent on RA conduit rather than reservoir function. These compensatory mechanisms of the right heart occur early in chronic RV pressure overload before chamber dilation develops.

Original languageEnglish (US)
Pages (from-to)2362-2371
Number of pages10
JournalAmerican Journal of Physiology - Heart and Circulatory Physiology
Volume301
Issue number6
DOIs
StatePublished - Dec 2011

Keywords

  • Hypertrophy
  • Magnetic resonance imaging
  • Pulmonary hypertension

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