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Regional motion of the AV-plane is related to the cardiac anatomy and deformation of the AV-plane. Data from the HUNT Study.

Asbjørn StøylenHarald E MølmenHåvard Dalen
Published in: Clinical physiology and functional imaging (2023)
The study examines global and regional systolic shortening of the left (LV) and right ventricle (RV) in 1266 individuals without evidence of heart disease in the third wave of the HUNT study. Regional mitral annular systolic displacement (MAPSE) was 1.5 cm in the septum and anterior walls, 1.6 cm in the lateral wall and 1.7 cm in the inferior wall, global mean 1.6 cm. Peak systolic velocity S' was 8.0, 8.3, 8.8 and 8.6 cm/s in the same walls (global mean 8.7 cm/s). All measures of LV longitudinal shortening correlated, mean MAPSE and S' also correlated with stroke volume (SV) and ejection fraction (EF). Global longitudinal strain by either method correlated with MAPSE, S' and EF, but not with SV, reflecting a systematic difference. S' and MAPSE correlated with early annular diastolic velocity (e'), reflecting that e' is the recoil from systole. Mean displacement was 2.8 (0.5) cm in the tricuspid annulus (TAPSE). Normal values by age and sex are provided. Both TAPSE and S' were lower in women, where body size explained the sex difference. Normalization of MAPSE and S' for wall length reduced intra-individual variation of displacement and velocity by 80 - 90%, showing regional MAPSE to be related to LV wall length, and that longitudinal wall strain was relatively uniform. Displacement and S' were lowest in the septum and highest in the left and right free walls, shows systolic bending of the AV-plane into a U-shape, relating to the total cardiac volume changes during the heart cycle. This article is protected by copyright. All rights reserved.
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