February 1, 1979

Effects of hemodynamic alterations on wall motion in the canine right ventricle

Q: What is the clinical evidence from this study?

Study design: Other. Population: Hemodynamic alterations (n=6). Intervention: Hemodynamic alterations (reduced venous return, RV pressure overload, LV pressure overload) vs. Normal baseline state. Primary outcome: Regional right ventricular wall motion (percent shortening, maximum velocity of shortening, end-diastolic length).

Key Result

Hemodynamic alterations such as reduced venous return and RV or LV pressure overload significantly altered right ventricular wall motion and contraction patterns in a canine model.

Structured PICO

How do hemodynamic alterations affect regional right ventricular wall motion in a canine model?

Population

6 closed-chest, anesthetized, paced dogs undergoing hemodynamic alterations to assess right ventricular wall motion.

Intervention

Hemodynamic alterations (reduced venous return, right ventricular pressure overload, left ventricular pressure overload)

Comparator

Normal baseline state

Outcome

Regional right ventricular wall motion (distances between markers, velocities of shortening, percent shortening)surrogate

Hemodynamic alterations significantly impact right ventricular regional wall motion, with left ventricular pressure overload demonstrating direct mechanical interaction between the ventricles.

Abstract

Regional right ventricular (RV) wall motion was analyzed in six closed-chest, anesthetized, paced dogs by measuring distances between chronically implanted radiopaque markers on RV free wall and septum. Normally, contraction started in the sinus region 25 ms before conus region. Highest velocities of shortening occurred in the conus region (2.42 +/- 0.33 lengths/s) and in septum-to-free-wall direction (2.56 +/- 0.40 l/s). Percent shortening for all regions was between 12% and 17%. The data indicate that the RV ejects blood by a uniform reduction in its free wall surface area and septal-to-free-wall distance. Reduced venous return decreased end-diastolic length, percent shortening, maximum velocity of shortening, and time to end-systolic length. RV pressure overload increased end-diastolic length and decreased percent shortening and maximum velocity of shortening. LV pressure overload led to a nonhomogeneous contraction pattern. Percent shortening and maximum velocity of shortening increased in sinal and conal transverse directions and decreased in sinal and conal longitudinal directions; these changes indicate a mechanical interaction between RV and LV.

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Cite This Study

Santamore et al. (Thu,) conducted a other in Hemodynamic alterations (n=6). Hemodynamic alterations (reduced venous return, RV pressure overload, LV pressure overload) vs. Normal baseline state was evaluated on Regional right ventricular wall motion (percent shortening, maximum velocity of shortening, end-diastolic length). Hemodynamic alterations such as reduced venous return and RV or LV pressure overload significantly altered right ventricular wall motion and contraction patterns in a canine model.

synapsesocial.com/papers/6a22a4acb67b8d1b1fd2bf8c https://doi.org/https://doi.org/10.1152/ajpheart.1979.236.2.h254

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