Am. Grandi et al., LEFT-VENTRICULAR ANATOMY AND FUNCTION IN NORMOTENSIVE YOUNG-ADULTS WITH HYPERTENSIVE PARENTS - STUDY AT REST AND DURING HANDGRIP, American journal of hypertension, 8(2), 1995, pp. 154-159
Using digitized M-mode echocardiograms, we evaluated left ventricular
(LV) anatomy and function at rest and during handgrip in 24 normotensi
ve young adults with both parents hypertensive (HP+), each matched for
age, sex, body weight, and body surface area with one normotensive ad
ult with both parents normotensive (HP-). LV parameters were within th
e normal range in all HP+ and HP-. At rest, HP+ as compared to HP- had
higher systolic and diastolic blood pressure (BP), septal and posteri
or wall thickness, and LV mass; LV diastolic diameter and end-systolic
wall stress were similar in the two groups. Modified midwall fraction
al shortening, peak shortening rate of LV diameter and peak thickening
rate of LV posterior wall, indices of LV systolic function, and peak
lengthening rate of LV diameter and peak thinning rate of LV posterior
wall, indices of ventricular relaxation, were significantly higher in
HP+. Handgrip induced significant (P < .001) and percent-comparable i
ncreases of systolic and diastolic BP, heart rate, and cardiac output
in HP+ and HP-; peak shortening and lengthening rates of LV diameter a
nd peak thickening and thinning rates of LV posterior wall increased s
ignificantly in HP-, whereas in HP+ the value of the four parameters,
higher at rest as compared to HP-, did not show any further increase.
In conclusion, normotensive young adults with high genetic risk for hy
pertension have higher BP and thicker and overactive LV as compared to
subjects with normotensive parents. Handgrip stimulates LV function i
n offspring of normotensives, but not the already hyperkinetic LV of h
ypertensive offspring.