Genetic Regulation of Hemodynamic Variables During Dynamic Exercise: The MCV Twin Study

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Circulation. 1996;94:1864-1869

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(Circulation. 1996;94:1864-1869.)
© 1996 American Heart Association, Inc.

Articles

Genetic Regulation of Hemodynamic Variables During Dynamic Exercise

The MCV Twin Study

M.B.M. van den Bree, PhD; R.M. Schieken, MD; W.B. Moskowitz, MD; L.J. Eaves, PhD

the Department of Human Genetics (M.B.M.v.d.B., L.J.E), Medical College of Virginia, Virginia Commonwealth University; and Pediatric Cardiology (R.M.S., W.B.M.), the Department of Pediatrics, Children's Medical Center, Medical College of Virginia, Virginia Commonwealth University, Richmond, Va.

Correspondence to Richard M. Schieken, MD, Pediatric Cardiology, Medical College of Virginia, PO Box 980026, Richmond, VA 23298-0026. E-mail schieken@gems.vcu.edu.

Background Both resting and exercise levels of blood pressurein individuals have been used as predictors of adult hypertension.One possible mechanism underlying the relation between childhoodresting and exercise blood pressure and future blood pressureis a set of genes expressed in childhood that persists to regulateadult blood pressure.

Methods and Results To investigate the genetic relation of bloodpressure and heart rate during both rest and exercise, we asked:(1) Are the genes that regulate resting hemodynamic variablesthe same genes that regulate these variables during exercise?(2) How much of the variance in exercise hemodynamic variablesis genetic and how much is environmental? (3) Do the geneticand environmental influences on hemodynamic responses changewith increasing levels of exercise? To determine how geneticand environmental effects expressed at rest influenced responsesduring dynamic exercise, a genetic analysis was conducted byfitting a series of models to the covariance matrices with theuse of the LISREL VII program.

Conclusions We found that all the genetic effects expressedat the later stages of exercise can be explained by geneticeffects expressed at rest and at the first stage of exercise.The environmental effects appear to be workload specific andinclude errors of measurement.

Key Words: genetics • blood pressure • exercise • pediatrics • heart rate

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