Altered regional blood flow responses to submaximal exercise in older rats

doi:10.1152/japplphysiol.00729.2003

Altered regional blood flow responses to submaximal exercise in older rats

Timothy I. Musch,¹^,2 Kevin E. Eklund,¹^,2 K. Sue Hageman,² and David C. Poole¹^,2

¹Department of Kinesiology and ²Clarenburg Research Laboratory, Department of Anatomy and Physiology, Kansas State University, Manhattan, Kansas 66506-5802

Submitted 15 July 2003 ; accepted in final form 29 August 2003

Maximal aerobic capacity and the ability to sustain submaximalexercise (Ex) declines with advancing age. Whether altered muscleblood flow (BF) plays a mechanistic role in these effects remainsto be resolved. The present investigation determined the effectsof aging on the hemodynamic and regional BF response to submaximalEx in rats. Heart rate (HR), mean arterial pressure (MAP), andBF to different organs (kidneys, splanchnic organs, and 28 hindlimbmuscles) were determined at rest and during submaximal treadmillEx (20 m/min, 5% grade) with radiolabeled microspheres in young(Y; 6-8 mo old, 339 ± 8 g, n = 9) and old (O; 27-29 moold, 504 ± 18 g, n = 7) Fischer 344 x Brown Norway rats.Results demonstrated that HR, MAP, and BF to the pancreas, smalland large intestine, and total hindlimb musculature were similarbetween Y and O rats at rest. BF to the kidneys, spleen, andstomach were 33, 60, and 43% lower, respectively, in O comparedwith Y rats. BF to the total hindlimb musculature increased(P < 0.05) during Ex and was similar for both Y and O rats(Y: 16 ± 3 to 124 ± 7 vs. O: 20 ± 3 to137 ± 12 ml·min^-1·100 g^-1). However, inO vs. Y rats, BF was reduced in 6 (highly oxidative) and elevatedin 8 (highly glycolytic) of the 28 individual hindquarter musclesor muscle parts examined (P < 0.05). During Ex, BF to thespleen and stomach decreased (P < 0.05) from rest in Y rats,whereas BF decreased in the kidneys, pancreas, spleen, stomach,as well as the small and large intestines of O rats. In conclusion,these data demonstrate that, despite similar increases in totalhindlimb BF in Y and O rats during submaximal Ex, there is aprofound BF redistribution from highly oxidative to highly glycolyticmuscles.

skeletal muscle; splanchnic; radiolabeled microspheres

Address for reprint requests and other correspondence: T. I. Musch, Dept. of Anatomy and Physiology, 228 Coles Hall, 1600 Denison Ave., Kansas State Univ., Manhattan, KS 66506-5602 (E-mail: musch{at}vet.ksu.edu).

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