MRI measures of perfusion-related changes in human skeletal muscle during progressive contractions

doi:10.1152/japplphysiol.01390.2003

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MRI measures of perfusion-related changes in human skeletal muscle during progressive contractions

D. M. Wigmore,¹ B. M. Damon,² D. M. Pober,¹ and J. A. Kent-Braun¹

¹Department of Exercise Science, University of Massachusetts, Amherst, Massachusetts 01003; and ²Department of Radiology and Radiological Sciences, Vanderbilt University, Nashville, Tennessee 37235

Submitted 23 December 2003 ; accepted in final form 27 July 2004

Although skeletal muscle perfusion is fundamental to propermuscle function, in vivo measurements are typically limitedto those of limb or arterial blood flow, rather than flow withinthe muscle bed itself. We present a noninvasive functional MRI(fMRI) technique for measuring perfusion-related signal intensity(SI) changes in human skeletal muscle during and after contractionsand demonstrate its application to the question of occlusionduring a range of contraction intensities. Eight healthy men(aged 20–31 yr) performed a series of isometric ankledorsiflexor contractions from 10 to 100% maximal voluntary contraction.Axial gradient-echo echo-planar images (repetition time = 500ms, echo time = 18.6 ms) were acquired continuously before,during, and following each 10-s contraction, with 4.5-min restbetween contractions. Average SI in the dorsiflexor muscleswas calculated for all 240 images in each contraction series.Postcontraction hyperemia for each force level was determinedas peak change in SI after contraction, which was then scaledto that obtained following a 5-min cuff occlusion of the thigh(i.e., maximal hyperemia). A subset of subjects (n = 4) performedparallel studies using venous occlusion plethysmography to measurelimb blood flow. Hyperemia measured by fMRI and plethysmographydemonstrated good agreement. Postcontraction hyperemia measuredby fMRI scaled with contraction intensity up to $~$ 60% maximalvoluntary contraction. fMRI provides a noninvasive means ofquantifying perfusion-related changes during and following skeletalmuscle contractions in humans. Temporal changes in perfusioncan be observed, as can the heterogeneity of perfusion acrossthe muscle bed.

ankle dorsiflexors; muscle activation; blood flow; occlusion

Address for reprint requests and other correspondence: J. A. Kent-Braun, Dept. of Exercise Science, Totman 108, Univ. of Massachusetts, Amherst, MA 01003 (E-mail: janekb{at}excsci.umass.edu)

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