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Design Physiology and Functional Morphology Group, Department of Biological Sciences, Northern Arizona University, Flagstaff, Arizona 86011-5640
During
locomotion, major muscle groups are often activated cyclically. This
alternate stretch-shorten pattern of activity could enable muscle to
function as a spring, storing and recovering elastic recoil potential
energy. Because the ability to store and recover elastic recoil energy
could profoundly affect the energetics of locomotion, one might expect
this to be an adaptable feature of skeletal muscle. This study tests
the hypothesis that chronic eccentric (Ecc) training
results in a change in the spring properties of skeletal muscle. Nine
female Sprague-Dawley rats underwent chronic Ecc training for 8 wk on a
motorized treadmill. The spring properties of muscle were characterized
by both active and passive lengthening force productions. A single
"spring constant" (
force/length) from the passive
length-tension curves was calculated for each muscle. Results from
measurements on long heads of triceps brachii muscle indicate that the
trained group produced significantly more passive lengthening force
(P = 0.0001) as well as more active lengthening force
(P = 0.0001) at all lengths of muscle stretch. In addition, the
spring constants were significantly different between the Ecc (1.71 N/mm) and the control (1.31 N/mm) groups. A stiffer spring is capable
of storing more energy per unit length stretched, which is of
functional importance during locomotion.
eccentric contraction; muscle spring; elastic energy; titin; stiffness
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