This study tests the hypothesis that if the fast twitch muscles in a s
ynergistic group were more susceptible to ischemia/reperfusion injury,
then the slow twitch muscle would compensate functionally during reco
very. Rat hindlimb fast twitch gastrocnemius and plantaris muscles and
slow twitch soleus muscle were studied. In the experimental (E) group
of rats, the right hindlimbs had 2 hr of pressure-controlled (300 mmH
g) tourniquet ischemia. The masses and the maximal isometric tetanic f
orces of the three muscles were evaluated at 1, 3, 5, and 7 weeks in E
(n = 24) and a control (C) group of rats (n = 24). Gastrocnemius mass
and plantaris mass were both reduced (at 1, 3, and 5 weeks and at 1 a
nd 3 weeks, respectively), whereas there were no significant changes i
n the mass of the soleus. The maximal isometric tetanic forces (N) mea
sured at 1 week of recovery were reduced to 52, 53, and 67% of C value
s for the gastrocnemius, plantaris, and soleus, respectively. However,
at 1 week the normalized isometric tetanic forces (N/g) for all three
muscles were reduced to 66-69% of the C values. By Week 3, the tetani
c forces (N or N/g) of all muscles had recovered to control values. On
average, the gastrocnemius, plantaris, and soleus muscles of the C gr
oups contributed 68, 24, and 8%, respectively, of the total synergisti
c tetanic force. These values were unaffected by ischemia. From this e
xperiment, it is concluded that 2 hr of tourniquet ischemia resulted i
n a selective decrement in mass of the fast twitch muscles. However, t
here were no differential effects of ischemia on muscle force that wer
e due to muscle fiber type, and subsequently functional compensation b
y the slow twitch soleus muscle was not detected.