Abstract
We studied the ability of L-DOPA (100 mg/kg, subcutaneous) to elicit air-stepping in decerebrate and sham-operated Sprague-Dawley rats from postnatal Day 5 through postnatal Day 20. The most common gait consisted of fore- and hindlimb alternation, but between 10 and 20 days of age, patterns of coordination resembling swimming, in which the forelimbs remained adducted, and galloping became more frequent in both decerebrate and sham-operated rats. Because episodes of galloping were rarely more than two or three step cycles in length, our analyses focused on episodes of stepping in which limbs within the girdles stepped in alternation and diagonal pairs of limbs moved in synchrony ("trot"). The rate of stepping of both decerebrate and sham-operated rats increased from about 2.9 steps/s at Day 5 to about 4 steps/s at Day 20. In both groups, this increase was found to result from a decrease in the duration of the retraction phase of the step cycle. Amplitudes of movement at the wrist, knee, and ankle increased with age in both decerebrate and sham-operated neonates, whereas those of the shoulder, elbow, and hip did not change in either group. The timing of movements at joints within each limb also changed similarly with age in sham-operated and decerebrate pups. During development, forelimb movement was increasingly led by the wrist, which was followed by the elbow and then finally by the shoulder. Hindlimb movements were increasingly led by the knee, followed by the ankle, and finally by the hip. At all ages, diagonal limbs moved in synchrony, and heterolateral limbs within each girdle moved in antiphase. However, the phase relationship between hindlimb and forelimb movements changed both in sham-operated rats and in decerebrate rats during ontogeny. On Day 5, movement of each hindlimb was phase-delayed relative to that of the diagonal forelimb whereas on Days 15 and 20, the hindlimb was phase-advanced. The parallel emergence of different gaits and the similarity of coordination during diagonal progression in sham-operated and decerebrate pups show that age-related changes in gait are mediated no more rostrally than the midbrain.
Published Version
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