Functional recovery after extra-ocular muscle deafferentation in the rabbit

The present research analysed on chronic animals the functional recovery of eye motility after impairment of the proprioceptive input at the level of the semilunar ganglion. The horizontal vestibule-ocular reflex (HVOR) was r ecorded in normal pigmented rabbits before and after a partial electrolytic lesion of the semilunar ganglion. The recordings were repeated daily for 8 -10 days to evaluate the recovery. Immediately after the lesion, as previou sly observed, HVOR slow phases were unaffected, while quick phases (QPs) sh owed a reduction in peak velocity and a deviation of trajectories from the horizontal plane. QP peak velocity was almost completely restored within 3- 5 days, while trajectory deviation was not corrected during the observation period. Furthermore, in some animals, the variability of trajectories show ed, starling from days 3-5, a progressive increase that led to a greater sp atial disorganization. A process of lesion-induced plasticity takes place, but only the velocity of QPs can be recovered rapidly, while the QP traject ory impairment does not appear to be compensated substantially, which under lines a determinant role in the control of QP spatial orientation exerted b y EOM proprioceptive signals.