Abstract
Although the arrangement of the corticospinal projection in primates is consistent with a more prominent role of the ipsilateral motor cortex on proximal muscles, rather than on distal muscles involved in manual dexterity, the role played by the primary motor cortex on the control of manual dexterity for the ipsilateral hand remains a matter a debate, either in the normal function or after a lesion. We, therefore, tested the impact of permanent unilateral motor cortex lesion on the manual dexterity of the ipsilateral hand in 11 macaque monkeys, within a time window of 60 days post-lesion. For comparison, unilateral reversible pharmacological inactivation of the motor cortex was produced in an additional monkey. Manual dexterity was assessed quantitatively based on three motor parameters derived from two reach and grasp manual tasks. In contrast to the expected dramatic, complete deficit of manual dexterity of the contralesional hand that persists for several weeks, the impact on the manual dexterity of the ipsilesional hand was generally moderate (but statistically significant) and, when present, lasted less than 20 days. Out of the 11 monkeys, only 3 showed a deficit of the ipsilesional hand for 2 of the 3 motor parameters, and 4 animals had a deficit for only one motor parameter. Four monkeys did not show any deficit. The reversible inactivation experiment yielded results consistent with the permanent lesion data. In conclusion, the primary motor cortex exerts a modest role on ipsilateral manual dexterity, most likely in the form of indirect hand postural control.
Original language | English (US) |
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Pages (from-to) | 63-79 |
Number of pages | 17 |
Journal | Brain Structure and Function |
Volume | 217 |
Issue number | 1 |
DOIs | |
State | Published - Jan 2012 |
Externally published | Yes |
Bibliographical note
Funding Information:The authors wish to thank the technical assistance of Laurence Grollimund, Catherine Pythoud, Véronique Moret, Christine Roulin, Françoise Tinguely and Christiane Marti (histology and behavioral evaluations), Josef Corpataux, Laurent Bossy, Bernard Bapst and Bernard Morandi (animal housekeeping), André Gaillard (mechanics), Bernard Aebischer (electronics), Laurent Monney (informatics). Thanks are due to Dr. T. Wannier and Dr. E. Schmidlin for their support and advice in the course of the experiments. Ms Julie Savidan contributed to the assessment of the volume of cortical lesion. We thank Dr. Pamela Banta-Lavenex for editorial comments on the final version of the manuscript. Grant Sponsors are Swiss National Science Foundation, grants No 31-61857.00, 310000-110005, 31003A-132465 (EMR), No 3100A0-103924 (JB), the Novartis Foundation; the National Centre of Competence in Research (NCCR) on “Neural plasticity and repair” and the Christopher Reeves Foundation (Springfield, NJ).
Keywords
- Permanent lesion
- Primate
- Reversible lesion