TY  - JOUR
IS  - 9
A1  - Spampinato, DA
A1  - Block, HJ
A1  - Celnik, PA
PB  - SOC NEUROSCIENCE
Y1  - 2017/03/01/
SP  - 2377
UR  - http://doi.org/10.1523/JNEUROSCI.2511-16.2017
TI  - Cerebellar-M1 Connectivity Changes Associated with Motor Learning Are Somatotopic Specific
KW  - adaptation; cerebellum; connectivity; somatotopy; transcranial magnetic stimulation
N2  - One ofthefunctions ofthe cerebellum in motor learning isto predict and accountfor systematic changestothe body or environment. This
form of adaptive learning is mediated by plastic changes occurring within the cerebellar cortex. The strength of cerebellar-to-cerebral
pathways for a given muscle may reflect aspects of cerebellum-dependent motor adaptation. These connections with motor cortex (M1)
can be estimated as cerebellar inhibition (CBI): a conditioning pulse of transcranial magnetic stimulation delivered to the cerebellum
before a test pulse over motor cortex. Previously, we have demonstrated that changes in CBI for a given muscle representation correlate
with learning a motor adaptation task with the involved limb. However, the specificity of these effects is unknown. Here, we investigated
whether CBI changes in humans are somatotopy specific and how they relate to motor adaptation. We found that learning a visuomotor
rotation task with the right hand changed CBI, not only for the involved first dorsal interosseous of the right hand, but also for an
uninvolved right leg muscle, the tibialis anterior, likely related to inter-effector transfer of learning. In two follow-up experiments, we
investigated whether the preparation of a simple hand or leg movement would produce a somatotopy-specific modulation of CBI. We
found that CBI changes only for the effector involved in the movement. These results indicate that learning-related changes in cerebellar?M1
connectivity reflect a somatotopy-specific interaction. Modulation of this pathway is also present in the context of interlimb
transfer of learning.
VL  - 37
ID  - discovery10062685
N1  - Copyright © The Author(s), 2018. This article is distributed under the terms of the Creative Commons Attribution 4.0 License (http://www.creativecommons.org/licenses/by/4.0/) after 6 months of the publication date which permits any use, reproduction and distribution of the work without further permission provided the original work is attributed
SN  - 0270-6474
JF  - Journal of Neuroscience
EP  - 2386
AV  - public
ER  -