The differential modulation of the ventral premotor-motor interaction during movement initiation is deficient in patients with focal hand dystonia.

TY - JOUR

T1 - The differential modulation of the ventral premotor-motor interaction during movement initiation is deficient in patients with focal hand dystonia.

AU - Houdayer, Elise

AU - Beck, Sandra

AU - Karabanov, Anke Ninija

AU - Poston, Brach

AU - Hallett, Mark

PY - 2012/2

Y1 - 2012/2

N2 - A major feature of focal hand dystonia (FHD) pathophysiology is the loss of inhibition. One inhibitory process, surround inhibition, for which the cortical mechanisms are still unknown, is abnormal in FHD. As the ventral premotor cortex (PMv) plays a key role in the sensorimotor processing involved in shaping finger movements and has many projections onto the primary motor cortex (M1), we hypothesized that the PMv-M1 connections might play a role in surround inhibition. A paired-pulse transcranial magnetic stimulation paradigm was used in order to evaluate and compare the PMv-M1 interactions during different phases (rest, preparation and execution) of an index finger movement in patients with FHD and controls. A sub-threshold conditioning pulse (80% resting motor threshold) was applied to the PMv at 6ms before M1 stimulation. The right abductor pollicis brevis, a surround muscle, was the target muscle. In healthy controls, the results showed that PMv stimulation induced an ipsilateral ventral premotor-motor inhibition at rest. This cortico-cortical interaction changed into an early facilitation (100ms before movement onset) and turned back to inhibition 50ms later. In patients with FHD, this PMv-M1 interaction and its modulation were absent. Our results show that, although the ipsilateral ventral premotor-motor inhibition does not play a key role in the genesis of surround inhibition, PMv has a dynamic influence on M1 excitability during the early steps of motor execution. The impaired cortico-cortical interactions observed in patients with FHD might contribute, at least in part, to the abnormal motor command.

AB - A major feature of focal hand dystonia (FHD) pathophysiology is the loss of inhibition. One inhibitory process, surround inhibition, for which the cortical mechanisms are still unknown, is abnormal in FHD. As the ventral premotor cortex (PMv) plays a key role in the sensorimotor processing involved in shaping finger movements and has many projections onto the primary motor cortex (M1), we hypothesized that the PMv-M1 connections might play a role in surround inhibition. A paired-pulse transcranial magnetic stimulation paradigm was used in order to evaluate and compare the PMv-M1 interactions during different phases (rest, preparation and execution) of an index finger movement in patients with FHD and controls. A sub-threshold conditioning pulse (80% resting motor threshold) was applied to the PMv at 6ms before M1 stimulation. The right abductor pollicis brevis, a surround muscle, was the target muscle. In healthy controls, the results showed that PMv stimulation induced an ipsilateral ventral premotor-motor inhibition at rest. This cortico-cortical interaction changed into an early facilitation (100ms before movement onset) and turned back to inhibition 50ms later. In patients with FHD, this PMv-M1 interaction and its modulation were absent. Our results show that, although the ipsilateral ventral premotor-motor inhibition does not play a key role in the genesis of surround inhibition, PMv has a dynamic influence on M1 excitability during the early steps of motor execution. The impaired cortico-cortical interactions observed in patients with FHD might contribute, at least in part, to the abnormal motor command.

U2 - 10.1111/j.1460-9568.2011.07960.x

DO - 10.1111/j.1460-9568.2011.07960.x

M3 - Journal article

C2 - 22288483

SN - 0953-816X

VL - 35

SP - 478

EP - 485

JO - European Journal of Neuroscience

JF - European Journal of Neuroscience

IS - 3

ER -