U. D. Schmid scite author profile

Using functional magnetic resonance imaging (fMRI) we have evaluated the anatomical location of the motor hand area. The segment of the precentral gyrus that most often contained motor hand function was a knob-like structure, that is shaped like an omega or epsilon in the axial plane and like a hook in the sagittal plane. On the cortical surface of cadaver specimens this precentral knob corresponded precisely to the characteristic 'middle knee' of the central sulcus that has been described by various anatomists in the last century. We were then able to show that this knob is a reliable landmark for identifying the precentral gyrus directly. We therefore conclude that neural elements involved in motor hand function are located in a characteristic 'precentral knob' which is a reliable landmark for identifying the precentral gyrus under normal and pathological conditions. It faces and forms the 'middle knee' of the central sulcus, is located just at the cross point between the precentral sulcus and the central sulcus, and is therefore also visible on the cortical surface.

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Topography of the cortical motor hand area: prospective study with functional MR imaging and direct motor mapping at surgery.

Yousry¹,

Schmid²,

Jassoy³

et al. 1995

Radiology

251

120

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Detailed magnetic resonance imaging anatomy of the cisternal segment of the abducent nerve: Dorello's canal and neurovascular relationships and landmarks

Yousry¹,

Camelio²,

Wiesmann³

et al. 1999

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Investigation of facial motor pathways by electrical and magnetic stimulation: sites and mechanisms of excitation.

Rösler

Heß

Schmid

1989

Journal of Neurology, Neurosurgery & Psychiatry

121

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SwitzerlandSUMMARY A refined technique is described for non invasive examination of the facial motor pathways by stimulation ofthe extra-and intracranial segment ofthe facial nerve and the facial motor cortex. Surface recordings from the nasalis muscle rather than from the orbicularis oris muscle were used, since the compound muscle action potential (CMAP) from this muscle showed a more clearly defined onset. Electrical extracranial stimulation of the facial nerve at the stylomastoid fossa in 14 healthy subjects yielded a mean distal motor latency of 3.7 ms (SD 046), comparable with reported latencies to theorbicularis oris muscle. Using a magnetic stimulator, transcranial stimulation of the facial nerve was performed. The mechanism of transcranial magnetic facial nerve stimulation was studied using recordings on 12 patients who had facial nerve lesions at different locations, and with intraoperative direct measurements in four patients undergoing posterior fossa surgery. The actual site ofstimulation could be localised to the proximal part of the facial canal, and a mean "transosseal conduction time" of 1-2 ms (SD 0 l8) was calculated. The cerebrospinal fluid (CSF) played an important role in mediating the magnetically induced stimulating currents. Finally, with transcranial magnetic stimulation of the facial motor cortex, clearly discernible CMAPs could be produced when voluntary activation ofseveral facial muscles was used to facilitate the responses. From this, a central motor conduction time of 5-1 ms was calculated (SD 0O60, 6 subjects).

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U. D. Schmid

Localization of the motor hand area to a knob on the precentral gyrus. A new landmark

Topography of the cortical motor hand area: prospective study with functional MR imaging and direct motor mapping at surgery.

Detailed magnetic resonance imaging anatomy of the cisternal segment of the abducent nerve: Dorello's canal and neurovascular relationships and landmarks

Investigation of facial motor pathways by electrical and magnetic stimulation: sites and mechanisms of excitation.

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