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Effects of coil orientation and magnetic field shield on transcranial magnetic stimulation in cats

✍ Scribed by Shinichi Nakatoh; Hideki Kitagawa; Yoshiharu Kawaguchi; Hiroshi Nakamura; Haruo Takano; Haruo Tsuji

Publisher
John Wiley and Sons
Year
1998
Tongue
English
Weight
416 KB
Volume
21
Category
Article
ISSN
0148-639X

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✦ Synopsis

To obtain suitable stimulus conditions for transcranial magnetic stimulation, the evoked compound muscle action potential (ECMAP), evoked spinal cord potential (ESCP), and magnetic and electric fields were analyzed in cats with and without the use of a magnetic field shield. Cats were stimulated using a figure 8 magnetic coil placed on the cranium above the motor cortex. The maximum ECMAP amplitude was recorded when the electric current in the coil was in the mediolateral direction, regardless of whether a magnetic shield with a 5 Γ— 5 cm window was used. ECMAP and ESCP thresholds were reduced when magnetic shielding was in place. Due to the edge effect, the strengths of the magnetic and electric fields were highest in the brainstem area, which is an inhomogeneous volume conductor of the cat's cranium. A large induced electric field directed caudally elicited ECMAP and ESCP responses effectively when a magnetic shield with a 5 Γ— 5 cm window was in place.

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