Functional magnetic resonance imaging of motor cortex: Hemispheric asymmetry and handedness

Seong Gi Kim; James Ashe; Kristy Hendrich; Jutta M. Ellermann; Hellmut Merkle; Kâmil Uǧurbil; Apostolus P. Georgopoulos

doi:10.1126/science.8342027

Functional magnetic resonance imaging of motor cortex: Hemispheric asymmetry and handedness

Seong Gi Kim
, James Ashe
, Kristy Hendrich
, Jutta M. Ellermann
, Hellmut Merkle
, Kâmil Uǧurbil
, Apostolus P. Georgopoulos

University of Minnesota Twin Cities
VA Medical Center

Research output: Contribution to journal › Article › peer-review

903 Scopus citations

Abstract

A hemispheric asymmetry in the functional activation of the human motor cortex during contralateral (C) and ipsilateral (I) finger movements, especially in right-handed subjects, was documented with nuclear magnetic resonance imaging at high field strength (4 tesla). Whereas the right motor cortex was activated mostly during contralateral finger movements in both right-handed (C/I mean area of activation = 36.8) and left-handed (C/I = 29.9) subjects, the left motor cortex was activated substantially during ipsilateral movements in left-handed subjects (C/I = 5.4) and even more so in right-handed subjects (C/I = 1.3).

Original language	English
Pages (from-to)	615-617
Number of pages	3
Journal	Science
Volume	261
Issue number	5121
DOIs	https://doi.org/10.1126/science.8342027
State	Published - 1993
Externally published	Yes

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title = "Functional magnetic resonance imaging of motor cortex: Hemispheric asymmetry and handedness",

abstract = "A hemispheric asymmetry in the functional activation of the human motor cortex during contralateral (C) and ipsilateral (I) finger movements, especially in right-handed subjects, was documented with nuclear magnetic resonance imaging at high field strength (4 tesla). Whereas the right motor cortex was activated mostly during contralateral finger movements in both right-handed (C/I mean area of activation = 36.8) and left-handed (C/I = 29.9) subjects, the left motor cortex was activated substantially during ipsilateral movements in left-handed subjects (C/I = 5.4) and even more so in right-handed subjects (C/I = 1.3).",

author = "Kim, \{Seong Gi\} and James Ashe and Kristy Hendrich and Ellermann, \{Jutta M.\} and Hellmut Merkle and K{\^a}mil Uǧurbil and Georgopoulos, \{Apostolus P.\}",

year = "1993",

doi = "10.1126/science.8342027",

language = "English",

volume = "261",

pages = "615--617",

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T1 - Functional magnetic resonance imaging of motor cortex

T2 - Hemispheric asymmetry and handedness

AU - Kim, Seong Gi

AU - Ashe, James

AU - Hendrich, Kristy

AU - Ellermann, Jutta M.

AU - Merkle, Hellmut

AU - Uǧurbil, Kâmil

AU - Georgopoulos, Apostolus P.

PY - 1993

Y1 - 1993

N2 - A hemispheric asymmetry in the functional activation of the human motor cortex during contralateral (C) and ipsilateral (I) finger movements, especially in right-handed subjects, was documented with nuclear magnetic resonance imaging at high field strength (4 tesla). Whereas the right motor cortex was activated mostly during contralateral finger movements in both right-handed (C/I mean area of activation = 36.8) and left-handed (C/I = 29.9) subjects, the left motor cortex was activated substantially during ipsilateral movements in left-handed subjects (C/I = 5.4) and even more so in right-handed subjects (C/I = 1.3).

AB - A hemispheric asymmetry in the functional activation of the human motor cortex during contralateral (C) and ipsilateral (I) finger movements, especially in right-handed subjects, was documented with nuclear magnetic resonance imaging at high field strength (4 tesla). Whereas the right motor cortex was activated mostly during contralateral finger movements in both right-handed (C/I mean area of activation = 36.8) and left-handed (C/I = 29.9) subjects, the left motor cortex was activated substantially during ipsilateral movements in left-handed subjects (C/I = 5.4) and even more so in right-handed subjects (C/I = 1.3).

UR - https://www.scopus.com/pages/publications/0027183543

U2 - 10.1126/science.8342027

DO - 10.1126/science.8342027

M3 - Article

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AN - SCOPUS:0027183543

SN - 0036-8075

VL - 261

SP - 615

EP - 617

JO - Science

JF - Science

IS - 5121

ER -

Functional magnetic resonance imaging of motor cortex: Hemispheric asymmetry and handedness

Abstract

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