Mapping the hand, foot and face representations in the primary motor cortex — Retest reliability of neuronavigated TMS versus functional MRI

Functional magnetic resonance imaging (fMRI) is a frequently used non-invasive mapping technique for investigating the human motor system. Recently, neuronavigated transcranial magnetic stimulation (nTMS) has been established as an alternative approach. We here compared the test–retest reliability o...

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Published in	NeuroImage (Orlando, Fla.) Vol. 66; pp. 531 - 542
Main Authors	Weiss, Carolin, Nettekoven, Charlotte, Rehme, Anne K., Neuschmelting, Volker, Eisenbeis, Andrea, Goldbrunner, Roland, Grefkes, Christian
Format	Journal Article
Language	English
Published	Amsterdam Elsevier Inc 01.02.2013 Elsevier Elsevier Limited
Subjects	Adult Biological and medical sciences Brain Brain Mapping - methods Cortex (motor) Evoked Potentials, Motor - physiology Face - innervation Female Fingers & toes fMRI Foot - innervation Fundamental and applied biological sciences. Psychology Hand - innervation Humans Image Processing, Computer-Assisted Intraclass correlation Magnetic Resonance Imaging Male Methods Motor cortex Motor Cortex - anatomy & histology NMR Nuclear magnetic resonance Reliability Studies Test–retest TMS Transcranial Magnetic Stimulation Vertebrates: nervous system and sense organs Young Adult Intraclass correlation MPRAGE LT NTMS ANOVA FWE Motor cortex BOLD MSB MM OV ICC k FOV ROI MSW fMRI TE Test–retest APB RMT MEP CoG TMS Reliability PM TR EPI Motor pathway Central nervous system Nuclear magnetic resonance imaging Hand Encephalon Foot Test-retest Face Functional imaging
Online Access	Get full text
ISSN	1053-8119 1095-9572 1095-9572
DOI	10.1016/j.neuroimage.2012.10.046

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Abstract	Functional magnetic resonance imaging (fMRI) is a frequently used non-invasive mapping technique for investigating the human motor system. Recently, neuronavigated transcranial magnetic stimulation (nTMS) has been established as an alternative approach. We here compared the test–retest reliability of both mapping techniques with regard to the cortical representations of the hand, leg, face and tongue areas. Ten healthy subjects were examined three times (intervals: 3–5days/21–35days) with fMRI and nTMS. Motor-evoked potentials were recorded from the abductor pollicis brevis, plantaris, mentalis and the tongue muscles. The same muscles were activated in an fMRI motor task. Euclidean distances (ED) between hotspots and centers of gravity (CoG) were computed for the respective somatotopic representations. Furthermore, spatial reliability was tested by intersession overlap volumes (OV) and voxel-wise intraclass correlations (ICC). Feasibility of fMRI was 100% for all body parts and sessions. In contrast, nTMS was feasible in all sessions and subjects only for the hand area, while mappings of the foot (90%), face (70%) and tongue representations (40%) remained incomplete in several subjects due to technical constraints and co-stimulation artifacts. On average, the mean ED of the hotspots was better for fMRI (6.2±1.1mm) compared to nTMS (10.8±1.9mm) while stability of CoG was similar for both methods. Peak voxel reliability (ICC) was high for both methods (>0.8), and there was no influence of inter-session intervals. In contrast, the reliability of mapping the spatial extent of the hand, foot, lips and tongue representations was poor to moderate for both fMRI and nTMS (OVs and ICC<50%). Especially nTMS mappings of the face and tongue areas yielded poor reliability estimates. Both methods are highly reliable when mapping the core region of a given target muscle, especially for the hand representation area. In contrast, mapping the spatial extent of a cortical representation area was only little reliable for both nTMS and fMRI. In summary, fMRI was better suited when mapping motor representations of the head, while nTMS showed equal reliability for mapping the hand and foot representation areas. Hence, both methods may well complement each other. [Display omitted] ► Test–retest reliability of M1 mapping by nTMS and fMRI compared in the same cohort ► Centers of gravity of nTMS and fMRI equally well reliable (5–8mm deviation) ► NTMS centers of gravity better reliable than nTMS hotspots ► Mapping the lips and the tongue area with nTMS hampered by direct stimulation effects ► Motor representations of the lips and tongue more reliable when mapped with fMRI
AbstractList	Functional magnetic resonance imaging (fMRI) is a frequently used non-invasive mapping technique for investigating the human motor system. Recently, neuronavigated transcranial magnetic stimulation (nTMS) has been established as an alternative approach. We here compared the test–retest reliability of both mapping techniques with regard to the cortical representations of the hand, leg, face and tongue areas. Ten healthy subjects were examined three times (intervals: 3–5days/21–35days) with fMRI and nTMS. Motor-evoked potentials were recorded from the abductor pollicis brevis, plantaris, mentalis and the tongue muscles. The same muscles were activated in an fMRI motor task. Euclidean distances (ED) between hotspots and centers of gravity (CoG) were computed for the respective somatotopic representations. Furthermore, spatial reliability was tested by intersession overlap volumes (OV) and voxel-wise intraclass correlations (ICC). Feasibility of fMRI was 100% for all body parts and sessions. In contrast, nTMS was feasible in all sessions and subjects only for the hand area, while mappings of the foot (90%), face (70%) and tongue representations (40%) remained incomplete in several subjects due to technical constraints and co-stimulation artifacts. On average, the mean ED of the hotspots was better for fMRI (6.2±1.1mm) compared to nTMS (10.8±1.9mm) while stability of CoG was similar for both methods. Peak voxel reliability (ICC) was high for both methods (>0.8), and there was no influence of inter-session intervals. In contrast, the reliability of mapping the spatial extent of the hand, foot, lips and tongue representations was poor to moderate for both fMRI and nTMS (OVs and ICC<50%). Especially nTMS mappings of the face and tongue areas yielded poor reliability estimates. Both methods are highly reliable when mapping the core region of a given target muscle, especially for the hand representation area. In contrast, mapping the spatial extent of a cortical representation area was only little reliable for both nTMS and fMRI. In summary, fMRI was better suited when mapping motor representations of the head, while nTMS showed equal reliability for mapping the hand and foot representation areas. Hence, both methods may well complement each other. [Display omitted] ► Test–retest reliability of M1 mapping by nTMS and fMRI compared in the same cohort ► Centers of gravity of nTMS and fMRI equally well reliable (5–8mm deviation) ► NTMS centers of gravity better reliable than nTMS hotspots ► Mapping the lips and the tongue area with nTMS hampered by direct stimulation effects ► Motor representations of the lips and tongue more reliable when mapped with fMRI Functional magnetic resonance imaging (fMRI) is a frequently used non-invasive mapping technique for investigating the human motor system. Recently, neuronavigated transcranial magnetic stimulation (nTMS) has been established as an alternative approach. We here compared the test-retest reliability of both mapping techniques with regard to the cortical representations of the hand, leg, face and tongue areas.INTRODUCTIONFunctional magnetic resonance imaging (fMRI) is a frequently used non-invasive mapping technique for investigating the human motor system. Recently, neuronavigated transcranial magnetic stimulation (nTMS) has been established as an alternative approach. We here compared the test-retest reliability of both mapping techniques with regard to the cortical representations of the hand, leg, face and tongue areas.Ten healthy subjects were examined three times (intervals: 3-5days/21-35days) with fMRI and nTMS. Motor-evoked potentials were recorded from the abductor pollicis brevis, plantaris, mentalis and the tongue muscles. The same muscles were activated in an fMRI motor task. Euclidean distances (ED) between hotspots and centers of gravity (CoG) were computed for the respective somatotopic representations. Furthermore, spatial reliability was tested by intersession overlap volumes (OV) and voxel-wise intraclass correlations (ICC).METHODSTen healthy subjects were examined three times (intervals: 3-5days/21-35days) with fMRI and nTMS. Motor-evoked potentials were recorded from the abductor pollicis brevis, plantaris, mentalis and the tongue muscles. The same muscles were activated in an fMRI motor task. Euclidean distances (ED) between hotspots and centers of gravity (CoG) were computed for the respective somatotopic representations. Furthermore, spatial reliability was tested by intersession overlap volumes (OV) and voxel-wise intraclass correlations (ICC).Feasibility of fMRI was 100% for all body parts and sessions. In contrast, nTMS was feasible in all sessions and subjects only for the hand area, while mappings of the foot (90%), face (70%) and tongue representations (40%) remained incomplete in several subjects due to technical constraints and co-stimulation artifacts. On average, the mean ED of the hotspots was better for fMRI (6.2±1.1mm) compared to nTMS (10.8±1.9mm) while stability of CoG was similar for both methods. Peak voxel reliability (ICC) was high for both methods (>0.8), and there was no influence of inter-session intervals. In contrast, the reliability of mapping the spatial extent of the hand, foot, lips and tongue representations was poor to moderate for both fMRI and nTMS (OVs and ICC<50%). Especially nTMS mappings of the face and tongue areas yielded poor reliability estimates.RESULTSFeasibility of fMRI was 100% for all body parts and sessions. In contrast, nTMS was feasible in all sessions and subjects only for the hand area, while mappings of the foot (90%), face (70%) and tongue representations (40%) remained incomplete in several subjects due to technical constraints and co-stimulation artifacts. On average, the mean ED of the hotspots was better for fMRI (6.2±1.1mm) compared to nTMS (10.8±1.9mm) while stability of CoG was similar for both methods. Peak voxel reliability (ICC) was high for both methods (>0.8), and there was no influence of inter-session intervals. In contrast, the reliability of mapping the spatial extent of the hand, foot, lips and tongue representations was poor to moderate for both fMRI and nTMS (OVs and ICC<50%). Especially nTMS mappings of the face and tongue areas yielded poor reliability estimates.Both methods are highly reliable when mapping the core region of a given target muscle, especially for the hand representation area. In contrast, mapping the spatial extent of a cortical representation area was only little reliable for both nTMS and fMRI. In summary, fMRI was better suited when mapping motor representations of the head, while nTMS showed equal reliability for mapping the hand and foot representation areas. Hence, both methods may well complement each other.CONCLUSIONBoth methods are highly reliable when mapping the core region of a given target muscle, especially for the hand representation area. In contrast, mapping the spatial extent of a cortical representation area was only little reliable for both nTMS and fMRI. In summary, fMRI was better suited when mapping motor representations of the head, while nTMS showed equal reliability for mapping the hand and foot representation areas. Hence, both methods may well complement each other. Functional magnetic resonance imaging (fMRI) is a frequently used non-invasive mapping technique for investigating the human motor system. Recently, neuronavigated transcranial magnetic stimulation (nTMS) has been established as an alternative approach. We here compared the test-retest reliability of both mapping techniques with regard to the cortical representations of the hand, leg, face and tongue areas. Ten healthy subjects were examined three times (intervals: 3-5days/21-35days) with fMRI and nTMS. Motor-evoked potentials were recorded from the abductor pollicis brevis, plantaris, mentalis and the tongue muscles. The same muscles were activated in an fMRI motor task. Euclidean distances (ED) between hotspots and centers of gravity (CoG) were computed for the respective somatotopic representations. Furthermore, spatial reliability was tested by intersession overlap volumes (OV) and voxel-wise intraclass correlations (ICC). Feasibility of fMRI was 100% for all body parts and sessions. In contrast, nTMS was feasible in all sessions and subjects only for the hand area, while mappings of the foot (90%), face (70%) and tongue representations (40%) remained incomplete in several subjects due to technical constraints and co-stimulation artifacts. On average, the mean ED of the hotspots was better for fMRI (6.2±1.1mm) compared to nTMS (10.8±1.9mm) while stability of CoG was similar for both methods. Peak voxel reliability (ICC) was high for both methods (>0.8), and there was no influence of inter-session intervals. In contrast, the reliability of mapping the spatial extent of the hand, foot, lips and tongue representations was poor to moderate for both fMRI and nTMS (OVs and ICC<50%). Especially nTMS mappings of the face and tongue areas yielded poor reliability estimates. Both methods are highly reliable when mapping the core region of a given target muscle, especially for the hand representation area. In contrast, mapping the spatial extent of a cortical representation area was only little reliable for both nTMS and fMRI. In summary, fMRI was better suited when mapping motor representations of the head, while nTMS showed equal reliability for mapping the hand and foot representation areas. Hence, both methods may well complement each other. Introduction Functional magnetic resonance imaging (fMRI) is a frequently used non-invasive mapping technique for investigating the human motor system. Recently, neuronavigated transcranial magnetic stimulation (nTMS) has been established as an alternative approach. We here compared the test-retest reliability of both mapping techniques with regard to the cortical representations of the hand, leg, face and tongue areas. Methods Ten healthy subjects were examined three times (intervals: 3-5days/21-35days) with fMRI and nTMS. Motor-evoked potentials were recorded from the abductor pollicis brevis, plantaris, mentalis and the tongue muscles. The same muscles were activated in an fMRI motor task. Euclidean distances (ED) between hotspots and centers of gravity (CoG) were computed for the respective somatotopic representations. Furthermore, spatial reliability was tested by intersession overlap volumes (OV) and voxel-wise intraclass correlations (ICC). Results Feasibility of fMRI was 100% for all body parts and sessions. In contrast, nTMS was feasible in all sessions and subjects only for the hand area, while mappings of the foot (90%), face (70%) and tongue representations (40%) remained incomplete in several subjects due to technical constraints and co-stimulation artifacts. On average, the mean ED of the hotspots was better for fMRI (6.2±1.1mm) compared to nTMS (10.8±1.9mm) while stability of CoG was similar for both methods. Peak voxel reliability (ICC) was high for both methods (>0.8), and there was no influence of inter-session intervals. In contrast, the reliability of mapping the spatial extent of the hand, foot, lips and tongue representations was poor to moderate for both fMRI and nTMS (OVs and ICC<50%). Especially nTMS mappings of the face and tongue areas yielded poor reliability estimates. Conclusion Both methods are highly reliable when mapping the core region of a given target muscle, especially for the hand representation area. In contrast, mapping the spatial extent of a cortical representation area was only little reliable for both nTMS and fMRI. In summary, fMRI was better suited when mapping motor representations of the head, while nTMS showed equal reliability for mapping the hand and foot representation areas. Hence, both methods may well complement each other.
Author	Neuschmelting, Volker Goldbrunner, Roland Nettekoven, Charlotte Weiss, Carolin Eisenbeis, Andrea Grefkes, Christian Rehme, Anne K.
Author_xml	– sequence: 1 givenname: Carolin surname: Weiss fullname: Weiss, Carolin email: carolin.weiss@uk-koeln.de organization: University of Cologne, Department of Neurosurgery, 50924 Cologne, Germany – sequence: 2 givenname: Charlotte surname: Nettekoven fullname: Nettekoven, Charlotte organization: Max Planck Institute for Neurological Research, 50931 Cologne, Germany – sequence: 3 givenname: Anne K. surname: Rehme fullname: Rehme, Anne K. organization: Max Planck Institute for Neurological Research, 50931 Cologne, Germany – sequence: 4 givenname: Volker surname: Neuschmelting fullname: Neuschmelting, Volker organization: University of Cologne, Department of Neurosurgery, 50924 Cologne, Germany – sequence: 5 givenname: Andrea surname: Eisenbeis fullname: Eisenbeis, Andrea organization: University of Cologne, Department of Neurosurgery, 50924 Cologne, Germany – sequence: 6 givenname: Roland surname: Goldbrunner fullname: Goldbrunner, Roland organization: University of Cologne, Department of Neurosurgery, 50924 Cologne, Germany – sequence: 7 givenname: Christian surname: Grefkes fullname: Grefkes, Christian organization: Max Planck Institute for Neurological Research, 50931 Cologne, Germany
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Copyright	2012 Elsevier Inc. 2014 INIST-CNRS Copyright © 2012 Elsevier Inc. All rights reserved. Copyright Elsevier Limited Feb 1, 2013
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Keywords	Intraclass correlation MPRAGE LT NTMS ANOVA FWE Motor cortex BOLD MSB MM OV ICC k FOV ROI MSW fMRI TE Test–retest APB RMT MEP CoG TMS Reliability PM TR EPI Motor pathway Central nervous system Nuclear magnetic resonance imaging Hand Encephalon Foot Test-retest Face Functional imaging
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Snippet	Functional magnetic resonance imaging (fMRI) is a frequently used non-invasive mapping technique for investigating the human motor system. Recently,... Introduction Functional magnetic resonance imaging (fMRI) is a frequently used non-invasive mapping technique for investigating the human motor system....
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SubjectTerms	Adult Biological and medical sciences Brain Brain Mapping - methods Cortex (motor) Evoked Potentials, Motor - physiology Face - innervation Female Fingers & toes fMRI Foot - innervation Fundamental and applied biological sciences. Psychology Hand - innervation Humans Image Processing, Computer-Assisted Intraclass correlation Magnetic Resonance Imaging Male Methods Motor cortex Motor Cortex - anatomy & histology NMR Nuclear magnetic resonance Reliability Studies Test–retest TMS Transcranial Magnetic Stimulation Vertebrates: nervous system and sense organs Young Adult
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Title	Mapping the hand, foot and face representations in the primary motor cortex — Retest reliability of neuronavigated TMS versus functional MRI
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