Left frontal transcranial magnetic stimulation reduces contralesional extinction in patients with unilateral right brain damage

doi:10.1093/brain/122.9.1731

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Brain, Vol. 122, No. 9, 1731-1739, September 1999
© 1999 Oxford University Press

Left frontal transcranial magnetic stimulation reduces contralesional extinction in patients with unilateral right brain damage

M. Oliveri¹, P. M. Rossini²^,4, R. Traversa¹, P. Cicinelli¹, M. M. Filippi²^,4, P. Pasqualetti²^,4, F. Tomaiuolo¹ and C. Caltagirone¹^,3

¹ IRCCS `S. Lucia', ² AFAR CRCCS Ospedale Fatebenefratelli, Isola Tiberina, ³ Clinica Neurologica, Università di Roma Tor Vergata, Rome and ⁴ IRCCS `S. Giovanni di Dio', Istituto Sacro Cuore, Brescia, Italy

Correspondence to: R. Traversa, MD, IRCCS `S. Lucia', Via Ardeatina, 306, 00194 Rome, Italy

It has been demonstrated previously that transcranial magneticstimulation (TMS) of the sensorimotor cortex can induce transientsuppression of the perception of cutaneous near-threshold stimulifrom fingers of the contralateral hand in normal individuals.One explanation accounting for deficits in the exploration ofcontralateral space following a unilateral hemispheric lesionrefers to a loss of the normal interhemispheric balance, witha resultant hyperactivation of the unaffected hemisphere dueto the release of reciprocal inhibition by the affected one.In order to verify this hypothesis, we investigated the effectsof a TMS-induced transient dysfunction of the normal hemisphereupon contralateral tactile extinctions in two groups: (i) 14right brain-damaged patients and (ii) 14 left brain-damagedcontrol patients. Single-pulse TMS was delivered to frontaland parietal scalp sites of the unaffected hemisphere afteran interval of 40 ms from an electrical unimanual or bimanualdigit stimulation. In right brain-damaged patients, left frontalTMS significantly reduced the rate of contralateral extinctionscompared with controls. After left parietal TMS, the numberof extinctions was comparable to the baseline. This patternof increased sensitivity to cutaneous stimulation ipsilateralto TMS was not observed in left brain-damaged control patients.In this group, right hemisphere TMS did not significantly alterthe recognition of bimanual stimuli delivered to the space contralateralto the lesion. The suggestion is made that extinctions producedby right brain damage may be dependent on a breakdown in thebalance of hemispheric rivalry in directing spatial attentionto contralateral hemispace, so that the unaffected hemispheregenerates an unopposed orienting response to the side of thelesion. The mechanisms whereby the left frontal TMS transientlyameliorates these deficits may involve stimulus-induced removalof a left frontal–right parietal transcallosal inhibitoryflow, although interactions at subcortical levels cannot beexcluded.

transcranial magnetic stimulation; neglect; hemispheric asymmetry; right brain damage

LBD = left brain-damaged; RBD = right brain-damaged; TMS = transcranial magnetic stimulation

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