Time-dependent activation of parieto-frontal networks for directing attention to tactile space: A study with paired transcranial magnetic stimulation pulses in right-brain-damaged patients with extinction

doi:10.1093/brain/123.9.1939

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Brain, Vol. 123, No. 9, 1939-1947, September 2000
© 2000 Oxford University Press

Time-dependent activation of parieto-frontal networks for directing attention to tactile space

A study with paired transcranial magnetic stimulation pulses in right-brain-damaged patients with extinction

M. Oliveri¹^,3, P. M. Rossini²^,4, M. M. Filippi¹^,2, R. Traversa¹, P. Cicinelli¹, M. G. Palmieri¹^,3, P. Pasqualetti²^,4 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: M. Oliveri, `S. Lucia', Via Ardeatina, 306, 00194 Rome, Italy E-mail: maxoliveri{at}tiscalinet.it

Tactile extinction has been interpreted as an attentional disorder,closely related to hemineglect, due to hyperactivation of theunaffected hemisphere, resulting in an ipsilesional attentionalbias. Paired transcranial magnetic stimulation (TMS) techniques,with a subthreshold conditioning stimulus (CS) followed at variousinterstimulus intervals (ISIs) by a suprathreshold test stimulus(TS), are useful for investigating intracortical inhibitionand facilitation in the human motor cortex. In the present work,we investigated the effects of paired TMS over the posteriorparietal and frontal cortex of the unaffected hemisphere ina group of eight right-brain-damaged patients with tactile extinctionwho were carrying out a bimanual tactile discrimination task.The aim of the study was to verify if paired TMS could induceselective inhibition or facilitation of the unaffected hemispheredepending on the ISI, resulting, respectively, in an improvementand a worsening of contralesional extinction. In addition, wewanted to investigate if the effects of parietal and frontalTMS on contralesional extinction appeared at different intervals,suggesting time-dependent activation in the cortical networkfor the processing of tactile spatial information. Paired TMSstimuli with a CS and a TS, separated by two ISIs of 1 and 10ms, were applied over the left parietal and frontal cortex aftervarious intervals from the presentation of bimanual cutaneousstimuli. Single-test parietal TMS stimuli improved the patients'performance, whereas paired TMS had distinct effects dependingon the ISI: at ISI = 1 ms the improvement in extinction wasgreater than that induced by single-pulse TMS; at ISI = 10 mswe observed worsening of extinction, with complete reversalof the effects of single-pulse TMS. Compared with TMS deliveredover the frontal cortex, parietal TMS improved the extinctionrate in a time window that began earlier. These findings shedfurther light on the mechanism of tactile extinction, suggestingrelative hyperexcitability of the parieto-frontal network inthe unaffected hemisphere, which is amenable to study and modulationby paired TMS pulses. In addition, the results show time-dependentprocessing of tactile spatial information in the parietal andfrontal cortices, with a bimodal distribution of activity, atleast in the attentional network of the unaffected hemisphere.

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