Functional Connections Between Auditory Cortex on Heschl's Gyrus and on the Lateral Superior Temporal Gyrus in Humans

doi:10.1152/jn.00500.2003

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Functional Connections Between Auditory Cortex on Heschl's Gyrus and on the Lateral Superior Temporal Gyrus in Humans

John F. Brugge¹^,2^,3, Igor O. Volkov¹, P. Charles Garell¹, Richard A. Reale²^,3 and Matthew A. Howard, III¹

¹Department of Neurosurgery, University of Iowa College of Medicine, Iowa City, Iowa 52242; and ²Department of Physiology and ³Waisman Center, University of Wisconsin, Madison, Wisconsin 53705

Submitted 23 May 2003; accepted in final form 22 August 2003

Functional connections between auditory fields on Heschl's gyrus(HG) and the acoustically responsive posterior lateral superiortemporal gyrus (field PLST) were studied using electrical stimulationand recording methods in patients undergoing diagnosis and treatmentof intractable epilepsy. Averaged auditory (click-train) evokedpotentials were recorded from multicontact subdural recordingarrays chronically implanted over the lateral surface of thesuperior temporal gyrus (STG) and from modified depth electrodesinserted into HG. Biphasic electrical pulses (bipolar, constantcurrent, 0.2 ms) were delivered to HG sites while recordingfrom the electrode array over acoustically responsive STG cortex.Stimulation of sites along the mediolateral extent of HG resultedin complex waveforms distributed over posterolateral STG. Theseareas overlapped each other and field PLST. For any given HGstimulus site, the morphology of the electrically evoked waveformvaried across the STG map. A characteristic waveform was recordedat the site of maximal amplitude of response to stimulationof mesial HG [presumed primary auditory field (AI)]. Latencymeasurements suggest that the earliest evoked wave resultedfrom activation of connections within the cortex. Waveformschanged with changes in rate of electrical HG stimulation orwith shifts in the HG stimulus site. Data suggest widespreadconvergence and divergence of input from HG to posterior STG.Evidence is presented for a reciprocal functional projection,from posterolateral STG to HG. Results indicate that in humansthere is a processing stream from AI on mesial HG to an associationalauditory field (PLST) on the lateral surface of the superiortemporal gyrus.

Address for reprint requests and other correspondence: J. F. Brugge, 627 Waisman Center, University of Wisconsin, Madison, WI 53705 (E-mail: brugge{at}waisman.wisc.edu).

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