OBJECTIVE: We determined where and when category-preferential augmentation of gamma activity took place during naming of animal or non-animal pictures. METHODS: We studied 41 patients with focal epilepsy who underwent measurement of naming-related gamma-augmentation at 50-120 Hz during extraoperative electrocorticography. The assigned task consisted of naming of a visually-presented object classified as either 'animal' or 'non-animal'. RESULTS: Within 80 ms following the onset of picture presentation, regardless of stimulus type, gamma-activity in bilateral occipital regions began to be augmented compared to the resting period. Initially in the occipital poles (at 140 ms and after) and subsequently in the lateral, inferior and medial occipital regions (at 320 ms and after), the degree of gamma-augmentation elicited by 'animal naming' became larger (by up to 52%) than that by 'non-animal naming'. Immediately prior to the overt response, left inferior frontal gamma-augmentation became modestly larger during 'animal naming' compared to 'non-animal naming'. CONCLUSIONS: Animal category-preferential gamma-augmentation sequentially involved the lower- and higher-order visual areas. Relatively larger occipital gamma-augmentation during 'animal naming' can be attributed to the more attentive analysis of animal stimuli including the face. Animal-preferential gamma-augmentation in the left inferior frontal region could be attributed to a need for selective semantic retrieval during 'animal naming'. SIGNIFICANCE: A specific program of cortical processing to distinguish an animal (or face) from other objects might be initiated in the lower-order visual cortex.
OBJECTIVE: We determined where and when category-preferential augmentation of gamma activity took place during naming of animal or non-animal pictures. METHODS: We studied 41 patients with focal epilepsy who underwent measurement of naming-related gamma-augmentation at 50-120 Hz during extraoperative electrocorticography. The assigned task consisted of naming of a visually-presented object classified as either 'animal' or 'non-animal'. RESULTS: Within 80 ms following the onset of picture presentation, regardless of stimulus type, gamma-activity in bilateral occipital regions began to be augmented compared to the resting period. Initially in the occipital poles (at 140 ms and after) and subsequently in the lateral, inferior and medial occipital regions (at 320 ms and after), the degree of gamma-augmentation elicited by 'animal naming' became larger (by up to 52%) than that by 'non-animal naming'. Immediately prior to the overt response, left inferior frontal gamma-augmentation became modestly larger during 'animal naming' compared to 'non-animal naming'. CONCLUSIONS: Animal category-preferential gamma-augmentation sequentially involved the lower- and higher-order visual areas. Relatively larger occipital gamma-augmentation during 'animal naming' can be attributed to the more attentive analysis of animal stimuli including the face. Animal-preferential gamma-augmentation in the left inferior frontal region could be attributed to a need for selective semantic retrieval during 'animal naming'. SIGNIFICANCE: A specific program of cortical processing to distinguish an animal (or face) from other objects might be initiated in the lower-order visual cortex.
Authors: Erik C Brown; Robert Rothermel; Masaaki Nishida; Csaba Juhász; Otto Muzik; Karsten Hoechstetter; Sandeep Sood; Harry T Chugani; Eishi Asano Journal: Neuroimage Date: 2008-03-20 Impact factor: 6.556
Authors: Cihan Mehmet Kadipasaoglu; Christopher Richard Conner; Meagan Lee Whaley; Vatche George Baboyan; Nitin Tandon Journal: PLoS One Date: 2016-06-07 Impact factor: 3.240