由模糊和明确图像命名调制的伽马活动:颅内记录
Gamma activity modulated by naming of ambiguous and unambiguous images: intracranial recording.
作者信息
Cho-Hisamoto Yoshimi, Kojima Katsuaki, Brown Erik C, Matsuzaki Naoyuki, Asano Eishi
机构信息
Department of Pediatrics, Children's Hospital of Michigan, Wayne State University, Detroit, MI 48201, USA; Department of Neurology, Children's Hospital of Michigan, Wayne State University, Detroit, MI 48201, USA.
Department of Pediatrics, Children's Hospital of Michigan, Wayne State University, Detroit, MI 48201, USA.
出版信息
Clin Neurophysiol. 2015 Jan;126(1):17-26. doi: 10.1016/j.clinph.2014.03.034. Epub 2014 Apr 18.
OBJECTIVE
Humans sometimes need to recognize objects based on vague and ambiguous silhouettes. Recognition of such images may require an intuitive guess. We determined the spatial-temporal characteristics of intracranially-recorded gamma activity (at 50-120Hz) augmented differentially by naming of ambiguous and unambiguous images.
METHODS
We studied 10 patients who underwent epilepsy surgery. Ambiguous and unambiguous images were presented during extraoperative electrocorticography recording, and patients were instructed to overtly name the object as it is first perceived.
RESULTS
Both naming tasks were commonly associated with gamma-augmentation sequentially involving the occipital and occipital-temporal regions, bilaterally, within 200ms after the onset of image presentation. Naming of ambiguous images elicited gamma-augmentation specifically involving portions of the inferior-frontal, orbitofrontal, and inferior-parietal regions at 400ms and after. Unambiguous images were associated with more intense gamma-augmentation in portions of the occipital and occipital-temporal regions.
CONCLUSIONS
Frontal-parietal gamma-augmentation specific to ambiguous images may reflect the additional cortical processing involved in exerting intuitive guess. Occipital gamma-augmentation enhanced during naming of unambiguous images can be explained by visual processing of stimuli with richer detail.
SIGNIFICANCE
Our results support the theoretical model that guessing processes in visual domain occur following the accumulation of sensory evidence resulting from the bottom-up processing in the occipital-temporal visual pathways.
目的
人类有时需要根据模糊不清的轮廓来识别物体。识别此类图像可能需要直观的猜测。我们确定了通过对模糊和清晰图像进行命名而差异性增强的颅内记录伽马活动(50 - 120赫兹)的时空特征。
方法
我们研究了10例接受癫痫手术的患者。在术中皮层脑电图记录期间呈现模糊和清晰的图像,并指示患者在首次感知到物体时公开说出物体名称。
结果
在图像呈现开始后的200毫秒内,两项命名任务通常都与伽马增强相关,依次涉及双侧枕叶和枕颞叶区域。对模糊图像的命名在400毫秒及之后引发了伽马增强,特别涉及额下、眶额和顶下区域的部分。清晰图像与枕叶和枕颞叶区域部分更强烈的伽马增强相关。
结论
特定于模糊图像的额顶叶伽马增强可能反映了在进行直观猜测时所涉及的额外皮层加工。在对清晰图像命名期间增强的枕叶伽马增强可以通过对具有更丰富细节的刺激进行视觉加工来解释。
意义
我们的结果支持了这样一种理论模型,即视觉领域的猜测过程是在枕颞视觉通路中自下而上加工产生的感觉证据积累之后发生的。
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