Helen Wills Neuroscience Institute, University of California Berkeley, CA, USA.
Front Hum Neurosci. 2011 Nov 4;5:127. doi: 10.3389/fnhum.2011.00127. eCollection 2011.
Reduced gamma-aminobutyric acid (GABA) levels in cerebral cortex are thought to contribute to information processing deficits in patients with schizophrenia (SZ), and we have previously reported lower in vivo GABA levels in the visual cortex of patients with SZ. GABA-mediated inhibition plays a role in sharpening orientation tuning of visual cortical neurons. Therefore, we predicted that tuning for visual stimulus orientation would be wider in SZ. We measured orientation tuning with a psychophysical procedure in which subjects performed a target detection task of a low-contrast oriented grating, following adaptation to a high-contrast grating. Contrast detection thresholds were determined for a range of adapter-target orientation offsets. For both SZ and healthy controls, contrast thresholds decreased as orientation offset increased, suggesting that this tuning curve reflects the selectivity of visual cortical neurons for stimulus orientation. After accounting for generalized deficits in task performance in SZ, there was no difference between patients and controls for detection of target stimuli having either the same orientation as the adapter or orientations far from the adapter. However, patients' thresholds were significantly higher for intermediate adapter-target offsets. In addition, the mean width parameter of a Gaussian fit to the psychophysical orientation tuning curves was significantly larger for the patient group. We also present preliminary data relating visual cortical GABA levels, as measured with magnetic resonance spectroscopy, and orientation tuning width. These results suggest that our finding of broader orientation tuning in SZ may be due to diminished visual cortical GABA levels.
大脑皮层中 γ-氨基丁酸(GABA)水平降低被认为导致精神分裂症(SZ)患者的信息处理缺陷,我们之前曾报道过 SZ 患者视觉皮层中的 GABA 水平较低。GABA 介导的抑制在锐化视觉皮层神经元的方向调谐中起作用。因此,我们预测 SZ 患者的视觉刺激方向调谐会更宽。我们通过一种心理物理程序来测量方向调谐,在该程序中,受试者在适应高对比度光栅后执行低对比度定向光栅的目标检测任务。针对一系列适配目标方向偏移,确定对比度检测阈值。对于 SZ 和健康对照组,对比度阈值随着方向偏移的增加而降低,这表明该调谐曲线反映了视觉皮层神经元对刺激方向的选择性。在考虑 SZ 患者在任务表现中的普遍缺陷后,对于与适配器具有相同方向或与适配器方向相差较大的目标刺激的检测,患者和对照组之间没有差异。然而,患者的阈值对于中间适配器-目标偏移显著更高。此外,高斯拟合心理物理方向调谐曲线的平均宽度参数对于患者组显著更大。我们还提供了与使用磁共振波谱术测量的视觉皮层 GABA 水平和方向调谐宽度相关的初步数据。这些结果表明,我们在 SZ 中发现的更宽的方向调谐可能是由于视觉皮层 GABA 水平降低所致。
