Dilks Daniel D, Serences John T, Rosenau Benjamin J, Yantis Steven, McCloskey Michael
Department of Cognitive Science, Johns Hopkins University, Baltimore, Maryland 21218, USA.
J Neurosci. 2007 Sep 5;27(36):9585-94. doi: 10.1523/JNEUROSCI.2650-07.2007.
Neural and behavioral evidence for cortical reorganization in the adult somatosensory system after loss of sensory input (e.g., amputation) has been well documented. In contrast, evidence for reorganization in the adult visual system is far less clear: neural evidence is the subject of controversy, behavioral evidence is sparse, and studies combining neural and behavioral evidence have not previously been reported. Here, we report converging behavioral and neuroimaging evidence from a stroke patient (B.L.) in support of cortical reorganization in the adult human visual system. B.L.'s stroke spared the primary visual cortex (V1), but destroyed fibers that normally provide input to V1 from the upper left visual field (LVF). As a consequence, B.L. is blind in the upper LVF, and exhibits distorted perception in the lower LVF: stimuli appear vertically elongated, toward and into the blind upper LVF. For example, a square presented in the lower LVF is perceived as a rectangle extending upward. We hypothesized that the perceptual distortion was a consequence of cortical reorganization in V1. Extensive behavioral testing supported our hypothesis, and functional magnetic resonance imaging (fMRI) confirmed V1 reorganization. Together, the behavioral and fMRI data show that loss of input to V1 after a stroke leads to cortical reorganization in the adult human visual system, and provide the first evidence that reorganization of the adult visual system affects visual perception. These findings contribute to our understanding of the human adult brain's capacity to change and has implications for topics ranging from learning to recovery from brain damage.
感觉输入丧失(如截肢)后,成人躯体感觉系统中皮质重组的神经和行为证据已有充分记录。相比之下,成人视觉系统中重组的证据则远不那么明确:神经证据存在争议,行为证据稀少,且此前尚未有结合神经和行为证据的研究报告。在此,我们报告了来自一名中风患者(B.L.)的行为和神经影像学证据,支持成人人类视觉系统中的皮质重组。B.L.的中风未累及初级视觉皮层(V1),但破坏了通常从左上视野(LVF)向V1提供输入的纤维。因此,B.L.左上视野失明,并在左下视野表现出感知扭曲:刺激物显得垂直拉长,朝向并进入失明的左上视野。例如,在左下视野呈现的正方形被感知为向上延伸的矩形。我们假设这种感知扭曲是V1皮质重组的结果。广泛的行为测试支持了我们的假设,功能磁共振成像(fMRI)证实了V1的重组。行为和fMRI数据共同表明,中风后V1输入丧失会导致成人人类视觉系统中的皮质重组,并首次证明成人视觉系统的重组会影响视觉感知。这些发现有助于我们理解人类成人大脑的变化能力,并对从学习到脑损伤恢复等诸多主题具有启示意义。