在人类视觉皮层中,经过长时间的刺激,大脑氧代谢和血流的适应性以及神经血管耦合的调节。
Adaptation of cerebral oxygen metabolism and blood flow and modulation of neurovascular coupling with prolonged stimulation in human visual cortex.
机构信息
Department of Radiology, University of California, San Diego, CA 92103-8756, USA.
出版信息
Neuroimage. 2013 Nov 15;82:182-9. doi: 10.1016/j.neuroimage.2013.05.110. Epub 2013 May 31.
Abstract
Prolonged visual stimulation results in neurophysiologic and hemodynamic adaptation. However, the hemodynamic adaptation appears to be small compared to neural adaptation. It is not clear how the cerebral metabolic rate of oxygen (CMRO2) is affected by adaptation. We measured cerebral blood flow (CBF) and CMRO2 change in responses to peripheral stimulation either continuously, or intermittently (on/off cycles). A linear system's response to the continuous input should be equal to the sum of the original response to the intermittent input and a version of that response shifted by half a cycle. The CMRO2 response showed a large non-linearity consistent with adaptation, the CBF response adapted to a lesser degree, and the blood oxygenation level dependent (BOLD) response was nearly linear. The metabolic response was coupled with a larger flow in the continuous condition than in the intermittent condition. Our results suggest that contrast adaptation improves energy economy of visual processing. However BOLD modulations may not accurately represent the underlying metabolic nonlinearity due to modulation of the coupling of blood flow and oxygen metabolism changes.
摘要
长时间的视觉刺激会导致神经生理和血液动力学的适应。然而,与神经适应相比,血液动力学适应似乎较小。目前尚不清楚氧代谢率 (CMRO2) 如何受到适应的影响。我们通过连续或间歇(开/关周期)测量外周刺激时的脑血流 (CBF) 和 CMRO2 变化。线性系统对连续输入的响应应该等于其对间歇输入的原始响应的总和,以及该响应的一半周期偏移版本。CMRO2 响应表现出与适应一致的大非线性,CBF 响应适应程度较小,血氧水平依赖 (BOLD) 响应几乎是线性的。代谢反应与连续条件下的较大流量相关联,而不是与间歇条件下的较大流量相关联。我们的结果表明,对比适应可以提高视觉处理的能量经济性。然而,由于血液流动和氧气代谢变化的耦合调制,BOLD 调制可能无法准确表示潜在的代谢非线性。
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