Department of Neurological Surgery, Weill Medical College of Cornell University, New York Presbyterian Hospital, New York, New York 10021, USA.
J Neurosci. 2011 Sep 14;31(37):13292-300. doi: 10.1523/JNEUROSCI.2597-11.2011.
Epileptic events initiate a large focal increase in metabolism and cerebral blood flow (CBF) to the ictal focus. In contrast, decreases in CBF have been demonstrated surrounding the focus, the etiology of which is unknown (i.e., arising either from active shunting of blood or passive steal). The relationship between these events and neuronal activity and metabolism are also unknown. We investigated neurovascular and neurometabolic coupling in the ictal surround using optical imaging of light scattering and cerebral blood volume, autofluorescence flavoprotein imaging (AFI), direct measurements of the cortical metabolic rate of oxygen and two-photon imaging of blood vessel diameter in a rat model of ictal events elicited with focal injection of 4-aminopyridine. We discovered a novel phenomenon, in which ictal events are preceded by preictal vasoconstriction of blood vessels in the surround, occurring 1-5 s before seizure onset, which may serve to actively shunt oxygenated blood to the imminently hypermetabolic focus or may be due to small local decreases in metabolism in the surround. Early ictal hypometabolism, transient decreases in cell swelling and cerebral blood volume in the surround are consistent with early ictal surround inhibition as a precipitating event in seizure onset as well as shaping the evolving propagating ictal wavefront, although the exact mechanism of these cerebrovascular and metabolic changes is currently unknown. AFI was extremely sensitive to the ictal onset zone and may be a useful mapping technique with clinical applications.
癫痫发作会引起发作灶周围代谢和脑血流(CBF)的大幅增加。相比之下,已经证明发作灶周围的 CBF 会减少,但原因尚不清楚(即可能是由于血液主动分流或被动盗血所致)。这些事件与神经元活动和代谢之间的关系也不清楚。我们使用光散射和脑血容量的光学成像、自发荧光黄素蛋白成像(AFI)、皮质氧代谢率的直接测量以及在 4-氨基吡啶局灶注射诱发的癫痫发作大鼠模型中进行的双光子血管直径成像,研究了发作灶周围的神经血管和神经代谢偶联。我们发现了一种新现象,即在癫痫发作前 1-5 秒,发作灶周围的血管会发生预发性血管收缩,这可能是为了将含氧血液主动分流到即将发生高代谢的发作灶,也可能是由于周围代谢局部减少所致。发作灶周围的早期癫痫发作低代谢、细胞肿胀和脑血容量的短暂减少与发作起始时的早期发作灶抑制以及形成不断发展的传播性癫痫波阵面一致,尽管这些脑血管和代谢变化的确切机制目前尚不清楚。AFI 对癫痫发作起始区非常敏感,可能是一种具有临床应用价值的有用映射技术。