Private Practice, Arlington, Massachusetts, United States of America.
PLoS One. 2023 May 4;18(5):e0285269. doi: 10.1371/journal.pone.0285269. eCollection 2023.
How cerebrospinal fluid (CSF) drains from the human brain is of paramount importance to cerebral health and physiology. Obstructed CSF drainage results in increased intra-cranial pressure and a predictable cascade of events including dilated cerebral ventricles and ultimately cell death. The current and accepted model of CSF drainage in humans suggests CSF drains from the subarachnoid space into the sagittal sinus vein. Here we identify a new structure in the sagittal sinus of the human brain by anatomic cadaver dissection. The CSF canalicular system is a series of channels on either side of the sagittal sinus vein that communicate with subarachnoid cerebrospinal fluid via Virchow-Robin spaces. Fluorescent injection confirms that these channels are patent and that flow occurs independent of the venous system. Fluoroscopy identified flow from the sagittal sinus to the cranial base. We verify our previous identification of CSF channels in the neck that travel from the cranial base to the subclavian vein. Together, this information suggests a novel path for CSF drainage of the human brain that may represent the primary route for CSF recirculation. These findings have implications for basic anatomy, surgery, and neuroscience, and highlight the continued importance of gross anatomy to medical research and discovery.
脑脊液(CSF)如何从人脑排出对大脑健康和生理学至关重要。CSF 排出受阻会导致颅内压升高,并引发一系列可预测的事件,包括脑室内扩张,最终导致细胞死亡。目前被广泛接受的人类 CSF 排出模型表明,CSF 从蛛网膜下腔排入矢状窦静脉。在这里,我们通过解剖尸体发现了人类矢状窦中的一个新结构。CSF 管腔系统是矢状窦静脉两侧的一系列通道,通过 Virchow-Robin 间隙与蛛网膜下腔 CSF 相通。荧光注射证实这些通道是开放的,并且在没有静脉系统的情况下也会发生流动。透视检查发现 CSF 从矢状窦流向颅底。我们验证了之前在颈部发现的 CSF 通道的识别,这些通道从颅底一直延伸到锁骨下静脉。综上所述,这些信息表明了 CSF 从人脑排出的一种新途径,可能是 CSF 再循环的主要途径。这些发现对基础解剖学、手术和神经科学都有影响,并强调了大体解剖学对医学研究和发现的持续重要性。
