University of South Dakota, Sioux Falls, SD 57105, USA.
Med Hypotheses. 2012 Dec;79(6):719-24. doi: 10.1016/j.mehy.2012.08.009. Epub 2012 Sep 14.
Papilledema has long been associated with elevated intracranial pressure. Classically, tumors, idiopathic intracranial hypertension, and obstructive hydrocephalus have led to an increase in intracranial pressure causing optic nerve head edema and observable optic nerve swelling. Recent reports describe astronauts returning from prolonged space flight on the International Space Station with papilledema (Mader et al., 2011) [1]. Papilledema has not been observed in shorter duration space flight. Other recent work has shown that the difference in intraocular pressure (IOP) and cerebrospinal fluid pressure (CSFp) may be very important in the pathogenesis of diseases of the optic nerve, especially glaucoma (Berdahl and Allingham, 2009; Berdahl, Allingham, et al., 2008; Berdahl et al., 2008; Ren et al., 2009; Ren et al., 2011) [2-6]. The difference in IOP and CSFp across the lamina cribrosa is known as the translaminar pressure difference (TLPD). We hypothesize that in zero gravity, CSF no longer pools in the caudal spinal column as it does in the upright position on earth. Instead, CSF diffuses throughout the subarachnoid space resulting in a moderate but persistently elevated cranial CSF pressure, including the region just posterior to the lamina cribrosa known as the optic nerve subarachnoid space (ONSAS). This small but chronically elevated CSFp could lead to papilledema when CSFp is greater than the IOP. If the TLPD is the cause of optic nerve head edema in astronauts subjected to prolonged zero gravity, raising IOP and/or orbital pressure may treat this condition and protect astronauts in future space travels from the effect of zero gravity on the optic nerve head. Additionally, the same TLPD concept may offer a deeper understanding of the pathogenesis and treatment options of idiopathic intracranial hypertension (IIH), glaucoma and other diseases of the optic nerve head.
视盘水肿长期以来与颅内压升高有关。经典情况下,肿瘤、特发性颅内高压和阻塞性脑积水会导致颅内压升高,引起视神经头水肿和可观察到的视神经肿胀。最近的报告描述了从国际空间站长期太空飞行返回的宇航员出现视盘水肿(Mader 等人,2011)[1]。在较短时间的太空飞行中未观察到视盘水肿。最近的其他研究表明,眼内压(IOP)和脑脊液压力(CSFp)之间的差异在视神经疾病的发病机制中可能非常重要,特别是青光眼(Berdahl 和 Allingham,2009;Berdahl、Allingham 等人,2008;Berdahl 等人,2008;Ren 等人,2009;Ren 等人,2011)[2-6]。穿过筛板的 IOP 和 CSFp 之间的差异称为跨筛板压力差(TLPD)。我们假设在零重力下,脑脊液不再像在地球上直立位置那样聚集在尾部脊柱。相反,脑脊液在蛛网膜下腔扩散,导致颅 CSF 压力适度但持续升高,包括位于筛板后部的视神经蛛网膜下腔(ONSAS)区域。当 CSFp 大于 IOP 时,这种小但慢性升高的 CSFp 可能导致视盘水肿。如果 TLPD 是宇航员长期暴露在零重力下导致视神经头水肿的原因,那么升高 IOP 和/或眶压可能会治疗这种情况,并保护未来太空旅行中的宇航员免受零重力对视神经头的影响。此外,相同的 TLPD 概念可能为特发性颅内高压(IIH)、青光眼和其他视神经头疾病的发病机制和治疗选择提供更深入的理解。
