Impedance threshold device as a countermeasure for spaceflight associated neuro-ocular syndrome (SANS): Mitigating mechanisms in proposed pathophysiology
Mohammed Tayyib Masood , Jen-Wei (Willy) Wang , Eleni Angeliki Zoumi , Kinshuk Jain , Alex Suh , Joshua Ong , Ethan Waisberg , Mouayad Masalkhi , Andrew G. Lee
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Abstract
Long-duration spaceflight (LDSF) is associated with unique hazards and linked with numerous human health risks including Spaceflight Associated Neuro-ocular Syndrome (SANS). The proposed mechanisms for SANS include microgravity induced cephalad fluid shift and increased Intracranial Pressure (ICP). SANS is a disorder seen only after LDSF and has no direct terrestrial pathologic counterpart as the zero G environment cannot be completely replicated on Earth. Head-down tilt, bed rest studies however have been used as a terrestrial analog and produce the cephalad fluid shift. Some proposed countermeasures for SANS include vasoconstrictive thigh cuffs and lower body negative pressure. Another potential researched countermeasure is the impedance threshold device (ITD) which can reduce ICP. We review the mechanisms of the ITD and its potential use as a countermeasure for SANS.
长期太空飞行(LDSF)具有独特的危害,并与包括太空飞行相关神经眼综合症(SANS)在内的众多人类健康风险相关联。SANS 的拟议机制包括微重力诱发的头颅液转移和颅内压(ICP)升高。由于零重力环境无法在地球上完全复制,因此 SANS 是一种仅在低重力飞行后才会出现的病症,在地球上没有直接的病理对应物。不过,低头倾斜、卧床休息研究已被用作地球上的类似物,并产生头向体液转移。针对 SANS 提出的一些对策包括大腿血管收缩袖带和下半身负压。另一种潜在的研究对策是阻抗阈值装置(ITD),它可以降低 ICP。我们回顾了 ITD 的机制及其作为 SANS 应对措施的潜在用途。
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Life Sciences in Space Research publishes high quality original research and review articles in areas previously covered by the Life Sciences section of COSPAR''s other society journal Advances in Space Research.
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