Physical Disability in the Microgravity Environment: Factors for Consideration in the Human Spinal Cord Injury Model

机译：微重力环境中的身体残疾：在人类脊髓损伤模型中需要考虑的因素

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Physiological effects and side effects of high thoracic (and lower) neurological dysfunction due to spinal cord injury (SCI) do net lie in contrast with spaceflight opportunities. Indeed, many of the effects of long- erm habitation in a microgravity environment by the so far able-bodied pioneers are experienced continuously by those living with physical disability in a +lg environment. Though some of these might make spaceflight more enduring, others may make microgravity habitation, and indeed recovery from it, easier than it is for the able-bodied. Importantly, there is a massive cultural understanding to be gained from the knowledge that it is our own Earth-bound annealed environment that dictates the refinements of physical disability. It is the conclusion and challenge of this short paper that the benefits of exploring microgravity habitation with a physical disability, s uch as SCI, outweigh the pitfalls, and that not only spaceflight and medical research but also the "human experience" would greatly benefit from exploring this option.

机译：与航天飞行机会形成对比的是，脊髓损伤（SCI）引起的高胸（及下）神经功能障碍的生理效应和副作用确实存在。的确，迄今为止，身体健全的先驱者在微重力环境中长期居住在微重力环境中的许多影响，在+ lg环境中一直存在于身体残疾的人身上。尽管其中一些可能使太空飞行更加持久，但其他一些则可能使微重力栖息地以及从中恢复的过程比健全人更容易。重要的是，要认识到，正是我们自己的，受地球约束的退火环境决定了身体残疾的改善，因此可以获得广泛的文化理解。这篇简短论文的结论和挑战在于，探索具有SCI之类的具有身体残疾的微重力环境的好处超过了陷阱，不仅太空飞行和医学研究，而且“人类经验”都将从中受益探索此选项。

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来源
《International Symposium on Beyond the International Space Station: the Future of Human Spaceflight Jun 4-7, 2002 Strasbourg, France》|2002年|p.311-312|共2页
会议地点 Strasbourg(FR)
作者
R. I. Tylor;
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作者单位

The INSPIRE Foundation, The Duke of Cornwall Spinal Treatment Centre, c / o Salisbury District Hospital, Salisbury, Wiltshire, SP2 8BJ, UK;

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会议组织
原文格式 PDF
正文语种 eng
中图分类航天（宇宙航行）;
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1. Narrative environments and the capacity of disability narratives to motivate leisure-time physical activity among individuals with spinal cord injury [J] . PerrierM.-J., SmithB.M., Latimer-CheungA.E. Disability and rehabilitation. . 2013,第24a26期

机译：脊髓损伤个体的叙事环境和残疾叙事激发休闲时间体育活动的能力
2. Factors associated with quality of life among people with spinal cord injury: Application of the international classification of functioning, disability and health model [J] . ChangF.-H., WangY.-H., JangY., Archives of Physical Medicine and Rehabilitation . 2012,第12期

机译：脊髓损伤患者生活质量相关因素：功能，残疾和健康模型国际分类的应用
3. Evaluation of the physical activity scale for individuals with physical disabilities in people with spinal cord injury. [J] . de Groot S, van der Woude LH, Niezen A, Spinal cord: the official journal of the International Medical Society of Paraplegia . 2010,第7期

机译：评估脊髓损伤患者中身体残疾者的体育活动量表。
4. Physical Disability in the Microgravity Environment: Factors for Consideration in the Human Spinal Cord Injury Model [C] . R. I. Tylor International symposium on beyond the international space station: The future of human spaceflight . 2002

机译：微匍匐环境中的物理残疾：人类脊髓损伤模型考虑因素
5. Factors affecting acceptance of disability: A pilot study among Chinese individuals with spinal cord injury. [D] . Jiao, Jie. 2012

机译：影响残疾接受度的因素：在中国脊髓损伤患者中进行的一项初步研究。
6. A Rehabilomics framework for personalized and translational rehabilitation research and care for individuals with disabilities: Perspectives and considerations for spinal cord injury [O] . Amy K. Wagner 2014

机译：用于个性化和转化性康复研究和残疾人康复的康复组学框架：脊髓损伤的观点和考虑
7. Human Mesenchymal Precursor Cells (Stro-1+) from Spinal Cord Injury Patients Improve Functional Recovery and Tissue Sparing in an Acute Spinal Cord Injury Rat Model [O] . Stuart I. Hodgetts, Paul J. Simmons, Giles W. Plant 2013

机译：来自脊髓损伤患者的人间充质前体细胞（Stro-1 +）改善急性脊髓损伤大鼠模型中的功能恢复和组织备

Physical Disability in the Microgravity Environment: Factors for Consideration in the Human Spinal Cord Injury Model

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