电子显微镜在空间辐射生物学中的应用机会。

Scanning electron microscopy Pub Date : 1986-01-01
J T Lett
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引用次数: 0

摘要

外层空间的密集电离粒子辐射可能对哺乳动物组织造成生物损伤,这种损伤特别适合用电子显微镜技术进行检查。这种情况的主要原因是,一旦沿粒子轨迹的电离密度超过一定值,就可能在有组织的组织中引起涉及许多相邻细胞的小的离散病变。电离密度低于临界值所产生的组织损伤也为电子显微镜评估提供了机会,正如在陆地实验中新西兰白兔的视组织和近端组织所产生的损伤所示。在这些方面,非分裂或终末分化组织和干细胞群体中的晚期辐射后遗症具有特别重要的意义。如果没有对这些辐射对有组织的组织造成的损害进行充分的电子显微镜评价,很可能无法完成对外层空间长期任务期间银河微粒辐射对宇航员造成的危害的评价。
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Opportunities for electron microscopy in space radiation biology.

Densely ionizing, particulate radiations in outer space are likely to cause to mammalian tissues biological damage that is particularly amenable to examination by the techniques of electron microscopy. This situation arises primarily from the fact that once the density of ionization along the particle track exceeds a certain value, small discrete lesions involving many adjacent cells may be caused in organized tissues. Tissue damage produced by ionization densities below the critical value also afford opportunities for electron microscopic evaluation, as is shown by the damage produced in optic and proximate tissues of the New Zealand white rabbit in terrestrial experiments. Late radiation sequelae in nondividing, or terminally differentiating, tissues, and in stem cell populations, are of special importance in these regards. It is probable that evaluations of the hazards posed to astronauts by galactic particulate radiations during prolonged missions in outer space will not be complete without adequate electron microscopic evaluation of the damage those radiations cause to organized tissues.

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