POTENTIAL VASCULAR DAMAGE FROM RADIATION IN THE SPACE ENVIRONMENT

被引:4
|
作者
GRIEM, ML
ROBOTEWSKYJ, A
NAGEL, RH
机构
[1] Department of Radiation Oncology, University of Chicago Medical Center, Chicago
来源
LIFE SCIENCES AND SPACE RESEARCH XXV(2): RADIATION BIOLOGY | 1994年 / 14卷 / 10期
关键词
D O I
10.1016/0273-1177(94)90510-X
中图分类号
V [航空、航天];
学科分类号
08 ; 0825 ;
摘要
Cultured endothelial cells of blood vessels have a Do of 2 Gy for X-rays. A dose of 0.5 Gy of X-rays has an acute effect on vessel diameter. The vessels may show other acute effects such as change in permeability including a change in the blood brain barrier. Changes occurring from late effects of chronic exposure in vascular architecture include telangiectasia and decrease in vascular density. Changes in the perivascular connective tissue particularly collagen may play a role in these changes. After charged particle exposure of 15 and 30 Gy, radiation changes in the blood brain barrier and vascular changes are noted in the nervous system. These long term changes are recorded by PET, MRI, and CT imaging. Chronic exposure to alpha particles causes vascular damage in compact bone resulting in bone infarcts. Using tandem scanning confocal microscopy in-situ imaging of the capillaries and collagen of the papillary dermis provides a non-invasive method of serial recording of changes in irradiated microvasculature.
引用
收藏
页码:555 / 563
页数:9
相关论文
共 50 条
  • [31] RADIATION ENVIRONMENT AT AVIATION ALTITUDES AND IN SPACE
    Sihver, L.
    Ploc, O.
    Puchalska, M.
    Ambrozova, I.
    Kubancak, J.
    Kyselova, D.
    Shurshakov, V.
    RADIATION PROTECTION DOSIMETRY, 2015, 164 (04) : 477 - 483
  • [32] ENGINEERING MODELS OF SPACE RADIATION ENVIRONMENT
    MODISETT.JL
    JUDAY, RD
    SNYDER, JW
    TRANSACTIONS OF THE AMERICAN NUCLEAR SOCIETY, 1967, 10 (01): : 373 - &
  • [33] MECHANISMS OF LATE VASCULAR DAMAGE AND POTENTIAL DANGERS OF ANTI-ANGIOGENIC THERAPY COMBINED WITH RADIATION
    Vozenin-Brotons, M. C.
    Mangoni, M.
    Deutsch, E.
    RADIOTHERAPY AND ONCOLOGY, 2011, 98 : S12 - S13
  • [34] FPGAs operating in a radiation environment: lessons learned from FPGAs in space
    Wirthlin, M. J.
    JOURNAL OF INSTRUMENTATION, 2013, 8
  • [35] THE ROLE OF VASCULAR DAMAGE IN THE DEVELOPMENT OF RADIATION PNEUMONITIS
    van der Veen, S.
    Ghobadi, G.
    Faber, H.
    Dickinson, M.
    Beatrijs, B.
    Brandenburg, S.
    Langendijk, H.
    Coppes, R.
    van Luijk, P.
    RADIOTHERAPY AND ONCOLOGY, 2010, 96 : S126 - S127
  • [36] Lunar radiation environment and space weathering from the Cosmic Ray Telescope for the Effects of Radiation (CRaTER)
    Schwadron, N. A.
    Baker, T.
    Blake, B.
    Case, A. W.
    Cooper, J. F.
    Golightly, M.
    Jordan, A.
    Joyce, C.
    Kasper, J.
    Kozarev, K.
    Mislinski, J.
    Mazur, J.
    Posner, A.
    Rother, O.
    Smith, S.
    Spence, H. E.
    Townsend, L. W.
    Wilson, J.
    Zeitlin, C.
    JOURNAL OF GEOPHYSICAL RESEARCH-PLANETS, 2012, 117
  • [37] Memory impairment, oxidative damage and apoptosis induced by space radiation:: Ameliorative potential of α-lipoic acid
    Manda, Kailash
    Ueno, Megumi
    Anzai, Kazunori
    BEHAVIOURAL BRAIN RESEARCH, 2008, 187 (02) : 387 - 395
  • [38] RADIATION DAMAGE AND MATERIALS PERFORMANCE IN IRRDIATION ENVIRONMENT
    Singh, B. N.
    NANOSTRUCTURED METALS: FUNDAMENTALS TO APPLICATIONS, 2009, : 317 - 336
  • [39] The radiation environment and damage in the CDF tracking volume
    Tesarek, RJ
    Chow, YC
    D'Auria, S
    Hocker, A
    Kordas, K
    McGimpsey, S
    Nicolas, L
    Wallny, R
    Worm, S
    2003 IEEE NUCLEAR SCIENCE SYMPOSIUM, CONFERENCE RECORD, VOLS 1-5, 2004, : 1016 - 1020
  • [40] SIMULATION OF SPACE RADIATION DAMAGE TO SPACECRAFT SYSTEMS
    PRICE, WE
    IEEE TRANSACTIONS ON NUCLEAR SCIENCE, 1965, NS12 (06) : 2 - &
12345