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An Experimental Study of Acute Radiation-Induced Cognitive Dysfunction in a Young Rat Model

Y. Liu, S. Xiao, J. Liu, H. Zhou, Z. Liu, Y. Xin and W.Z. Suo
American Journal of Neuroradiology February 2010, 31 (2) 383-387; DOI: https://doi.org/10.3174/ajnr.A1801

References

  1. 1.
    1. Tsao MN,
    2. Lloyd NS,
    3. Wong RK,
    4. et al
    . Radiotherapeutic management of brain metastases: a systematic review and meta-analysis. Cancer Treat Rev 2005;31:25673
    CrossRefPubMedWeb of Science
  2. 2.
    1. Kantor G,
    2. Laprie A,
    3. Huchet A,
    4. et al
    . Radiation therapy for glial tumors: technical aspects and clinical indications. Cancer Radiother 2008;12:68794
    PubMed
  3. 3.
    1. Coleman CN,
    2. Stone HB,
    3. Moulder JE,
    4. et al
    . Modulation of radiation injury. Science 2004;304:69394
    Abstract/FREE Full Text
  4. 4.
    1. Yan L,
    2. Xi Z,
    3. Drettner B
    . Epidemiological studies of nasopharyngeal cancer in the Guangzhou area, China preliminary report. Acta Otolaryngol 1989;107:42427
    CrossRefPubMed
  5. 5.
    1. Li CC,
    2. Yu MC,
    3. Henderson BE
    . Some epidemiologic observations of nasopharyngeal carcinoma in Guangdong, People's Republic of China. Natl Cancer Inst Monogr 1985;69:4952
    PubMed
  6. 6.
    1. Chang ET,
    2. Adami HO
    . The enigmatic epidemiology of nasopharyngeal carcinoma. Cancer Epidemiol Biomarkers Prev 2006;15:176577
    Abstract/FREE Full Text
  7. 7.
    1. Langleben DD,
    2. Segall GM
    . PET in differentiation of recurrent brain tumor from radiation injury. J Nucl Med 2000;41:186167
    Abstract/FREE Full Text
  8. 8.
    1. Chong VF,
    2. Fan YF,
    3. Mukherji SK
    . Radiation-induced temporal lobe changes: CT and MR imaging characteristics. AJR Am J Roentgenol 2000;175:43136
    PubMed
  9. 9.
    1. Roman DD,
    2. Sperduto PW
    . Neuropsychological effects of cranial radiation: current knowledge and future directions. Int J Radiat Oncol Biol Phys 1995;31:98398
    CrossRefPubMedWeb of Science
  10. 10.
    1. Welzel G,
    2. Fleckenstein K,
    3. Mai SK,
    4. et al
    . Acute neurocognitive impairment during cranial radiation therapy in patients with intracranial tumors. Strahlenther Onkol 2008;184:64754
    CrossRefPubMedWeb of Science
  11. 11.
    1. Crossen JR,
    2. Garwood D,
    3. Glatstein E,
    4. et al
    . Neurobehavioral sequelae of cranial irradiation in adults: a review of radiation-induced encephalopathy. J Clin Oncol 1994;12:62742
    Abstract
  12. 12.
    1. Lamproglou I,
    2. Chen QM,
    3. Boisserie G,
    4. et al
    . Radiation-induced cognitive dysfunction: an experimental model in the old rat. Int J Radiat Oncol Biol Phys 1995;31:6570
    CrossRefPubMed
  13. 13.
    1. Morris RG,
    2. Garrud P,
    3. Rawlins JN,
    4. et al
    . Place navigation impaired in rats with hippocampal lesions. Nature 1982;297:68183
    CrossRefPubMedWeb of Science
  14. 14.
    1. Suo Z,
    2. Fang C,
    3. Crawford F,
    4. et al
    . Superoxide free radical and intracellular calcium mediate A beta(1–42) induced endothelial toxicity. Brain Res 1997;762:14452
    CrossRefPubMedWeb of Science
  15. 15.
    1. Whalen MJ,
    2. Carlos TM,
    3. Wisniewski SR,
    4. et al
    . Effect of neutropenia and granulocyte colony stimulating factor-induced neutrophilia on blood-brain barrier permeability and brain edema after traumatic brain injury in rats. Crit Care Med 2000;28:371017
    CrossRefPubMedWeb of Science
  16. 16.
    1. Johannesen TB,
    2. Lien HH,
    3. Hole KH,
    4. et al
    . Radiological and clinical assessment of long-term brain tumour survivors after radiotherapy. Radiother Oncol 2003;69:16976
    CrossRefPubMed
  17. 17.
    1. Serduc R,
    2. van de Looij Y,
    3. Francony G,
    4. et al
    . Characterization and quantification of cerebral edema induced by synchrotron x-ray microbeam radiation therapy. Phys Med Biol 2008;53:115366
    CrossRefPubMed
  18. 18.
    1. Kobierska A,
    2. Karnicka-Młodkowska H,
    3. Solska E
    . [Radiotherapy of neoplasms of the central nervous system.] Neurol Neurochir Pol 1983;17:8590
    PubMed
  19. 19.
    1. Yoneoka Y,
    2. Satoh M,
    3. Akiyama K,
    4. et al
    . An experimental study of radiation-induced cognitive dysfunction in an adult rat model. Br J Radiol 1999;72:1196201
    Abstract
  20. 20.
    1. Hodges H,
    2. Katzung N,
    3. Sowinski P,
    4. et al
    . Late behavioural and neuropathological effects of local brain irradiation in the rat. Behav Brain Res 1998;91:99114
    CrossRefPubMedWeb of Science
  21. 21.
    1. Delattre JY,
    2. Shapiro WR,
    3. Ponsner JB
    . Acute effects of low-dose cranial irradiation on regional capillary permeability in experimental brain tumors. J Neurol Sci 1989;90:14753
    CrossRefPubMed
  22. 22.
    1. Chiang CS,
    2. McBride WH
    . Radiation enhances tumor necrosis factor alpha production by murine brain cells. Brain Res 1991;566:26569
    CrossRefPubMed
  23. 23.
    1. Hayakawa K,
    2. Borchardt PE,
    3. Sakuma S,
    4. et al
    . Microglial cytokine gene induction after irradiation is affected by morphologic differentiation. Radiat Med 1997;15:40510
    PubMed
  24. 24.
    1. Shi L,
    2. Adams MM,
    3. Long A
    . Spatial learning and memory deficits after whole-brain irradiation are associated with changes in NMDA receptor subunits in the hippocampus. Radiation Res 2006;166:89299
    CrossRefPubMedWeb of Science
  25. 25.
    1. Madsen TM,
    2. Kristjansen PE,
    3. Bolwig TG,
    4. et al
    . Arrested neuronal proliferation and impaired hippocampal function following fractionated irradiation in the adult rat. Neuroscience 2003;119:63542
    CrossRefPubMedWeb of Science
  26. 26.
    1. St George EJ,
    2. Perks J,
    3. Plowman PN
    . Stereotactic radiosurgery XIV: The role of the haemosiderin ‘ring’ in the development of adverse reactions following radiosurgery for intracranial cavernous malformations: a sustainable hypothesis. Br J Neurosurg 2002;16:38591
    CrossRefPubMed
  27. 27.
    1. Diserbo M,
    2. Agin A,
    3. Lamproglou I,
    4. et al
    . Blood-brain barrier permeability after gamma whole-body irradiation: an in vivo microdialysis study. Can J Physiol Pharmacol 2002;80:67078
    CrossRefPubMedWeb of Science
  28. 28.
    1. Nakata H,
    2. Yoshimine T,
    3. Murasawa A,
    4. et al
    . Early blood-brain barrier disruption after high-dose single-fraction irradiation in rats. Acta Neurochir (Wien) 1995;136:8286
    CrossRefPubMed
  29. 29.
    1. Hopewell JW,
    2. Calvo W,
    3. Campling D
    . Effects of radiation on the microvasculature. Implications for normal-tissue damage. Front Radiat Ther Oncol 1989:23:8595
    PubMedWeb of Science
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An Experimental Study of Acute Radiation-Induced Cognitive Dysfunction in a Young Rat Model
Y. Liu, S. Xiao, J. Liu, H. Zhou, Z. Liu, Y. Xin, W.Z. Suo
American Journal of Neuroradiology Feb 2010, 31 (2) 383-387; DOI: 10.3174/ajnr.A1801
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