125 research outputs found
Radiation induced CNS toxicity – molecular and cellular mechanisms
Radiotherapy of tumours proximal to normal CNS structures is limited by the sensitivity of the normal tissue. Prior to the development of prophylactic strategies or treatment protocols a detailed understanding of the mechanisms of radiation induced CNS toxicity is mandatory. Histological analysis of irradiated CNS specimens defines possible target structures prior to a delineation of cellular and molecular mechanisms. Several lesions can be distinguished: Demyelination, proliferative and degenerative glial reactions, endothelial cell loss and capillary occlusion. All changes are likely to result from complex alterations within several functional CNS compartments. Thus, a single mechanism responsible cannot be separated. At least four factors contribute to the development of CNS toxicity: (1) damage to vessel structures; (2) deletion of oligodendrocyte-2 astrocyte progenitors (O-2A) and mature oligodendrocytes; (3) deletion of neural stem cell populations in the hippocampus, cerebellum and cortex; (4) generalized alterations of cytokine expression. Several underlying cellular and molecular mechanisms involved in radiation induced CNS toxicity have been identified. The article reviews the currently available data on the cellular and molecular basis of radiation induced CNS side effects. http://www.bjcancer.com © 2001 Cancer Research Campaig
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NACA Technical Notes
Note presenting a demonstration of the effect of axial and twisting misaligning couples on the oil film pressure distribution of a loaded bearing as shown by photographs of a number of three-dimensional plaster models representing averaged oil film pressure distribution under representative conditions. Five models with five different conditions were tested. Results regarding the oil film pressure distribution, bearing temperature distribution, and friction are provided
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