E. Kounadi scite author profile

The structure of mouse skin collagen fibrils after treatment with 0.5, 1 and 2.5 Gy gamma-irradiation was studied by electron microscopy. Animals were sacrificed 1, 4 and 8 weeks after irradiation. Although there were areas where the normal parallel packing of fibrils was retained in some regions packing was interrupted by abnormal fibrils and in some cases helical twisting was apparent. Irradiated collagen fibrils had a lower mean diameter compared with normal and a large variability in width. The diameter of 0.5 Gy irradiated fibrils returned to normal by 4 or 8 weeks after irradiation. Clusters of abnormal fibrils were found when viewed in cross-sections. Their number and size was reversibly dependent on the dose level. All fibrils retained normal banding periodicity. Computer analysis of irradiated and control patterns led to the conclusion that 0.5-2.5 Gy gamma-irradiation had no considerable effect in modifying the charge distribution along the mouse skin collagen fibril.

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The Influence of Inflammation-Mediated Osteopenia (IMO) on the Structure of Rabbit Bone and Skin Collagen Fibrils

Kounadi

Fountos

Tzaphlidou

1998

Connective Tissue Research

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The influence of Inflammation Mediated Osteopenia (IMO) on rabbit skin and bone (trabecular and cortical) collagen fibrils was studied by electron microscopy. Severe abnormalities in collagen fibril structure were detected, at the ultrastructural level, in skin and bone specimens from IMO rabbits. In treated animals the arrangement of fibrils is anarchic. The overall collagen fibril architecture is disturbed compared to normal. IMO collagen fibrils' mean diameter values were significantly larger than those from controls, in all examined tissues. However, the banding patterns of fibrils were normal in all cases. Computer analysis shows no differences in charged amino acid composition between IMO and untreated samples. Our results show a correlation between the effects induced by osteopenia on skin and bone collagen.

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E. Kounadi

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The Influence of Inflammation-Mediated Osteopenia (IMO) on the Structure of Rabbit Bone and Skin Collagen Fibrils

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