Introduction.
The human cutaneous scars manifest themselves many ways in different types according to the factors such as the age, sex, race of the patient as well as the location, kind and healing process of the wound. Among the scars it is quiet difficult to verify the clinical course of the hypertrophic or keloidal scars from the true keloids. However, clinical observations indicate that stress, either mechanical or in the forms of chronic infections, can induce a functional change in the fibroblasts causing an excessive production of collagenous matrix.
In this study, we preliminary attempt to justify any difference of the cellular structure between keloids and hypertrophic scars by using electron microscope.
Material and Methods.
A total of 23 cases 2 scars, 2 hypertrophic scars and 19 keloids are examined. Immediately, the biopsy tissue was fixed in 10% neutral formalin and 4 % glutaraldehyde solution in phosphate buffer for 4 hours, post fixed in 1 % osmium tetraoxide for two hours, dehydrated with graded alcohol, and embedded in Epon 812. Thick sections were stained with hematoxylin eosin, periodic acid-Schiff (PAS) and Van Gieson stain. Thin sections were cut and uranyle acetate, lead citrate stain_ and examined with the electron microscope.
Result.
The morphologic features of keloid showed thick, homogenously eosinophilic bands of collagen and numerous large active fibroblasts. The hypertrophic scar and soft scar are more cellular than keloid and composed thinner collagenous fiber. For this paper in the etiology of keloids can not as, be defined, but an interesting, keloidal tissue fibroblast showed irregular nucleus with irreo lar shape. dense bodies and fibril materials contained in. to the cytoplasm.
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