Introduction: For the assessment of sexual dimorphism of human skeleton, pelvis has been used with great accuracy by anthropologists and forensic experts. Sacrum, being an integral part of pelvis, has therefore gained importance. Among the various parameters of sacrum, sacral index is the most reliable one, calculated by the formula: Sacral index=max breadth x100/max length of sacrum. This study aimed to determine the significance of sacral index in estimation of sex in north Indian population. Materials and methods: For the present study, 35 dry human sacrum bones were obtained from the Department of Anatomy, KGMU, Lucknow, out of which 32, free of deformity, were used in study. The bones were first separated as male and female on the basis of their gross features. Maximum length and breadth of sacra were measured using digital sliding Vernier calliper and sacral index was calculated. Results: Mean sacral index was significantly higher in females (109.52) as compared to males (92.37). Sex determination done on the basis of gross features were comparable to that done by calculation of sacral index, except in sacrum no. 5,13,14,15 &16. Sacrum no. 5,13,14 &15 were more curved forwards (female feature) while their sacral indices were much lesser (male feature). Sacrum no. 16 had a uniform curvature (male feature) while its sacral index was>105 (female feature). Sacrum no. 16 also had only 3 dorsal and ventral foramina, which was a variation. Conclusions: Sacral index is a reliable criterion for sex determination, useful for anatomical, medicolegal and anthropological purposes.
Background: The morphology of the epithelium of oral lips comprised of keratinized external epithelium (anteriorly) and non-keratinized or sometimes parakeratinized mucous membrane epithelium (posteriorly). Aims and Objectives: Knowledge of morphometry of lip lining helps in deciding the best site for choosing graft for its better uptake during several dermal grafting procedures following trauma or tumor excision following craniofacial cancers or cosmetic procedures. It also proves useful in dermatopharmacokinetics, in which we monitor the effect of drugs acting on connective tissue by trans labial route and lip augmentation surgeries (esthetic surgery), where care is to be given for dermal fillers not to be injected in muscle core of lip. Materials and Methods: Ten human male cadavers were procured in the Department of Anatomy, King George Medical University, Lucknow, Uttar Pradesh. The rectangle-shaped skin specimen through lower lip which included skin, mucocutaneous junction, and mucosa was stained with hematoxylin and eosin stain. Total of 30 slides were prepared. Thus, readings were obtained for three regions, respectively, with the help of CatCam E-series HD cameras which were installed in light microscope. The following conclusions were drawn for various parameters. Results: Thickness of skin (epidermis+dermis) of lip ranged from 880 μm to 1171 μm among males. Epidermal thickness increases on moving from cutaneous region to mucosa region of lip. Lowest contribution of stratum corneum in thickness of epidermis was observed in vermillion region, while highest contribution was observed in skin region. It was found to be absent in mucosa region of lip. Rete pegs at dermo epidermal junction was found to be maximum in vermillion region and minimum in skin region. Its depth increased as we move from skin to mucosa region of lip. Pattern of rete pegs also showed a characteristic feature in every region of lip. In cutaneous part of lip, rete pegs were shorter and blunt. In vermillion region, they were narrow, long, and slender, while they were longest with blunt end in mucosa region. Depth of dermis was found to be maximum in skin region while minimum in vermillion region. It ranged between 707 μm and 1100 μm. Conclusion: Care should be taken while using dermal fillers in lip augmentation surgeries, especially in vermillion region due to its close proximity to musculature in core of lip.
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