Estimation of Stature from foot length in male indigenous population of Assam Region.

Human stature is one of the biological profiles that can and should be used in the identification of humans from different parts of the human skeleton. Estimation of stature from feet dimensions may play an important role in the identification process of a human. Further, it is also possible to establish a relationship between the feet dimensions and stature of a person. This study is focused on the measurements of feet dimension in indigenous population groups found in the North-East Indian Region (Assam). Measurements of the length of the foot and body height were carried out with the help of Vernier Calipers and standard measuring tape. This paper emphasizes the study of a total the number of 200 male bodies aged between 18 to 65. Linear correlation and regression equation were used to determine the correlation between the foot and body height and using Pearson's coefficient (ρ < 0.001) for the correlation between foot length and stature.

A Cross-Sectional Study of Time Since Death From Image Analysis of Corneal Opacity.

Estimation of time since death (TSD) is an important aspect of forensic medicine. Methods used so far are subjective and have human errors. Corneal opacity images using software to analyze the red, green, and blue (RGB) components of corneal color against the TSD may prove to be an objective method. This study aimed to estimate TSD from image analysis of corneal opacity from the cornea of deceased individuals brought in for medicolegal autopsy to study the factors affecting corneal opacity and to formulate a predictive equation for the estimation of TSD. This was a cross-sectional study conducted at the department of forensic medicine and toxicology of a tertiary care medical institute over two years. The study group included cadavers brought in for autopsy where the TSD was known from hospital records. For study tools, we used a digital single-lens reflex (DSLR) camera with standardized settings, a dark box made of cardboard, and open-access RGB analysis software. Images were analyzed for differences in the numeric values of the RGB color and compared against the TSD. Correlations between TSD and age, gender, and environmental temperature were checked. This study involved 30 cases; these were analyzed and showed an increase in the numeric values of RGB for the corneal color as the TSD increases. Of note, the correlation of TSD with the color red was greater than for either blue or green; age had a positive correlation while gender had nearly no correlation, and the environmental temperature had a negative correlation. Based on this, gender was excluded from our equation. Also, we noted that the variance inflation factor of green was high and, therefore, excluded it from the predictive equation. The equation derived follows: TSD = {(0.091 x Age) + (0.171 x Red) + (0.018 x Blue) - (0.019 x Environmental Temperature) - 5.263}. Using this equation, the mean error was 21 minutes. This equation further narrowed the time range, usually given as four to six hours, when determining the TSD via conventional methods. Image analysis of corneal color after death using RGB analysis software can give us a more accurate and human error-free TSD that can be digitally stored and reproduced and, therefore, could prove useful in the forensic arena in the future.