Trotter and Gleser's (1958) Asian equations have most frequently been used for stature estimation of Korean skeletal remains. However, limitations or caveats in using those equations have rarely been argued. This study reviews five issues frequently overlooked in applying the equations and interpreting the outcomes. First, Trotter and Gleser (1958) multiply the standard errors by 2 to obtain the 95% prediction interval (PI). However, there is discrepancy between their calculation and actual PIs, and thus correct method for PI calculation is recommended. Secondly, given the uncertainty about the tibia length measurement, there is a possibility that the tibia-related equations yield biased estimates. Thirdly, since a mathematical error was incorporated in the development process of the combined equations, caution should be taken. Fourthly, extrapolation may cause additional unexpected error in applying regression equations. Therefore, it is necessary to check if a target sample falls within the reference sample range prior to using the equations. Lastly, applying Trotter and Gleser's (1958) equations to female samples should be avoided because they produce highly biased estimates. The issues discussed in this study will contribute to reducing potential errors associated with application of these equations, and eventually enhancing accuracy of the final stature estimates. If errors are anticipated but unavoidable, discussions about the potential errors should be made to minimize misunderstanding about the outcomes.
Accidental Falls ; Asian Continental Ancestry Group* ; Bias (Epidemiology) ; Female ; Humans ; Methods ; Tibia ; Uncertainty

Stature is one of the unique biological properties of a person, which can be used for identification of the individual. In this regard, statures are estimated for the unknown victims from crimes and disasters. However, the accuracy of estimates may be compromised by inappropriate methodologies and/or practices of stature estimation. Discussed in this study are the methodological issues related to the current practices of forensic anthropological stature estimation in Korea, followed by suggestions to enhance the accuracy of the stature estimates. Summaries of forensic anthropological examinations for 560 skeletal remains, which were conducted at the National Forensic Service (NFS), were reviewed. Mr. Yoo Byung-eun's case is utilized as an example of the NFS's practices. To estimate Mr. Yoo's stature, Trotter's (1970) femur equation was applied even though the fibula equation of a lower standard error was available. In his case report, the standard error associated with the equation (±3.8 cm) was interpreted as an ‘error range’, which gave a hasty impression that the prediction interval is that narrow. Also, stature shrinkage by aging was not considered, so the estimated stature in Mr. Yoo's case report should be regarded as his maximum living stature, rather than his stature-at-death. Lastly, applying Trotter's (1970) White female equations to Korean female remains is likely to underestimate their statures. The anatomical method will enhance the accuracy of stature estimates. However, in cases that the anatomical method is not feasible, the mathematical method based on Korean samples should be considered. Since 1980's, effort has been made to generate stature estimation equations using Korean samples. Applying the equations based on Korean samples to Korean skeletal remains will enhance the accuracy of the stature estimates, which will eventually increase the likelihood of successful identification of the unknowns.
Aging ; Crime ; Disasters ; Female ; Femur ; Fibula ; Forensic Anthropology ; Humans ; Korea* ; Methods

Long bone diaphyseal cross-sectional shape as a primary measure of biomechanical loading has attracted much attention in physical anthropology. Especially, lower limb bones have been widely used to reconstruct the mobility pattern of the past population. In this research, the cross-sectional size of the femoral shaft was investigated for the human skeletal remains excavated from the Eunpyeong site, dating the period spanning from the mid-15th to the early 20th centuries. The purpose of this research is to examine and report the biomechanical characteristics of the past populations living during Joseon Dynasty period. The results showed that Eunpyeong population was grouped into the 'platymeric category (i.e., platymeric index below 84.9). Females were more platymeric (i.e., more laterally flattened) than males and the sexual dimorphism was statistically significant. In addition, the samples of Eunpyeong site showed a relatively lower pilasteric index (i.e., more round) compared to the populations reported in other studies. The results of this research provide an insight to shed light on the ecological environments, subsistence strategies, and life styles of the past populations. Yet, for more detailed interpretation, it appears necessary to take into account other types of indicators for biomechanical stresses and accumulate more archaeological evidences.
Anthropology, Physical ; Female ; Femur ; Humans ; Life Style ; Lower Extremity ; Male ; Stress, Mechanical