Dutch population specific sex estimation formulae using the proximal femur

Dutch population specific sex estimation formulae using the proximal femur

•This study focuses on femoral head measurements for sex estimation.•Both dry bone- and CT-based measurements were tested for reliability and accuracy.•Only femoral measurements with acceptable agreement were used.•Formulae were developed by using clinical CT data as a source of osteometric data.•A...

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Bibliographic Details
Published in:Forensic science international Vol. 286; pp. 268.e1 - 268.e8
Main Authors: Colman, K.L., Janssen, M.C.L., Stull, K.E., van Rijn, R.R., Oostra, R.J., de Boer, H.H., van der Merwe, A.E.
Format: Journal Article
Language:English
Published: Ireland Elsevier B.V 01-05-2018
Elsevier Limited
Subjects:
Accuracy
Biocompatibility
Biomedical materials
Classification
Component reliability
Computed tomography
Data collection
Error analysis
Femur
Forensic anthropology
Forensic anthropology population data
Forensic engineering
Forensic science
Forensic sciences
Mathematical models
Model accuracy
Population
Radiology
Regression analysis
Reliability analysis
Sex
Virtual anthropology
Netherlands
Virtual anthropology
Radiology
Forensic anthropology
Accuracy
Computed tomography
Forensic anthropology population data
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Summary:•This study focuses on femoral head measurements for sex estimation.•Both dry bone- and CT-based measurements were tested for reliability and accuracy.•Only femoral measurements with acceptable agreement were used.•Formulae were developed by using clinical CT data as a source of osteometric data.•A population-specific sex estimation method for the Dutch population is presented. Sex estimation techniques are frequently applied in forensic anthropological analyses of unidentified human skeletal remains. While morphological sex estimation methods are able to endure population differences, the classification accuracy of metric sex estimation methods are population-specific. No metric sex estimation method currently exists for the Dutch population. The purpose of this study is to create Dutch population specific sex estimation formulae by means of osteometric analyses of the proximal femur. Since the Netherlands lacks a representative contemporary skeletal reference population, 2D plane reconstructions, derived from clinical computed tomography (CT) data, were used as an alternative source for a representative reference sample. The first part of this study assesses the intra- and inter-observer error, or reliability, of twelve measurements of the proximal femur. The technical error of measurement (TEM) and relative TEM (%TEM) were calculated using 26 dry adult femora. In addition, the agreement, or accuracy, between the dry bone and CT-based measurements was determined by percent agreement. Only reliable and accurate measurements were retained for the logistic regression sex estimation formulae; a training set (n=86) was used to create the models while an independent testing set (n=28) was used to validate the models. Due to high levels of multicollinearity, only single variable models were created. Cross-validated classification accuracies ranged from 86% to 92%. The high cross-validated classification accuracies indicate that the developed formulae can contribute to the biological profile and specifically in sex estimation of unidentified human skeletal remains in the Netherlands. Furthermore, the results indicate that clinical CT data can be a valuable alternative source of data when representative skeletal collections are unavailable.
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ISSN:0379-0738
1872-6283
DOI:10.1016/j.forsciint.2017.12.029