Sex estimation of upper long bones by selected measurements in a Radom (Poland) population from the 18th and 19th centuries AD

Tomczyk, Jacek; Nieczuja-Dwojacka, Joanna; Zalewska, Marta; Niemiro, Wojciech; Olczyk, Wioleta

doi:10.1515/anre-2017-0019

Cited by 14 publications

(8 citation statements)

References 51 publications

(73 reference statements)

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“…16 Likewise, in 2017, amongPoland population with the accuracy of gender estimation by radial length was 84 %. 17 Other long bone such as humerus was also reported to predict gender with the accuracy of 93.3% in an Egyptian sample. 18 Gender prediction has also been calculated by femur dimensions with the accuracy of 72.5% in males, and 85% in females.…”

Section: Discussionmentioning

confidence: 93%

Comparison of Gender Prediction Accuracy between Regression Models Derived from Hand, Foot Measurements and Long Bone Measurements in a Sample of Kolhapur Population

Arun S. Karmalkar,

Vasudha R. Nikam

2021

Indian Journal of Forensic Medicine & Toxicology

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Introduction: Here, we aim to compare the accuracy of the regression formula derived to predict gender using data on measurements of foot and hand with the formula derived to predict gender using the length measurements data of the long bones (tibia and ulna).Methods: Patients attending the outpatient services at the Orthopedic Department, and between the age range 18 to 50 years were recruited (n=1000; 500 males and 500 females). Subjects suffering from any kind of bone deformity were excluded. Vallois method was used to estimate the measurements of hand, foot, tibia, and ulna. Regression formulas were obtained from the hand, foot-long bones measurements; to predict gender, using multiple logistic regression.Results: Differences between male's and female's measurements of hand (P<0.001), long bones (P<0.001), and foot (P<0.001) were significant. The accuracy of the model used to predict gender, which was calculated from the dimensions of hand and foot was 81.5%. The accuracy of the model used to predict gender calculated from the long bone measurement was 78.3%. Conclusions:Dimensions of hand and foot are a better predictor (81.5%) of gender vs the length of long bones (tibia and ulna) (78.3%) in the Kolhapur population.

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Section: Discussionmentioning

confidence: 93%

Comparison of Gender Prediction Accuracy between Regression Models Derived from Hand, Foot Measurements and Long Bone Measurements in a Sample of Kolhapur Population

Arun S. Karmalkar,

Vasudha R. Nikam

2021

Indian Journal of Forensic Medicine & Toxicology

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“…However, the level of accuracy was only 86.5% for complete radius from South African samples whereas the incomplete radius resulted in 86% of accuracy [9]. In addition, the accuracy of sex estimation function using radius from Indian and archaeological Polish population was less than 90% [9,11,13]. The discrepancy might be caused by the variation across different populations, in which differential environmental and genetic factors affect the degree of sexual dimorphism expression in each population [19].…”

Section: Discussionmentioning

confidence: 98%

“…In 2001, Mall et al [7] stated that radius performed the best among the three upper limb bones in sex estimation of samples from the contemporary German population. Similarly, previous studies also highlighted that the radius showed high degree of sexual dimorphism, and its dimensions could be used for estimating sex with high classification rates across many populations [6][7][8][9][10][11][12][13]. For instance, the antero-posterior diameter of the radial mid-shaft could predict the sex with the accuracy of 90.4% in the Indian population [11].…”

Section: Introductionmentioning

confidence: 99%

Sex estimation using radius in a Thai population

et al. 2021

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The estimation of sex is an essential component of forensic osteological analyses, and the potential of an incomplete radius for sex determination of human remains is investigated. The present study was conducted on 200 left-right pairs of radial bone from a northern Thai population (100 males and 100 females). The most dimorphic single parameter was maximum head diameter (MDH) with accuracies 92.0% for the right side and 90.5% for the left side. At the distal part of radius, the distal end width of the radius (RDEW) was the best sex indicator, in which the sex classification accuracies were 91.5% and 89.0%, for the right and left sides, respectively. Stepwise discriminant function analysis was performed for all measurements and specified separately to the proximal and distal radius. The circumference of the radial neck, headtuberosity length, MDH, and RDEW were selected for the stepwise procedure as these parameters produced the best correct classification results for both sides. The use of proximal radius for sex estimation was examined, with accuracies of 95.0% and 93.0% for the right and left sides, respectively. The sex classification functions for distal radius provided the accuracies of 92.5% and 89.5%, for the right and left sides, respectively. In summary, the fragments of radius indicated a high ability to estimate sex in the Northern Thai population.

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“…Similarly, femoral measurements provided an accuracy of 90.2% in North Indians (Srivastava et al, 2012), 94.2% in Thais (King et al, 1998), and 92.3% in Chinese (İşcan & Shihai, 1995), while tibial measurements resulted in 88% accuracy in a pooled South European assemblage consisting of Greek, Italian, and Spanish individuals (Kranioti & Apostol, 2015). Finally, combinations of upper limb long bone measurements reached correct sex discrimination accuracies of 90.3%–95.7% in modern Greeks (Charisi et al, 2011), but only 83%–84% in a Polish group (Tomczyk et al, 2017) and various long bone measurements from the upper and lower limbs reached accuracies of sex determination from 91% to 95% in a Japanese assemblage (Sakaue, 2004).…”

Section: Discussionmentioning

confidence: 98%

SexEst: An open access web application for metric skeletal sex estimation

Constantinou

Nikita

2022

Intl J of Osteoarchaeology

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Skeletal sex estimation is an essential step in any osteoarcheological study; hence, several metric and morphological methods have been developed for this purpose, employing different skeletal elements. This paper has a dual purpose: (1) test the performance of several machine learning classification models for skeletal sex estimation using worldwide samples of cranial and postcranial measurements and (2) present a free web application for the implementation of the models that exhibit the highest accuracy so that the sex of unknown skeletons can be straightforwardly estimated. Regarding the first objective, using the Goldman database of postcranial metrics and the William W. Howells craniometric database, machine learning classification models were constructed for sex prediction. The models were optimized with respect to their hyperparameters and cross‐validated reaching accuracies ranging from 80.8%–89.5% for the postcranial data and 81.2%–87.7% for the cranial data. The models offering the highest rates of correct sex classification (Extreme Gradient Boosting, Light Gradient Boosting, and Linear Discriminant Analysis) were then selected to construct an open access and open source web application, SexEst, for predicting the sex of unknown skeletons.

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Sex estimation of upper long bones by selected measurements in a Radom (Poland) population from the 18th and 19th centuries AD

Cited by 14 publications

References 51 publications

Comparison of Gender Prediction Accuracy between Regression Models Derived from Hand, Foot Measurements and Long Bone Measurements in a Sample of Kolhapur Population

Comparison of Gender Prediction Accuracy between Regression Models Derived from Hand, Foot Measurements and Long Bone Measurements in a Sample of Kolhapur Population

Sex estimation using radius in a Thai population

SexEst: An open access web application for metric skeletal sex estimation

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