Sexual dimorphism of dental tissues in modern human mandibular molars

Objectives Previous studies have revealed that human permanent dental tissue proportions differ significantly between males and females, with females having relatively thicker enamel relative to overall crown area than males. The aims of this study are to investigate sexual dimorphism in permanent m...

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Bibliographic Details
Published in:American journal of physical anthropology 2019-06, Vol.169 (2), p.332-340
Main Authors: Sorenti, Mark, Martinón‐Torres, María, Martín‐Francés, Laura, Perea‐Pérez, Bernardo
Format: Article
Language:English
Subjects:
Adult
Anthropology, Physical
dental anthropology
Dental Enamel - anatomy & histology
Dental Enamel - diagnostic imaging
dental tissue proportions
enamel thickness
Female
Females
Humans
Male
Males
Mandible - anatomy & histology
Mandible - diagnostic imaging
microtomography
Molar - anatomy & histology
Molar - diagnostic imaging
molars
Reliability
Sex Characteristics
Tissues
X-Ray Microtomography
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Summary:Objectives Previous studies have revealed that human permanent dental tissue proportions differ significantly between males and females, with females having relatively thicker enamel relative to overall crown area than males. The aims of this study are to investigate sexual dimorphism in permanent mandibular molars and to determine whether such differences can be used to estimate sex in modern humans reliably. Materials and Methods The permanent mandibular molars used in this study (n = 51) originate from 36 individuals of known sex from a Spanish anthropological collection. Eight variables were assessed from two‐dimensional (2D) mesial planes of section obtained from microtomographic scans. Binary stepwise logistic regression was then applied to the data. Results Male molars possess significantly greater quantities of dentine than females, both absolutely and proportionally. Females differed significantly from males by having greater relative enamel thickness. Logistic regression identified the proportion of dentine (relative dentine area [RDA]) as the most important sex discriminator, which can be used to correctly classify specimens with an overall accuracy rate of 74.36%. Discussion These results confirm that sexual dimorphism in mandibular molar size is a result of males having a greater amount of dentine, both absolutely and proportionally. The findings suggest that 2D measurements of RDA may be useful for sex determination, although further research is required to test the reliability of these predictive techniques across different populations.
ISSN:0002-9483
1096-8644
2692-7691
DOI:10.1002/ajpa.23822