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Enamel thickness and growth rates in modern human permanent first molars over a 2000 year period in Britain
Author(s) -
Aris Christopher,
Mahoney Patrick,
O'Hara Mackie C.,
Deter Chris
Publication year - 2020
Publication title -
american journal of physical anthropology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.146
H-Index - 119
eISSN - 1096-8644
pISSN - 0002-9483
DOI - 10.1002/ajpa.24026
Subject(s) - enamel paint , molar , dentistry , dental enamel , orthodontics , medicine
Objectives This study explores variation and trends in first molar enamel thickness and daily enamel secretion rates over a 2000 year period in Britain. Methods Permanent first molars ( n = 89) from the Roman, Anglo‐Saxon, and Medieval periods, as well as modern‐day Britain, were analyzed using standard histological methods. Relative enamel thickness (RET) and linear measurements of cuspal and lateral thickness were calculated for mesial cusps. Daily secretion rates (DSRs) were calculated for inner, mid, and outer enamel regions in both cuspal and lateral enamel. Significant differences and trends were identified between samples using nonparametric statistical tests. Results Enamel thickness differed between some populations, but no temporal trends were identified. Early Anglo‐Saxon molars had significantly thinner RET than both Late Anglo‐Saxon ( p < .00) and Medieval ( p < .00) molars. Lateral enamel from the Roman molars was significantly thinner than the modern‐day sample ( p = .04). In contrast, a significant slowing trend in DSRs was observed across the more ancient to modern‐day samples in every measured region except the mid‐lateral enamel region. Discussion This study presents the first evidence for a gradual slowing in the daily rate that enamel is secreted in molars over the past 2000 years in Britain. However, this trend was not matched by consistent or significant positive or negative shifts in enamel thickness. These findings suggest that modern human molars of similar enamel thickness, from different modern and ancient populations, formed at different rates.