Spelling suggestions: "subject:"weak facets"" "subject:"were facets""
1 |
Wear Facets and Enamel Spalling in Tyrannosaurid DinosaursSchubert, Blaine W., Ungar, Peter S. 01 February 2005 (has links)
Numerous paleontologists have noted wear facets on tyrannosaurid lateral teeth over the past century. While several workers have proposed explanations for these features, there remains to this day no consensus concerning their etiology. Here we report on an examination of wear surfaces on these teeth from the Upper Cretaceous (mid-Campanian) Judith River Group of southern Alberta, Canada. This study reveals two distinct types of wear features on the labial and lingual sides of tyrannosaurid lateral teeth: irregular "spalled" surfaces and wear facets. The irregular spalled surfaces typically extend to the apex of the tooth, which evidently reflects flaking of enamel resulting from forces produced during contact between tooth and food. These surfaces are often rounded, presumably from antemortem wear following spalling. Wear striations on these surfaces are oriented heterogeneously. The wear facets, in contrast, occur on only one side of the tooth and are typically elliptical in outline and evince parallel wear striations. Similar patterns of parallel wear striations in extant mammals reflect tooth-tooth contact. We therefore propose that wear facets in tyrannosaurids were formed by repeated tooth-tooth contact between the lingual side of maxillary teeth and labial side of dentary teeth. It remains unclear whether this contact was serendipitous or adaptive, though it appears to be unusual for reptiles, as we have found no evidence for wear facets in extant varanids and crocodilians.
|
2 |
The Influence of Steroid Hormones on Tooth Wear in Children and in AdolescentsBuchhardt, Jeanette, Kiess, Wieland, Körner, Antje, Biemann, Ronald, Hirsch, Christian 20 October 2023 (has links)
(1) Background: From a young age, boys are more often affected by tooth wear than girls.
This suggests an influence of the male sex hormone (testosterone) on the aetiology of tooth wear.
The aim of the present study was to investigate the incidence of tooth wear in relation to steroid
hormone levels in children. (2) Methods: 1022 test persons aged between 10 and 18 (491 male,
531 female) from the LIFE Child study underwent medical and dental examination. Tooth wear
was measured through clinical inspection. Blood samples were taken to determine hormone levels
(testosterone, SHBG). The level of free testosterone was calculated from the ratio of testosterone
to SHBG. Using multivariable methods, the incidence of tooth wear was analyzed as a function of
hormone levels, while controlling for confounders such as age, sex, social status, and orthodontic
treatment. (3) Results: The incidence of tooth wear increased with age in both sexes. Boys showed
significantly more often attrition facets than girls (17.5% vs. 13.2%, p < 0.001). Subjects with tooth
wear showed significantly higher free testosterone levels than those without (males: p < 0.001,
females: p < 0.05). After controlling for confounding variables, the risk of tooth wear increased by
approximately 30.0% with each year of life (odds ratio [OR]boys = 1.29, 95% confidence interval
[CI] = 1.04–1.56; [OR]girls = 1.32, 95% CI = 1.08–1.61). In addition, the risk of tooth wear increased by
6.0% per free testosterone scale score only in boys (OR = 1.06, 95% CI = 1.01–1.12). (4) Conclusions:
Tooth wear is common in children and in adolescents, and it increases steadily with age in both sexes.
The stronger increase and the higher prevalence among male adolescents can be explained by the
additional effect of free testosterone.
|
Page generated in 0.0398 seconds