Protocol for sectioning human dentine: expanded from Methods 1 and 2

Beaumont, Julia, Gledhill, Andrew R., Lee-Thorp, Julia A., Montgomery, Janet

January 2013

yes

Human dentine

; Teeth

; Sectioning

; Preparation

Childhood diet: a closer examination of the evidence from dental tissues using stable isotope analysis of incremental human dentine

Beaumont, Julia, Gledhill, Andrew R., Lee-Thorp, Julia A., Montgomery, Janet

29 August 2013

No / Incremental dentine analysis utilizes tissue that does not remodel and that permits comparison, at the same age, of those who survived infancy with those who did not at high temporal resolution. Here, we present a pilot study of teeth from a 19th-century cemetery in London, comparing the merits of two methods of obtaining dentine increments for subsequent isotope determination. Covariation in ¿13C and ¿15N values suggests that even small variations have a physiological basis. We show that high-resolution intra-dentine isotope profiles can pinpoint short-duration events such as dietary change or nutritional deprivation in the juvenile years of life.

Diet

; Childhood diet

; Children

; Human dentine

; Teeth

Stable isotope analysis

Famine

London

Method of Micro-Sampling Human Dentine Collagen for Stable Isotope Analysis

Curtis, Mandi J., Beaumont, Julia, Elamin, F., Wilson, Andrew S., Koon, Hannah E.C.

12 April 2022

Yes / Sampling of dentine for stable carbon (δ13 C) and nitrogen (δ15 N) isotope ratios in the direction of tooth growth allows the study of temporal changes to the diet and physiological stress of an individual during tooth formation. Current methods of sampling permanent teeth using 1mm increments provide temporal resolution of six - nine months at best depending on the tooth chosen. While this gives sufficient sample sizes for reliable analysis by mass spectrometry, sectioning the dentine across the incremental structures results in a rolling average of the isotope ratios. A novel method of incremental dentine collagen sampling has been developed to decrease the collagen increment size to 0.35mm along the incremental structures thus reducing averaging and improving the temporal resolution of short-term changes within the δ13 C and δ15 N values. This study presents data for a MicroMill-assisted sampling method that allows for sampling at 0.35mm width x 1mm depth increments following the incremental growth pattern of dentine. A NewWave MicroMill was used to sample the demineralised dentine section of modern donated human third molars from Sudan and compared to data from the same teeth using the 1mm incremental sectioning method 2 from Beaumont et al. (2013). The δ13 C and δ15 N isotopic data showed an increased temporal resolution, with each increment providing data for two-four months of dentine formation. The data show the potential of this method for studying dietary reconstruction, nutritional stress, and physiological change with greater temporal resolution potentially to seasonal level and with less attenuation of the δ13 C and δ15 N values than was previously possible from human dentine.

Micro-sampling

Human dentine collagen

Stable carbon isotopes

Stable nitrogen isotopes

Tooth formation

Temporal changes

Diet