A study of sub-occlusal secondary dentine thickness in overgrown equine cheek teeth.
Abstract: The presence of cheek tooth loss or defects, with subsequent overgrowth of the opposing teeth, is common in horses. Little is known about the factors that control the deposition of sub-occlusal secondary dentine (SO2D) in normal equine teeth, but these are likely to include stimulation of the occlusal surface. There appears to be no information on the possible alterations to this process when teeth develop overgrowths and, consequently, of the net effect on SO2D thickness caused by reduced stimulation of the occlusal surface and of absent/reduced normal occlusal wear (attrition). Knowledge of the likely thickness of SO2D in overgrown teeth may help reduce the risks of pulp horn exposure or thermal damage during therapeutic reduction of overgrowths. This study utilised 24 permanent cheek teeth (CT) with overgrowths (mean overgrowth height: 9.5 mm; range, 3.4-17.9 mm), and 18 control CT obtained from 15 horses of different breeds and ages. The thickness of SO2D was measured above 94 matched pulp horns in control and overgrown CT and showed a mean value of 12.14 mm (range 1.87-36.02 mm) in overgrown teeth and of 10.25 mm (range 2.64-17.26 mm) in controls. There was no significant difference between SO2D thickness in overgrown (mean 11.38 mm) and control (11.41 mm) mandibular CT, but SO2D was significantly thicker in overgrown (mean 12.57 mm) as compared to control maxillary (9.41 mm) CT. A comparison of SO2D thickness above the 94 matched pulp horns in overgrown and control teeth showed that 49% (46/94) of pulps in overgrown teeth had less SO2D overlying them than had control teeth. Of major clinical relevance was that the height of dental overgrowths was greater than SO2D thickness over one or more pulp horns in 14/24 overgrown teeth. Consequently, reduction of these overgrown teeth to the level of adjacent normal-height teeth would cause occlusal pulp exposure in 58% of teeth, in addition to possible thermal damage to additional pulp horns. It was concluded that equine CT overgrowths should be gradually reduced, by a few millimetres at a time, over a prolonged period.
Copyright © 2011 Elsevier Ltd. All rights reserved.
Publication Date: 2011-11-22 PubMed ID: 22112631DOI: 10.1016/j.tvjl.2011.10.003Google Scholar: Lookup
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- Comparative Study
- Journal Article
Summary
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This research is about the impact of tooth overgrowth in horses on the deposition of sub-occlusal secondary dentine (SO2D), a protective tooth layer. The study aims to provide information to help minimize the risk of damaging the pulp horn of the tooth during treatment of such conditions.
Objective of the Study
- The main objective of this research was to study the thickness of sub-occlusal secondary dentine (SO2D) in overgrown equine cheek teeth. The researchers wanted to gain knowledge on how tooth overgrowth may affect SO2D deposit, which could potentially enhance the methods of dealing with excessive growth situations.
Methods Used in the Study
- This study included 24 cheek teeth with overgrowths from different horses and 18 control teeth from the same.
- The SO2D was measured above 94 matched pulp horns in both the control and overgrown teeth. This ensured an accurate comparison was made.
Main Findings of the Study
- The SO2D mean thickness in overgrown teeth was 12.14 mm, while it was 10.25 mm in control teeth, showing it was thicker in overgrown teeth.
- There was no significant difference in the thickness of SO2D in overgrown and control mandibular teeth. However, the SO2D was significantly thicker in overgrown maxillary teeth compared to the control.
- Research found that in 49% of overgrown teeth, pulps had less SO2D over them compared to control teeth.
- In 58% of overgrown teeth, the height of dental overgrowths was more than the SO2D thickness over one or more pulp horns.
Conclusion of the Study
- Reductions of overgrown teeth could cause occlusal pulp exposure in 58% of teeth, an outcome that poses a significant risk.
- The study concluded that equine cheek teeth overgrowths should be reduced slowly, not more than a few millimeters at a time, over a long period. This will prevent occlusal pulp exposure and potential thermal damage to additional pulp horns.
Cite This Article
APA
Marshall R, Shaw DJ, Dixon PM.
(2011).
A study of sub-occlusal secondary dentine thickness in overgrown equine cheek teeth.
Vet J, 193(1), 53-57.
https://doi.org/10.1016/j.tvjl.2011.10.003 Publication
Researcher Affiliations
- Royal (Dick) School of Veterinary Studies and Roslin Institute, The University of Edinburgh, Easter Bush Veterinary Centre, Midlothian, Scotland EH25 9RG, UK.
MeSH Terms
- Animals
- Bicuspid / anatomy & histology
- Bicuspid / pathology
- Bicuspid / physiology
- Dentin / anatomy & histology
- Dentin / pathology
- Horse Diseases / pathology
- Horses / anatomy & histology
- Molar / anatomy & histology
- Molar / pathology
- Molar / physiology
- Tooth Calcification
- Tooth Loss / pathology
- Tooth Loss / veterinary
Citations
This article has been cited 3 times.- Proost K, Boone MN, Josipovic I, Pardon B, Chiers K, Vlaminck L. Clinical insights into the three-dimensional anatomy of cheek teeth in alpacas based on micro-computed tomography. Part 1: mandibular cheek teeth.. BMC Vet Res 2021 Oct 22;17(1):334.
- Pollaris E, Broeckx BJG, Rajasekharan S, Cauwels R, Vlaminck L. Fracture Resistance of Equine Cheek Teeth With and Without Occlusal Fissures: A Standardized ex vivo Model.. Front Vet Sci 2021;8:699940.
- Haeussler S, Luepke M, Seifert H, Staszyk C. Intra-pulp temperature increase of equine cheek teeth during treatment with motorized grinding systems: influence of grinding head position and rotational speed.. BMC Vet Res 2014 Feb 21;10:47.
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