New insights into tooth wear based on in vitro studies

Abstract

in vitro experimental systems for the study of tooth wear have the potential to overcome the long time frames and ethical complexities involved in undertaking clinical studies. The aim of this article is to review in vitro studies undertaken by the authors and highlight areas in which significant progress has been made.

Investigations of enamel, dentine, and restorative material wear and potential wear-prevention strategies were conducted using a purpose-built wear simulation machine with loads between 32 and 160 N and with specimens lubricated by solutions at pH = 6-7 (simulating a serous oral environment), pH = 3 (resembling an acidic diet), pH = 1.2 (resembling regurgitated acid), or with pooled natural saliva (pH = 7).

These studies have demonstrated a linear relationship between load and the rate of dentine wear and very low wear rates for enamel except at the highest loads (when enamel and dentine wear at similar rates) and at the lowest pHs (when both enamel and dentine wear rapidly). Comparisons of wear rates for enamel and common restorative materials have shown that at low pH, the enamel tends to wear more rapidly than any of the materials considered: resin composites are more resistant to acid and high loads than glass-ionomer cements (GICs); resin-modified GICs have intermediate properties; and, most modern dental porcelains wear at about the same rate as opposing enamel. Recent studies of preventive strategies have provided evidence of the wear-reducing potential of both lubricants and remineralizing agents.

Considered together, these studies have given a clearer understanding of the factors that influence the wear of enamel, dentine, and restorations under various conditions.

Keywords

tooth surface loss experimental studies enamel dentine dental materials

Get full access to this article

View all access options for this article.

References

Smith

W. R.

‘Further observations of the development of the teeth of the Australian aboriginal’

J. Anat. Physiol. 42 (1912): 226–235

Campbell

T. D.

Dentition and palate of the Australian Aboriginal (Adelaide: Hassell Press 1925)

Begg

P. R.

‘Stone age man's dentition’

Am. J. Orthod. 40 (1954): 298–312

Begg

P. R.

‘Stone age man's dentition’

Am. J. Orthod. 40 (1954): 373–383

Begg

P. R.

‘Stone age man's dentition’

Am. J. Orthod. 40 (1954): 462–475

Barrett

M. J.

‘Dental observations on Australian aborigines; continuously changing functional occlusion’

Aust. Dent. J. 4 (1958): 39–52

Barrett

M. J.

‘Functioning occlusion’

Ann. Aust. Coll. Dent. Surg. 2 (1969): 68–80

Murphy

‘Mandibular adjustments to functional tooth attrition’

Aust. Dent. J. 3 (1958): 71–78

Murphy

‘A biometric study of the helicoidal occlusal plane of the worn Australian dentition’

Arch. Oral Biol. 9 (1964): 255–267

10.

Beyron

‘Occlusal relations and mastication in Australian aborigines’

Acta Odontol. Scand. 22 (1964): 597–678

11.

Brown

Townsend

G. C.

Richards

L. C.

Burgess

V. B.

‘Concepts of occlusion: Australian evidence’

Am. J. Phys. Anthropol. 82 (1990): 247–256

12.

Richards

L. C.

Brown

‘Dental attrition and age relationships in Australian aborigines’

Archaeol. Ocean. 16 (1981): 94–98

13.

Richards

L. C.

‘Dental attrition and craniofacial morphology in two Australian aboriginal populations’

J. Dent. Res. 64 (1985): 1311–1315

14.

Kaidonis

J. A.

Richards

L. C.

Townsend

G. C.

Tansley

G. D.

‘Wear of human enamel: A quantitative in vitro assessment’

J. Dent. Res. 77 (1988): 1983–1990

15.

Kaidonis

J. A.

Gratiaen

Bhatia

Richards

L. C.

Townsend

G. C.

‘Tooth wear prevention: A quantitative and qualitative in vitro study’

Aust. Dent. J. 48 (2003): 15–19

16.

Burak

Kaidonis

J. A.

Richards

L. C.

Townsend

G. C.

‘Experimental studies of human dentine wear’

Arch. Oral Biol. 44 (1999): 885–887

17.

Burak

Richards

L. C.

An in vitro study of amalgam wear. Unpublished manuscript available from the authors

18.

Shabanian

Richards

L. C.

‘In vitro wear rates of materials under different loads and varying pH’

J. Prosthet. Dent. 87 (2002): 650–656

19.

Shabanian-Borojeni

Wear studies of enamel and some restorative materials PhD thesis, The University of Adelaide, 2001.

20.

Ranjitkar

Kaidonis

J. A.

Townsend

G. C.

A. M.

Richards

L. C.

‘An in vitro assessment of the effect of load and pH on wear between opposing enamel and dentine surfaces’

Arch. Oral Biol. 53 (2008): 1011–1016

21.

Ranjitkar

Kaidonis

J. A.

Richards

L. C.

Townsend

G. C.

‘The effect of CPP-ACP on enamel wear under severe erosive conditions’

Arch. Oral Biol. 54 (2009): 527–532

22.

Ha, U. Unpublished data.

23.

Schindler

H. J.

Stengel

Speiss

W. E. L.

‘Feedback control during mastication of solid food textures - a clinical-experimental study’

J. Prosthet. Dent. 80 (1998): 330–336

24.

Nishigawa

Bando

Nakano

‘Quantitiative study of bite force during sleep associated bruxism’

J. Oral Rehabil. 28 (2001): 485–491

25.

Liu

Ranjitkar

Kaidonis

J. A.

Townsend

G. C.

Richards

L. C.

‘A system for the acquisition and analysis of three-dimensional data describing dental morphology’

Dent. Anthropol. 17 (2004): 70–74

26.

Eisenburger

Addy

‘Erosion and attrition of human enamel in vitro. Part II: Influence of time and loading’

J. Dent. 30 (2002): 349–352

27.

Eisenburger

Addy

‘Erosion and attrition of human enamel in vitro. Part I: Interaction effects’

J. Dent. 30 (2002): 341–347

28.

Wetton

Hughes

Newcombe

R. G.

Addy

‘The effect of saliva from different individuals on the erosion of enamel and dentine’

Caries Res. 41 (2007): 423–426

29.

Watson

T. F.

Sherriff

Curtis

Bartlett

D. W.

‘The influence of fluoride varnish on the attrition of dentine’

Caries Res. 41 (2007): 219–222

30.

Willems

Lambrechts

Braem

Vanherle

‘Three-year follow-up of five posterior composites: In vivo wear’

J. Dent. 21 (1993): 74–78

31.

Barkmeier

W. W.

Latta

M. A.

Erickson

R. L.

Lambrechts

‘Comparison of laboratory and clinical wear rates or resin composites’

Quint. Int. 35 (2004): 269–274

32.

Lutz

Krejci

‘Mesio-occlusodistal amalgam restorations: A database for the development of amalgam substitutes’

Quint. Int. 25 (1994): 185–190

33.

Heintze

S. D.

Zappini

Rousson

‘Wear of ten dental restorative materials in five wear simulators - results of a round robin test’

Dent. Mater. 21 (2005): 304–317

34.

Dental materials - Guidance on testing of wear - Part 2: Wear by two- and/or three-body contact. ISO/TS, 14569-2, 2001.

35.

Heintze

S. D.

‘How to quantify and validate wear simulation devices and methods’

Dent. Mater. 22 (2006): 712–734

36.

Richards

L. C.

Kaidonis

J. A.

Townsend

G. C.

‘A model for the prediction of tooth wear in individuals’

Aust. Dent. J 48 (2003): 259–262

37.

Piekarz

Ranjitkar

Hunt

McIntyre

‘An in vitro assessment of the role of tooth mousse in preventing wine erosion’

Aust. Dent. J. 59 (2008): 22–25