Introduction
Dental erosion is
defined as irreversible loss of dental hard tissue by a chemical process
that does not involve bacteria.1,2
Dissolution of mineralized tooth structure occurs upon contact with acids
that are introduced into the oral cavity from intrinsic (e.g.,
gastroesophageal reflux, vomiting) or extrinsic sources (e.g., acidic
beverages, citrus fruits). This form of tooth surface loss is part of a
larger picture of tooth wear, which also consists of attrition, abrasion,
and possibly, abfraction. Table 1 lists the definitions of each of these
forms of tooth surface loss or tooth wear.
Table 1. Definitions of Tooth
Surface Loss*
|
Tooth Wear * |
|
Term |
Definition |
Clinical Appearance |
| Erosion
(Figures 1-4) |
Progressive
loss of hard dental tissue by chemical processes not involving
bacterial action |
- Broad concavities within smooth
surface enamel
- Cupping of occlusal surfaces, (incisal
grooving) with dentin exposure
- Increased incisal translucency
- Wear on non-occluding surfaces
- "Raised" amalgam restorations
- Clean, non-tarnished appearance of
amalgams
- Loss of surface characteristics of
enamel in young children
- Preservation of enamel "cuff" in
gingival crevice is common
- Hypersensitivity
- Pulp exposure in deciduous teeth
|
|
Attrition
(Figure 5) |
Loss by
wear of surface of tooth or restoration caused by tooth to tooth
contact during mastication or parafunction |
- Matching wear on occluding
surfaces
- Shiny facets on amalgam contacts
- Enamel and dentin wear at the same
rate
- Possible fracture of cusps or
restorations
|
| Abrasion
(Figure 6) |
Loss by
wear of dental tissue caused by abrasion by foreign substance
(e.g., toothbrush, dentifrice) |
- Usually located at cervical areas
of teeth
- Lesions are more wide than deep
- Premolars and cuspids are commonly
affected
|
|
Abfraction
(Figure 5) |
Loss of tooth
surface at the cervical areas of teeth caused by tensile and
compressive forces during tooth flexure
(Studies needed to prove this
hypothetical phenomenon) |
- Affects buccal/labial cervical
areas of teeth
- Deep, narrow V-shaped notch
- Commonly affects single teeth with
excursive interferences or eccentric occlusal loads
|
| * Adapted
from: Milosevic, 19983 |
Figures 1-6 illustrate examples of each
type. However, inasmuch as these definitions relate to different causes,
it is important to recognize that each of these types of tooth wear rarely
occur alone in a given individual. A patient with generalized tooth wear
may be diagnosed as being a bruxer or a heavy-handed tooth brusher,
without recognition of an erosive component to the problem (Figure 7).
This has made epidemiological and clinical research in the area of tooth
wear difficult. Likewise, the diagnosis and management of patients with
tooth erosion remains a challenging task.
|
Figure 1.
This 14-year-old
female exhibits total loss of surface characteristics and polished
appearance of enamel on her maxillary incisors. The enamel layer was
also very thin. |
 |
|
Figure 2.
The fissure
sealant in this 14-year-old boy stands "raised" from surrounding
eroded occlusal enamel. |
 |
|
Figure 3.
Gastroesophageal
reflux disease (GERD) was discovered in this 19 year old boy who
exhibited early, generalized erosion (arrow A). Note the
preservation of the enamel at the gingival crevice (arrow B). |
 |
|
Figure 4.
This 33-year-old
male with GERD had severe asymptomatic erosion. Note the amalgams
"rising" above the adjacent eroded occlusal surfaces. |
 |
|
Figure 5.
This patient's
canines and bicuspids have characteristics that can be attributed to
both abrasion and abfraction. He had a bruxism habit and a tendency
to brush his teeth vigorously. Slight recession of the gingiva and
cemento-enamel wear is present in a well-delineated lesion of
abrasion on a prominent root (arrow). Note the loss of the top
layer of gold foil in tooth #5, suggesting possible cervical flexure
forces during bruxing. Occlusal surface loss is characteristic of
attrition. |
 |
|
Figure 6. This 42-year old
female has a bruxism habit and no other known risk factors for
erosion, demonstrating moderate to severe attrition. |
 |
|
Figure 7. Two years of continual
consumption of canned citrus drinks in a hot country during Peace
Corps service led to this erosion of the cervical areas of the
posterior teeth. This 33-year old patient also had a bruxism habit
which has contributed to occlusal attrition. |
 |
|
Figure 8. Restoration of eroded
teeth in this patient will require crown lengthening procedures and
full coverage restorations. |
 |
Erosion is often not recognized in its
early stages nor are risk factors identified and addressed. Lack of
awareness of the multifactorial nature of tooth wear may lead to only
partial treatment of the problem (e.g., an occlusal splint). Partial
treatment may eventually result in the necessity of complex and expensive
restorative care (Figure 8). Since early recognition and initiation of
preventive measures can prevent significant damage to the dentition,
dental erosion warrants the careful attention of the primary dental care
team.
A review of the literature on dental
erosion indicates a relatively recent, growing interest in the topic,
particularly in Europe. For the first time, England included the
evaluation of tooth erosion in its national dental health survey in 1993,
indicating the importance of this dental problem.4
The aim of this article is to review
the etiologies of dental erosion and provide recommendations for diagnosis
and management of this problem.
