Lecturer: as. Yavors

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Lecturer: as. Yavors

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Gray to brownish violet or yellowish brown color, with translucent or opalescent hue. Enamel lost early through fracture, ... and dentin attrition rapidly. – PowerPoint PPT presentation

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Title: Lecturer: as. Yavors

1
Lecturer as. Yavorska-Skrabut I.M.Therapeutic
dentistry department

Un-carious defects of teeth. Classification
after Patrikeev. Pathomorphology, clinic and
diagnostics of defects which are developed before
and after cut of teeth. Treatment.

Environmental Alterations of Teeth
Developmental Alterations of Teeth

3
ENVIRONMENTAL ALTERATIONS OF TEETH

Developmental tooth defects
Turners tooth
Hypoplasia caused by antineoplastic therapy
Fluorosis
Syphilitic hypoplasia
Postdevelopmental structure loss
Tooth wear
Internal and external resorption
Discolorations of teeth
Intrinsic stains
Extrinsic stains
Localized disturbances in eruption
Primary impaction
Ankylosis

4
Enamel development

Three stages1. Matrix formation protein laid
down
2. Mineralization minerals deposition,
majority of original prot. removed-- diffuse,
opaque white, soft enamel
3. Maturation final mineralization--
translucent, hard enamel
Amelogenesis imperfecta
Enamel hypoplasia

5
Enamel development

No remodeling after initial formation
Timing of ameloblastic damage has a great impact
on location appearance of the defect
Development of crown from 14th week of
gestation to 12 months of age in deciduous
dentition 6 months to 15 y/o in permanent
dentition
Neonatal ring on deciduous enamel and deposition
with a rate of 0.023mm/day

6
Factors associated with enamel defects
See Box 2-2

Systemic-
1. Birth-related trauma premature birth
2. Chemicals antineoplastic C/T, fluoride,
tetracycline
3. Chromosomal abnormalities trisomy 21
4. Infections chicken pox, CMV, syphilis
5. Inherited diseases Vit.D-dependent rickets
6. Malnutrition Vit. A deficiency
7. Metabolic disorders hypoparathyroidism,
maternal diabetes
8. Neurologic disorders cerebral palsy

7
Factors associated with enamel defects
See Box 2-2

Local-
1.Local acute mechanical trauma
2. Electric burn
3. Irradiation
4. Local infection periapical inflammatory
disease

8
Clinical and Radiographic Features

Environmental enamel defects
1.Hypoplasia pits, grooves or large area of
missing enamel
2. Diffuse opacities variation in translucency,
normal thickness, white opacity without clear
boundary
3. Demarcated opacities increased opacity, a
sharp boundary with adjacent normal enamel,
normal thickness

9
Turners hypoplasia, Turners tooth

Permanent teeth
Periapical inflammatory disease of the overlying
deciduous tooth, less frequently in anterior
teeth
Traumatic injury- not rare
-45 children sustain injury to their
deciduous teeth, 23 permanent teeth
development disturbed

Turners hypoplasia secondary to previous trauma
10
Turners teeth
11
Hypoplasia caused by antineoplastic therapy

Under 12 y/o, esp. under 5y/o
Age at treatment, forms of therapy
Chemotherapy-
Less alteration than radiation
Increased number of enamel hypoplasia and
discolorations, slight smaller tooth size,
radicular hypoplasia

12
Radiotherapy-

0.72 Gy related to mild defects in enamel, dentin
Dose, radiation field

Developmental radicular hypoplasia and
microdontia caused by radiotherapy

Hypodontia, microdontia, radicular hypoplasia,
enamel hypoplasia, mandibular hypoplpasia,
reduced in vertical development of lower 1/3 of
face
Mandibular hypoplpasia may caused by Radiation
?impaired root development ?reduced alveolar bone
growth
Cranial radiation? altered pituitary gland
function? growth failed

15
Dental fluorosis

1901, Dr. Frederick S. McKay Colorado brown
stain
1909, Dr. F.L. Robertson in Bauxite, Arkansas
1930, H.V. Churchill high concentration of
fluoride of Bauxite(13.7ppm) and Colorado
1931, Dr. H. Trendley Dean association between
fluoride, dental fluorosis and prevalence of
caries among children
1.0 ppm reduced caries by 5070 and associated
with low and mild mottled enamel
0.71.2 ppm water fluoridation was recommended
after 1962, currently 0.7ppm is recommended due
to increased dental fluorosis

16
Dental fluorosis

Retention of the amelogenin protein in enamel
structure? hypomineralized enamel? permanent
hypomaturation? increased surface and subsurface
porosity? alters light reflection and create
white, chalky area

17
Dental fluorosis

Critical period for clinical dental fluorosis is
the 2nd and 3rd year of life, dose dependent
Caries resistant

Syphilitic hypoplasia
Congenital syphilis
Hutchinsons incisors mulberry molars

19
POSTDEVELOPMENTAL LOSS OF TOOTH STRUCTURE

Begin from enamel surface (tooth wear)
Attrition, abrasion, erosion, abfraction
Begin from dentin, cemental surface internal or
external resorption

20
Attrition

Tooth to tooth contact during occlusion and
mastication, some are physiologic
Accelerated by poor quality or absent enamel,
premature contact, intraoral abrasives, erosion,
grinding habits
Incisal, occlusal and interproximal surfaces

21
Abrasion

Pathologic loss of tooth structure or restoration
secondary to the action of an external agent (ex.
Toothbrush, hair grips, toothpicks, chewing
tobacco, biting thread, dental flossing)
Toothbrush abrasion horizontal buccal cervical
notches of exposed radicular cementum and dentin
with smooth surface.
Greater on prominent teeth ( canines, premolars ,
and teeth adjacent to edentulous area) and side
of the arch opposite to the dominant hand
Demastication- when tooth wear is accelerated
by chewing an abrasive substance between opposing
teeth (both attrition and abrasion)

22
Abrasion
23
Abrasion
Improper use of hair grips
Long-term use of tobacco pipe
24
Erosion

Chemical process, exposure to acidic foods or
drinks, medications (chewable Vit. C, aspirin),
involuntary regurgitation (ex. esophagitis,
pregnancy), voluntary regurgitation (ex.
psychologic problems, bulimia)
Perimolysis- dental erosion from gastric
secretion
Facial surface of maxillary anteriors
affected-dietary source
Posterior teeth extensive loss of occlusal
surface, and palatal surface concave dentin
surrounded by an elevated enamel rim-
regurgitation of gastric secretion

25
Erosion
concave dentin surrounded by an elevated enamel
rim
26
Erosion
A bulimia patient
27
Abfraction

Repeated tooth flexure caused by occlusal
stresses (tensile stress)
? concentrate at the cervical fulcrum
? may produce disruption in the chemical
bonds of enamel crystal
?cracked enamel can be lost or removed by
erosion or abrasion
Wedge-shaped cervical defects, deep, narrow
V-shaped, not allow toothbrush to contact base
if the defect, often affect a single tooth
Almost exclusively on facial surface and more
often in bruxism, higher in mandibular dentition

28
Abfraction
29
Treatment and prognosis of tooth wear

Resolve pain and sensitivity
Identify the cause of tooth structure loss
Protection

30
INTERNAL EXTERNAL RESORPTION

Internal resorption- by cells located in pulp,
rare
Follows injury to pulp tissues, physical trauma
or caries, continue as long as vital pulp
remains, may result in communication of the pulp
and PDL
External resorption- by cells in PDL, common

31
Factors associated with external resorption
32
Clinical and Radiographic Features

Internal resorption-
Inflammatory resorption- dentin replaced by
inflamed granulation tissue
Pink tooth of Mummery internal resorption
involved coronal pulp Balloonlike enlargement of
the canal
Replacement, or metaplastic absorption- pulpal
dentinal walls are replaced by bone or
cementum-like bone

33
Clinical and Radiographic Features

External resorption-
Moth-eaten loss of tooth structure, less
well-defined and variation in density in
radiography
Most involved apical or midportions of root,
occasionally, begin from cervical (invasive
cervical resorption)

34
Histopathologic Feature

Increased cellularity, vascularity and
collagenization
Numerous multinucleated dentinoclasts
Inflammatory cells infiltration

35
Treatment and prognosis

Internal resorption-
Removal of all soft tissue from site of
resorption
Endodontic treatment before perforation in
internal resorption
Placement of calcium hydroxide paste for
remineralization
Surgical exposure and restoration
Extraction
External resorption-
Identification and elimination the accelerating
factor

36
ENVIRONMENTAL DISCOLORATION OF TEETH

Extrinsic- surface accumulation of exogenous
pigment
Intrinsic-secondary to endogenous factors that
result in discoloration of underlying dentin

37
Extrinsic stains

Bacterial- Chromogenic bacteria, green,
black-brown, orange coloration Frequently in
children, labial surface of maxillary ant. in
gingival third
Iron- formation of ferric sulfide
Tobacco
Food and beverage- chlorophyll
Gingival hemorrhage- Hb. breakdown to biliverdin
Restorative material ex. Amalgam
Medications- iron, iodine, silver nitrate,
chlorhexidine, stannous fluoride

38
Intrinsic stains

Amelogenesis imperfecta
Dentinogenesis imperfecta
Dental fluorosis
Erythropoietic porphyria
autosomatic recessive disorder of porphyrin
metabolism, increased synthesis and excretion of
porphyrins and their related precursors
Porphyrin deposition in teeth, reddish-brown
coloration, red fluorescence when exposed to a
Woods UV light
Present both in dentin and enamel in deciduous
teeth, but only dentin affected in permanent
teeth

39
Erythropoietic porphyria
Hyperbilirubinemia
40
Intrinsic stains

Hyperbilirubinemia- bilirubin, breakdown product
of RBC, jaundance (yellow-green discoloration),
erythroblastosis fetalis, biliary atresia
Biliverdin deposition, green discoloration of
teeth (chlorodontia)
Ochronosis-alkaptonuria, blue-black discoloration
Trauma- coronal discoloration, pulp necrosis
Localized RBC breakdown

41
Intrinsic stains

Medications-
Tetracycline (bright yellow to dark brown),
chlortetracycline (gray-brown), oxytetracycline
(yellow) , minocycline hydrochloride
Time of administration dose, duration
Avoid from pregnancy up to 8 yrs of age

42
Minocycline hydrochloride

Tx for Acne
Blue-gray from incisal 3/4, to dark green or
black in roots, also affect developed teeth
Skin, nail, sclera, conjunctiva, thyroid, bone
discoloration in susceptible individuals

Stained alveolar bone
43
Treatment and prognosis

Extrinsic stains- polishing
Intrinsic stains- bleaching, bonded restoration,
crowns

44
LOCALIZED DISTURBANCES IN ERUPTION

PRIMARY IMPACTION- Teeth cease to eruption before
emergence
ANKYLOSIS -Cease of eruption after emergence and
anatomic fusion of tooth cementum or dentin with
alveolar bone

45
Impaction

3rd molars, maxillary canines, mandibular
premolars, mandibular canines, maxillary
premolars, maxillary central incisors, maxillary
lateral incisors, and mandibular second molars
usually angulated or diverted
Factors associated with impaction
Crowding and deficient maxillofacial development
Overlying cysts or tumors
Trauma
Reconstructive surgery
Thickened overlying bone or soft tissue
A host of systemic disorders, diseases or
syndromes

Classification
Partially erupted or full bony impaction
according to angulation Mesioangular,
distoangular, vertical, horizontal or inverted
Eruption sequestrum

47
Treatment and Prognosis

Choice of treatment
Long-term observation
Orthodontically assisted eruption
Transplantation
Surgical removal
The risks associated with nonintervention
Crowding dentition
Resorption and worsening of the periodontal
status of adjacent teeth
Development of pathologic conditions, ex
infections, cysts or tumors

48
The risks associated with intervention

Transient or permanent sensory loss
Alveolitis
Trismus
Infection
Fracture
TMJ injury
Periodontal injury
Injury to adjacent teeth

49
ANKYLOSIS

Infraocclusion, secondary retention,
submergence, reimpaction, reinclusion

50
ANKYLOSIS

Clinical And Radiographic Features
Pathogenesis is unknown, may be secondary to many
factors and result in PDL barrier deficiency.
May occur at any age, any tooth
Most affect 89yr-old children and D , E , D , E
PDL absent
Occlusal, periodontal problems, impaction of the
underlying teeth
Treatment and Prognosis
Variable extraction, orthodontics, segmental
osteotomy

51
DEVELOPMENTAL ALTERATIONS OF TEETH

SHAPE Gemination, Fusion, Concrescence
Accessary cusps
Dense in dente Ectopic Enamel
Taurodontism
Dilaceration Hypercementosis
Supernumerary roots

NUMBER Hypodontia
Hyperdontia
SIZE Microdontia Macrodontia
STRUCTURE Amelogenesis imperfecta
Dentinogenesis imperfecta
Dentin dysplasia I II Regional
odontodysplasia

52
Missing teeth

1.6-9.6 , excluding 3rd molars, female
predominance
Hypodontia missing one or more teeth
Oligodontia missing 6 or more teeth
Anodontia total missing
8 gt 5 gt 2 gt 1
Deciduous mandibular incisors
Gene mutation, ex PAX9, MSX1, AXIN2 gene,
He-Zhao deficiency, maps to chromosome 10q11.2
AXIN2 mutation associated with the development
of adenomatous polyps of colon, and colorectal
carcinoma
Ectodermal dysplasia
orofaciodigital syndrome

53
Hypodontia
54
Ectodermal dysplasia
Kaohsiung Medical University, Oral Pathology and
image Diagnosis Dept.
55
Supernumerary teeth, hyperdontia

Mesiodens
4th molar
Paramolar
Distomolar, distodens
deciduous - lat. incisors
86 single supernumerary
multiple impaction
cleidocranial dysostosis
Gardners syndrome

56
Mesiodens

The most common in supernumerary.
Premaxillary area , usually between upper central
incisors
Cone-shaped crown short root
One or two in number

57
Kaohsiung Medical University, Oral Pathology and
image Diagnosis Dept.
58
Cleidocranial dysostosis

1.Skull flat appearance, sutures remain open
2.Jaws underdeveloped, high narrow palate
3.Teeth prolonged retained deciduous teeth,
delayed eruption of permanent
teeth
4.Clavicles complete or partial absent

59
Kaohsiung Medical University, Oral Pathology and
image Diagnosis Dept.
60
Kaohsiung Medical University, Oral Pathology and
image Diagnosis Dept.
61
Kaohsiung Medical University, Oral Pathology and
image Diagnosis Dept.
62
Kaohsiung Medical University, Oral Pathology and
image Diagnosis Dept.
63
(No Transcript)
64
Gardners syndrome

1.multiple polyposis of the large intestine
2.osteoma of the bone
3.multiple epidermoid cysts or sebaceous cysts of
the skin
4.desmoid tumors
5.impacted supernumerary permanent teeth

65
Predeciduous dentition

Neonatal teeth within 30 days
Natal teeth newborns
Most are prematurely erupted deciduous teeth
Removal only if mobile and at risk of aspiration

66
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67
Microdontia

True
1.General -pituitary dwarfism
2. Single -peg lat., 3rd molar
Relative microdontia

68
Macrodontia

True macrodontia
1. Generalized-pituitary gigantism
2. Localized- single, hemifacial hypertrophy
Relative macrodontia small jaw, child

69
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70
Gemination, Fusion, Concrescence
71
Gemination

single tooth germ division
single root root canal 2 complete or
incomplete separated crowns
tooth no. normal
twinning

72
Fusion

Union of 2 separate tooth germs
Contact of tooth germ before calcified
Confluent of the dentin
Complete- form a single tooth
Incomplete- after calcified begins
Tooth no. less one

73
Concrescence

Fusion after root formation
Cementun united
Traumatic injury or crowding
Pre-extraction x-ray check

74
Talon cusp

Eagles talon
Lingual projection from the cingulum area of ant.
teeth
Most contain a pulp horn
Both in deciduous permanent dentition

75
Dens evaginatus

( central tubercle, occlusal tuberculated
premolar Leongs premolar evaginated odontome
occlusal enamel pearl )
An accessory cusp or a globule of enamel on
central groove or buccal cusp of premolars or
molars unilateral or bilateral.
15 in Asians, rare in whites

76
Dens evaginatus
Kaohsiung Medical University, Oral Pathology and
image Diagnosis Dept.
77

Shovel-shaped incisors

78
Dens in dente

(Dens invaginatus Dilated composite odontome)
Tooth within a tooth, incidence 5
Invagination of the enamel organ into dental
papilla before calcification
Coronal type 3 types
maxillary lateral incisors are common

79
Dens invaginatus, coronal type II
80
Dens invaginatus

Radicular type
Hertwigs sheath invagination
Food deposition? caries ? pulp infection
Restorated as soon as possible

81
Taurodontism

Bull-like teeth
Bi- or trifurcation near the apex
Pulp chamber greater apico-occlusal height and
no constriction at the cervical of the tooth

82
Syndromes associated with taurodontism
83
Hypercementosis
84
Supernumerary roots

Any tooth may develop accessary roots
No tx required, but critical important in
endodontic procedure

85
Dilaceration

Angulation, sharp bend of root or crown
Trauma during tooth is forming
Pre-extraction x-ray check

86
Amelogenesis imperfecta

(Hereditary enamel dysplasia Hereditary brown
enamel Hereditary brown opalescent teeth)
Defects in--
Formative stage?hypoplastic type ? defective
formation of matrix
Calcification stage ?hypocalified ? defective
mineralization of formed matrix
Maturation stage ? hypomaturation ? enamel
crystallites remain immature
Genes mutation AMELX, ENAM, MMP-20, KLK4, DLX3

87
Amelogenesis imperfecta
88
1.Hypoplastic type

Thin enamel with pitted, rough or smooth glossy
surface yellowish to brown
undersized, squared crown, lack of contact
flat occlusal surface low cusps, attrition

89
Hypoplastic type
Kaohsiung Medical University, Oral Pathology and
image Diagnosis Dept.
90
Hypoplastic type
91
2.Hypomaturation

normal thickness of enamel, but mottled surface
cloudy white, yellow or brown, opaque in color
softer than normal
same density as dentin

92
Hypomaturation type
Kaohsiung Medical University, Oral Pathology and
image Diagnosis Dept.
93
3.Hypocalcified type

normal thickness of enamel, density less than
dentin
normal size shape when erupt, abrade or
fracture away rapidly
permeability increase, darkened stained

4.Hypomaturation-hypocalcified with
taurodontism
94
Hypocalcified type
95
Tricho-dento-osseous syndrome
Hypoplastic-Hypomaturation type
96
Dentinogenesis imperfecta

(Hereditary opalescent dentin)
Classification of DI (Shields)
Type I DI OI (osteogenesis imperfecta)
COL1A1,
COL1A2
Type II Isolated DI. (1/8000)
DSPP
Type III DI of the Brandywine type
DSPP
A racial isolate in Maryland,
DI multiple pulp exposures in deciduous
teeth

97
Osteosclerosis imperfecta
Blue sclera
M Greenwood, J G Meechan,General medicine and
surgery for dental practitioners Part 8
Musculoskeletal system. British Dental Journal
2003 (195) 243 - 248 ,
98
Clinical features

type I deciduous severe than permanent teeth
type II equally affected
type III both dentitions affected.
Gray to brownish violet or yellowish brown color,
with translucent or opalescent hue.
Enamel lost early through fracture, esp. on the
incisal occlusal surface, and dentin attrition
rapidly.
Caries rate is not increased.

99
Dentinogenesis imperfecta
100
Dentinogenesis imperfecta

Histology
1.pulp chamber obliterated with dentin
2.flatten D-E junction
3.atypical granular dentin, enlarged tubles,
poor calcification
water contents 50 above normal

101
Radiographic features

Partial or total obliteration of the pulp chamber
root canal by continued formation of dentin, in
both dentitions.
Short and blunted roots
Normal cementum, PDL supporting bone

102
Shell teeth

Initial reported in the Brandywine population
Normal thickness of enamel associated with
extremely thin dentin and dramatically enlarged
pulps (due to insufficent and deffective dentin
formation)
Short roots.

103
Kaohsiung Medical University, Oral Pathology and
image Diagnosis Dept.
104
Dentin dysplasia

Hereditary, autosomal dominant. Normal enamel but
atypical dentin formation with abnormal pulp
morphology
Type I (radicular type) Rootless teeth
Type II (coronal) DSPP (dentin
sialophosphoprotein) gene mutation

105
Type I (radicular type)

Radiographically
deciduous teeth affected more severely, little or
no pulp, short or absent roots.
If disorganization late---normal pulp chambers,
with a large pulp stone.
periapical lesions (R-L) no obvious cause.
Histologic features
Normal coronal enamel dentin.
In root tubular dentin and atypical osteodentin
surrounded with normal dentin --- appearance of
Lava flowing around boulders.

106
Dentin dysplasia, type I
107
Type II (coronal)

Normal root length in both dentitions.
Primary dentition similar to DI
bulbous crowns, cervical constriction
thin roots , early obliterated pulp.
Permanent teeth normal coloration, thistle
tube-shaped or flame-shaped pulp chamber with
pulp stones.

108
Dentin dysplasia, type II (coronal)
109
Dentin dysplasia
Lava flowing around boulders.
Large pulp stones
110
Regional odontodysplasia