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Developmental anomalies of the tooth

Aman Chowdhry
Aman Chowdhry

Development Disturbances of teeth

EducaçãoSaúde e medicinaDiversão e humor
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A.C. Lecture Series D EVELOPMENTAL ANOMALIES OF THE TOOTH DEVELOPMENTAL DISORDERS OF TEETH :  Size of teeth: Microdontia & Macrodontia.  Shape of teeth: Gemination, Fusion, Concrescence, Dilaceration, Talon cusp, Dense in dent, Dens evaginatus & taurodontism.  Number of teeth: Anodontia, Supernumery teeth, Predecidious dentition & Post permanent dentition.  Structure of teeth: Amelogenesis Imperfecta, Environmental enamel hypoplasia, Dentinogenisis Imperfecta & Dentin Dysplasia. DEVELOPMENTAL DISTURBANCE IN SIZE OF TEETH 1.Microdontia  a.True generalized microdontia  b.Relative generalized microdontia  c.Microdontia involving single tooth. 2.Macrodontia DEVELOPMENTAL DISTURBANCE IN SHAPE OF TEETH Gemination, Fusion, Concrescence, Dilaceration, Talon cusp, Dense in dent, Dens evaginatus &Taurodontism. 1
A.C. Lecture Series DEVELOPMENTAL DISTURBANCE IN SHAPE OF TEETH Anodontia, Supernumery teeth, Predecidious dentition & Post permanent dentition. 2
A.C. Lecture Series DEVELOPMENTAL DISTURBANCE IN STRUCTURE OF TEETH  Amelogenesis Imperfecta  It is an hereditary defects of enamel. It is ectodermal disturbance, since the mesodermal components of the teeth are normal.  Development of enamel occurs in three stages : a. Formative stages, b. Calcification stage, c. Maturation stage.  Accordingly 3 basic types of Amelogenesis Imperfecta are recognized : a. Hypoplastic type, b. Hypocalcification type, c. Hypomaturation type. (C/F) 3
A.C. Lecture Series 2. Environmental Enamel Hypoplasia : “May be defined as an in complete or defective formation of organic enamel matrix of teeth”.  To basic types of Enamel Hypoplasia exist a. Hereditary type, b. Those caused by environmental factor.  In hereditary type both decidious & permanent dentitions are usually involved & generally only the enamel is affected. In contrast when the defect is caused by environmental factor, either dentition may be involved & some times only a single tooth. Both enamel & dentin are affected.  Environmental factor which are responsible for causing enamel hypoplasia are. 1.Nutritional deficiency:Vit-A,C & D. 2.Exanthematous disease: measles, chicken pox, scarlet fever. 3.Congenital syphilis 4.Hypocalcemia 5.Birth injury, Rh incompatibility 6.Local infection or trauma 4
A.C. Lecture Series 7.Fluorides Enamel Hypoplasia due to Fluoride (Mottled Enamel):  It is caused by ingestion of fluoride containing drinking water during the time of tooth formation. Severity of mottling increases with increasing amount of fluoride in water. There is little mottling of any significance at a level below 0.9 to 1 ppm.  This type of hypoplasia is due to a disturbance of the ameloblast during the formative stage of tooth development.  Depending upon the level of fluoride in the water supply. There is a wide range of severity in the appearance of mottled teeth varying from  White flecking or spotting of enamel.  Mild changes manifested by white opaque areas involving more of the tooth surface area.  Moderate & sever changes showing pitting & brownish staining of the surface.  Corrode appearance of the teeth. 5
A.C. Lecture Series 3. Dentinogenisis Imperfecta :expired Type I: always occurs in families with osteogenesis Imperfecta. Type II: never occurs in families with osteogenesis imperfecta. Most frequently referred as Hereditary opalesent dentin. It is most common dominant inherited disorder in human. Type III: Is Brandy wine type, characterized bymultiple pulp exposure in decidious teeth.  Decidious teeth are more severely affected than the permanent teeth in type I. In type II & III both dentition are affected.  Colour of teeth may range from brownish yellow & exhibit a characteristic translucent or opalescent hue.  R/F most striking feature is the partial or total obliteration of the pulp chamber & root canals by continued formation of dentin. 6
A.C. Lecture Series  The affected patients in type III DI had features characterised as “Shell Teeth.” enamel of the tooth appears normal, while dentin is extremely thin, & the pulp chamber are enormous. 4. Dentin Dysplasia: Characterized by normal enamel but atypical dentin formation with abnormal pulp morphology. (hereditary) Type I: Radicular dentin dysplasia: Both dentition are affected. Teeth exhibit extreme mobility & are commonly exfoliated prematurely or after minor trauma as a result of short roots. Type II: Coronal dentin dysplasia: Abnormal large pulp chamber in coronal portion often described as Thistle tube AGENTS AFFECTING TOOTH DEVELOPMENT Introduction:  Certain vitamin & hormone deficiencies if present during tooth formation will adversely affect formative cells & matrix that they produce.  Reduced organic matrix content results in production of hypoplastic tissue.  Excessive levels of tetracycline or fluoride may become incorporated into mineralizing teeth & interfere with the mineralization process. 7
A.C. Lecture Series  The extent of defect depend on the nature of the substance, the degree of excess or deficiency and the developmental time.  Vitamin-A, C, D, Parathyroid hormone, Tetracycline & Fluoride are discussed in terms of their relation to matrix development. 8
A.C. Lecture Series 9
A.C. Lecture Series TETRACYCLINE & FLUORIDE:  If available during the mineralization phase, may be incorporated in dentin, enamel, cementum & bone.  Fluoride is a binary compound of fluorine useful as an anticaries substance. Tetracycline on the other hand is used as an antibacterial agent. Both are deposited along with minerals in developing hard tissue.  On prolonged exposure to light, tetracycline stained dental tissue will change in colour to  A brown to gray. Other effects of tetracycline is hypoplasia or absence of enamel. Staining is most notable in dentin, especially in the first formed dentin at the DEJ. Staining is more notable under UV light.  Amount of damage is directly related to the magnitude & duration of the dosage.  Mechanism: It is believed that a chelate of calcium & tetracycline forms. At higher concentration in both ameloblast & odontoblast protein synthesis is impaired. This in turn will result in hypoplasia of the enamel & dentin matrix. 10
A.C. Lecture Series 11
A.C. Lecture Series  Tetracycline & to limited extent Sodium Fluoride cross the placental barrier.  If pregnant female consumes fluoridated water during mineralization of the fetal teeth. Such teeth exhibit higher resistance to dental caries.  If on the other hand tetracycline antibiotics are administered to the mother during the period of tooth mineralization, the decidious teeth may later be stained. Tetracycline staining of teeth is permanent, but staining of bone is not permanent as bone is remodeled continuously.  Cervical staining is more characteristic of tetracycline because this agent deposits primarily in the dentin.  Fluoride is most beneficial to the teeth in concentration of approximately 0.5 to 1 ppm of water. Higher concentration such as 5 ppm causes mottling & hypoplasia of the enamel & hypo mineralized dentin.  Less amount of fluoride is being found in primary teeth than in permanent teeth because the maturative stage last for 1-2 years in primary teeth & 4-5 years in permanent teeth.  Tetracycline has been widely used to visually record growth in experimental animal. Daily deposition of dentin can thus be recorded by measuring the width of dentin between each fluorescent line.  Tetracycline may be used to evaluate tooth movement by reveling bone & dentin formation. 12
A.C. Lecture Series CLINICAL APPLICATION :  The size of the tooth is depends upon both proliferative & secretory activities of the cell. Macrodontia, Microdontia are the result of factors affecting the growth of the tooth germ at the cap & bell stages. True macro & microdontia may be the result of over & under secretion of pituitary hormones.  Absence of teeth, partial or total anodontia is due to factors that disrupt tooth development at the initiation stage. In genetic disorder ectodermal dysplasia there is total anodontia.  Distal proliferation of dental lamina is responsible for the location of the germs of the permanent molars in the ramus of the mandible & tuberosity of maxilla.  If the cells of the epithelial RS remain adherent to the dentin surface, they may differentiate into fully functioning ameloblast & produce enamel called enamel pearls, found in the areas of furcation of the roots of PM.  If continuity of Hertwig's RS is broken or is not established prior to dentin formation, a defect in the dentinal wall of the pulp ensures.this accounts for development of accessory root canals opening.  If continuity of Hertwig's RS is not broken even after dentin formation it results in root dentin exposure to oral cavity. 13
A.C. Lecture Series  Developmental disorders of teeth causes clinical problems related to appearance, spacing, crowding, & periodontal treatment.  In intercuspal areas, during enamel secretion, the ameloblasts may become strangulated when their bases begin to touch one another. These areas becomes pits & fissures in erupted tooth. They are extremely difficult to clean.  Clinically,vit-C deficiency is manifested orally by gingival bleeding & loosening the teeth. Weakness, anemia, bone loss, & susceptibility to hemorrhage.  Osteoporosis results when calcium loss because of resorption is greater than calcium deposition. This may be evident orally with loss of alveolar bone & loosening of teeth.  Certain antibiotics, like the tetracyclines, have an affinity for calcified tissues. They may become incorporated within the mineral phase during maturation, & cause discoloration of the enamel & underlying dentin.  Brown staining or defect in the enamel of the incisal third of crowns indicates the presence of toxic substance in the body at the time of initial mineralization of the teeth. Staining in the cervical area relates to induction of a toxic substance at a time of final crown mineralization.  The cervical region of the crown and the central grooves are the last zones to mineralize. Ameloblasts in these regions may lose functional ability before mineralization is complete. Lack of complete mineralization of the central grooves or cervical areas is believed to be a reason for caries in these areas. 14

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Developmental anomalies of the tooth

  • 1. A.C. Lecture Series D EVELOPMENTAL ANOMALIES OF THE TOOTH DEVELOPMENTAL DISORDERS OF TEETH :  Size of teeth: Microdontia & Macrodontia.  Shape of teeth: Gemination, Fusion, Concrescence, Dilaceration, Talon cusp, Dense in dent, Dens evaginatus & taurodontism.  Number of teeth: Anodontia, Supernumery teeth, Predecidious dentition & Post permanent dentition.  Structure of teeth: Amelogenesis Imperfecta, Environmental enamel hypoplasia, Dentinogenisis Imperfecta & Dentin Dysplasia. DEVELOPMENTAL DISTURBANCE IN SIZE OF TEETH 1.Microdontia  a.True generalized microdontia  b.Relative generalized microdontia  c.Microdontia involving single tooth. 2.Macrodontia DEVELOPMENTAL DISTURBANCE IN SHAPE OF TEETH Gemination, Fusion, Concrescence, Dilaceration, Talon cusp, Dense in dent, Dens evaginatus &Taurodontism. 1
  • 2. A.C. Lecture Series DEVELOPMENTAL DISTURBANCE IN SHAPE OF TEETH Anodontia, Supernumery teeth, Predecidious dentition & Post permanent dentition. 2
  • 3. A.C. Lecture Series DEVELOPMENTAL DISTURBANCE IN STRUCTURE OF TEETH  Amelogenesis Imperfecta  It is an hereditary defects of enamel. It is ectodermal disturbance, since the mesodermal components of the teeth are normal.  Development of enamel occurs in three stages : a. Formative stages, b. Calcification stage, c. Maturation stage.  Accordingly 3 basic types of Amelogenesis Imperfecta are recognized : a. Hypoplastic type, b. Hypocalcification type, c. Hypomaturation type. (C/F) 3
  • 4. A.C. Lecture Series 2. Environmental Enamel Hypoplasia : “May be defined as an in complete or defective formation of organic enamel matrix of teeth”.  To basic types of Enamel Hypoplasia exist a. Hereditary type, b. Those caused by environmental factor.  In hereditary type both decidious & permanent dentitions are usually involved & generally only the enamel is affected. In contrast when the defect is caused by environmental factor, either dentition may be involved & some times only a single tooth. Both enamel & dentin are affected.  Environmental factor which are responsible for causing enamel hypoplasia are. 1.Nutritional deficiency:Vit-A,C & D. 2.Exanthematous disease: measles, chicken pox, scarlet fever. 3.Congenital syphilis 4.Hypocalcemia 5.Birth injury, Rh incompatibility 6.Local infection or trauma 4
  • 5. A.C. Lecture Series 7.Fluorides Enamel Hypoplasia due to Fluoride (Mottled Enamel):  It is caused by ingestion of fluoride containing drinking water during the time of tooth formation. Severity of mottling increases with increasing amount of fluoride in water. There is little mottling of any significance at a level below 0.9 to 1 ppm.  This type of hypoplasia is due to a disturbance of the ameloblast during the formative stage of tooth development.  Depending upon the level of fluoride in the water supply. There is a wide range of severity in the appearance of mottled teeth varying from  White flecking or spotting of enamel.  Mild changes manifested by white opaque areas involving more of the tooth surface area.  Moderate & sever changes showing pitting & brownish staining of the surface.  Corrode appearance of the teeth. 5
  • 6. A.C. Lecture Series 3. Dentinogenisis Imperfecta :expired Type I: always occurs in families with osteogenesis Imperfecta. Type II: never occurs in families with osteogenesis imperfecta. Most frequently referred as Hereditary opalesent dentin. It is most common dominant inherited disorder in human. Type III: Is Brandy wine type, characterized bymultiple pulp exposure in decidious teeth.  Decidious teeth are more severely affected than the permanent teeth in type I. In type II & III both dentition are affected.  Colour of teeth may range from brownish yellow & exhibit a characteristic translucent or opalescent hue.  R/F most striking feature is the partial or total obliteration of the pulp chamber & root canals by continued formation of dentin. 6
  • 7. A.C. Lecture Series  The affected patients in type III DI had features characterised as “Shell Teeth.” enamel of the tooth appears normal, while dentin is extremely thin, & the pulp chamber are enormous. 4. Dentin Dysplasia: Characterized by normal enamel but atypical dentin formation with abnormal pulp morphology. (hereditary) Type I: Radicular dentin dysplasia: Both dentition are affected. Teeth exhibit extreme mobility & are commonly exfoliated prematurely or after minor trauma as a result of short roots. Type II: Coronal dentin dysplasia: Abnormal large pulp chamber in coronal portion often described as Thistle tube AGENTS AFFECTING TOOTH DEVELOPMENT Introduction:  Certain vitamin & hormone deficiencies if present during tooth formation will adversely affect formative cells & matrix that they produce.  Reduced organic matrix content results in production of hypoplastic tissue.  Excessive levels of tetracycline or fluoride may become incorporated into mineralizing teeth & interfere with the mineralization process. 7
  • 8. A.C. Lecture Series  The extent of defect depend on the nature of the substance, the degree of excess or deficiency and the developmental time.  Vitamin-A, C, D, Parathyroid hormone, Tetracycline & Fluoride are discussed in terms of their relation to matrix development. 8
  • 10. A.C. Lecture Series TETRACYCLINE & FLUORIDE:  If available during the mineralization phase, may be incorporated in dentin, enamel, cementum & bone.  Fluoride is a binary compound of fluorine useful as an anticaries substance. Tetracycline on the other hand is used as an antibacterial agent. Both are deposited along with minerals in developing hard tissue.  On prolonged exposure to light, tetracycline stained dental tissue will change in colour to  A brown to gray. Other effects of tetracycline is hypoplasia or absence of enamel. Staining is most notable in dentin, especially in the first formed dentin at the DEJ. Staining is more notable under UV light.  Amount of damage is directly related to the magnitude & duration of the dosage.  Mechanism: It is believed that a chelate of calcium & tetracycline forms. At higher concentration in both ameloblast & odontoblast protein synthesis is impaired. This in turn will result in hypoplasia of the enamel & dentin matrix. 10
  • 12. A.C. Lecture Series  Tetracycline & to limited extent Sodium Fluoride cross the placental barrier.  If pregnant female consumes fluoridated water during mineralization of the fetal teeth. Such teeth exhibit higher resistance to dental caries.  If on the other hand tetracycline antibiotics are administered to the mother during the period of tooth mineralization, the decidious teeth may later be stained. Tetracycline staining of teeth is permanent, but staining of bone is not permanent as bone is remodeled continuously.  Cervical staining is more characteristic of tetracycline because this agent deposits primarily in the dentin.  Fluoride is most beneficial to the teeth in concentration of approximately 0.5 to 1 ppm of water. Higher concentration such as 5 ppm causes mottling & hypoplasia of the enamel & hypo mineralized dentin.  Less amount of fluoride is being found in primary teeth than in permanent teeth because the maturative stage last for 1-2 years in primary teeth & 4-5 years in permanent teeth.  Tetracycline has been widely used to visually record growth in experimental animal. Daily deposition of dentin can thus be recorded by measuring the width of dentin between each fluorescent line.  Tetracycline may be used to evaluate tooth movement by reveling bone & dentin formation. 12
  • 13. A.C. Lecture Series CLINICAL APPLICATION :  The size of the tooth is depends upon both proliferative & secretory activities of the cell. Macrodontia, Microdontia are the result of factors affecting the growth of the tooth germ at the cap & bell stages. True macro & microdontia may be the result of over & under secretion of pituitary hormones.  Absence of teeth, partial or total anodontia is due to factors that disrupt tooth development at the initiation stage. In genetic disorder ectodermal dysplasia there is total anodontia.  Distal proliferation of dental lamina is responsible for the location of the germs of the permanent molars in the ramus of the mandible & tuberosity of maxilla.  If the cells of the epithelial RS remain adherent to the dentin surface, they may differentiate into fully functioning ameloblast & produce enamel called enamel pearls, found in the areas of furcation of the roots of PM.  If continuity of Hertwig's RS is broken or is not established prior to dentin formation, a defect in the dentinal wall of the pulp ensures.this accounts for development of accessory root canals opening.  If continuity of Hertwig's RS is not broken even after dentin formation it results in root dentin exposure to oral cavity. 13
  • 14. A.C. Lecture Series  Developmental disorders of teeth causes clinical problems related to appearance, spacing, crowding, & periodontal treatment.  In intercuspal areas, during enamel secretion, the ameloblasts may become strangulated when their bases begin to touch one another. These areas becomes pits & fissures in erupted tooth. They are extremely difficult to clean.  Clinically,vit-C deficiency is manifested orally by gingival bleeding & loosening the teeth. Weakness, anemia, bone loss, & susceptibility to hemorrhage.  Osteoporosis results when calcium loss because of resorption is greater than calcium deposition. This may be evident orally with loss of alveolar bone & loosening of teeth.  Certain antibiotics, like the tetracyclines, have an affinity for calcified tissues. They may become incorporated within the mineral phase during maturation, & cause discoloration of the enamel & underlying dentin.  Brown staining or defect in the enamel of the incisal third of crowns indicates the presence of toxic substance in the body at the time of initial mineralization of the teeth. Staining in the cervical area relates to induction of a toxic substance at a time of final crown mineralization.  The cervical region of the crown and the central grooves are the last zones to mineralize. Ameloblasts in these regions may lose functional ability before mineralization is complete. Lack of complete mineralization of the central grooves or cervical areas is believed to be a reason for caries in these areas. 14