Amelogenesis imperfecta (AI) is a congenital disorder which presents with a rare abnormal formation of the enamel or external layer of the crown of

teeth A tooth ( : teeth) is a hard, calcified structure found in the jaws (or mouths) of many vertebrates and used to break down food. Some animals, particularly carnivores and omnivores, also use teeth to help with capturing or wounding prey, tea ...

, unrelated to any systemic or generalized conditions. Enamel is composed mostly of mineral, that is formed and regulated by the proteins in it. Amelogenesis imperfecta is due to the malfunction of the proteins in the enamel (

ameloblastin Ameloblastin (abbreviated AMBN and also known as Sheathlin or Amelin) is an enamel matrix protein that in humans is encoded by the AMBN gene. Function Ameloblastin is a specific protein found in tooth enamel. Although less than 5% of enamel co ...

enamelin Enamelin is an enamel matrix protein (EMPs), that in humans is encoded by the ''ENAM'' gene. It is part of the non-amelogenins, which comprise 10% of the total enamel matrix proteins. It is one of the key proteins thought to be involved in amelo ...

, tuftelin and

amelogenin Amelogenins are a group of protein isoforms produced by alternative splicing or proteolysis from the '' AMELX'' gene, on the X chromosome, and also the ''AMELY'' gene in males, on the Y chromosome. They are involved in amelogenesis, the developm ...

) as a result of abnormal enamel formation via

amelogenesis Amelogenesis is the formation of enamel on teeth and begins when the crown is forming during the advanced bell stage of tooth development after dentinogenesis forms a first layer of dentin. Dentin must be present for enamel to be formed. Amelobl ...

. People with amelogenesis imperfecta may have teeth with abnormal color: yellow, brown or grey; this disorder can affect any number of teeth of both dentitions.

Enamel hypoplasia Enamel hypoplasia is a defect of the teeth in which the enamel is deficient in quantity, caused by defective enamel matrix formation during enamel development, as a result of inherited and acquired systemic condition(s). It can be identified as m ...

manifests in a variety of ways depending on the type of AI an individual has (see below), with pitting and plane-form defects common. The teeth have a higher risk for

dental cavities Dental may refer to: * Dental consonant, in phonetics * Dental Records, an independent UK record label * Dentistry, oral medicine * Teeth A tooth ( : teeth) is a hard, calcified structure found in the jaws (or mouths) of many vertebrates a ...

and are hypersensitive to temperature changes as well as rapid attrition, excessive

calculus Calculus, originally called infinitesimal calculus or "the calculus of infinitesimals", is the mathematical study of continuous change, in the same way that geometry is the study of shape, and algebra is the study of generalizations of arithm ...

deposition, and

gingival hyperplasia Gingival enlargement is an increase in the size of the gingiva (gums). It is a common feature of gingival disease. Gingival enlargement can be caused by a number of factors, including inflammatory conditions and the side effects of certain medica ...

.American Academy of Pediatric Dentistry, Guideline on Dental Management of Heritable Dental Developmental Anomalies, 2013, http://www.aapd.org/media/Policies_Guidelines/G_OHCHeritable.pdf The earliest known case of AI is in an extinct

hominid The Hominidae (), whose members are known as the great apes or hominids (), are a taxonomic family of primates that includes eight extant species in four genera: '' Pongo'' (the Bornean, Sumatran and Tapanuli orangutan); ''Gorilla'' (the eas ...

species called '' Paranthropus robustus'', with over a third of individuals displaying this condition.

Genetics

Several gene expression is needed for enamel formation where the relevant matrix proteins & proteinases are transcribed for regular crystal growth & enamel mineralization. Mutations in the ''

AMELX Amelogenin, X isoform is a protein that in humans is encoded by the ''AMELX'' gene. AMELX is located on the X chromosome and encodes a set of isoforms of amelogenin by alternative splicing. Amelogenin is an extracellular matrix protein involved in ...

'', '' ENAM'', ''

MMP20 Matrix metalloproteinase-20 (MMP-20) also known as enamel metalloproteinase or enamelysin is an enzyme that in humans is encoded by the ''MMP20'' gene. Function Proteins of the matrix metalloproteinase ( MMP) family are involved in the breakdow ...

'', ''

KLK-4 Kallikrein-related peptidase 4 is a protein which in humans is encoded by the ''KLK4'' gene. Kallikreins are a subgroup of serine proteases having diverse physiological functions. Growing evidence suggests that many kallikreins are implicated in ...

'', ''

FAM83H FAM83H is a gene in humans that encodes a protein known as FAM83H (uncharacterized protein FAM83H). FAM83H is targeted for the nucleus and it predicted to play a role in the structural development and calcification of tooth enamel. Gene Locati ...

'', ''

WDR72 WD repeat-containing protein 72 is a protein that in humans is encoded by the ''WDR72'' gene. WDR72 contains 7 WD40 repeats, which are predicted to form the blades of a 7 beta propeller structure. Clinical significance Mutations in this gene ...

'', '' C4orf26'', ''

SLC24A4 Sodium/potassium/calcium exchanger 4 also known as solute carrier family 24 member 4 is a protein that in humans is encoded by the ''SLC24A4'' gene. Clinical effects Mutations in SLC24A4 cause amelogenesis imperfecta Amelogenesis imperfecta (AI ...

'' ''

LAMB3 Laminin subunit beta-3 is a protein that in humans is encoded by the ''LAMB3'' gene. LAMB3 encodes the beta 3 subunit of laminin. Laminin is composed of three subunits (alpha, beta, and gamma), and refers to a family of basement membrane protein ...

'' and ''

ITGB6 Integrin beta-6 is a protein that in humans is encoded by the ''ITGB6'' gene. It is the β6 subunit of the integrin αvβ6. Integrins are αβ heterodimeric glycoproteins which span the cell’s membrane, integrating the outside and inside of the ...

'' genes have been found to cause amelogenesis imperfecta (non-syndromic form). ''AMELX'' and ''ENAM'' encode extracellular matrix proteins of the developing tooth enamel and ''KLK-4'' and ''MMP20'' encode proteases that help degrade organic matter from the enamel matrix during the maturation stage of

. ''SLC24A4'' encodes a calcium transporter that mediates calcium transport to developing enamel during

tooth development Tooth development or odontogenesis is the complex process by which teeth form from embryonic cells, grow, and erupt into the mouth. For human teeth to have a healthy oral environment, all parts of the tooth must develop during appropriate st ...

. Less is known about the function of other genes implicated in amelogenesis imperfecta. Researchers expect that mutations in further genes are likely to be identified as causes of amelogenesis imperfecta. Types include: Amelogenesis imperfecta can have different inheritance patterns depending on the gene that is altered. Mutations in the ENAM gene are the most frequent known cause and are most commonly inherited in an autosomal dominant pattern. This type of inheritance means one copy of the altered gene in each cell is sufficient to cause the disorder. Amelogenesis imperfecta is also inherited in an autosomal recessive pattern; this form of the disorder can result from mutations in the ''ENAM'', ''MMP20'', ''KLK4'', ''FAM20A'', ''C4orf26'' or ''SLC24A4'' genes. Autosomal recessive inheritance means two copies of the gene in each cell are altered. About 5% of amelogenesis imperfecta cases are caused by mutations in the AMELX gene and are inherited in an X-linked pattern. A condition is considered X-linked if the mutated gene that causes the disorder is located on the X chromosome, one of the two sex chromosomes. In most cases, males with an X-linked form of this condition experience more severe dental abnormalities than affected females. Recent genetic studies suggest that the cause of a significant proportion of amelogenesis imperfecta cases remains to be discovered.

Diagnosis

AI can be classified according to their clinical appearances: ;Type 1 - Hypoplastic :Enamel of abnormal thickness due to malfunction in enamel matrix formation. Enamel is very thin but hard & translucent, and may have random pits & grooves. Condition is of autosomal dominant, autosomal recessive, or x-linked pattern. Enamel differs in appearance from dentine radiographically as normal functional enamel. ;Type 2 - Hypomaturation :Enamel has sound thickness, with a pitted appearance. It is less hard compared to normal enamel, and are prone to rapid wear, although not as intense as Type 3 AI. Condition is of autosomal dominant, autosomal recessive, or x-linked pattern. Enamel appears to be comparable to dentine in its radiodensity on radiographs. ;Type 3 - Hypocalcified :Enamel defect due to malfunction of enamel calcification, therefore enamel is of normal thickness but is extremely brittle, with an opaque/chalky presentation. Teeth are prone to staining and rapid wear, exposing dentine. Condition is of autosomal dominant and autosomal recessive pattern. Enamel appears less radioopaque compared to dentine on radiographs. ;Type 4 - Hypomature hypoplastic enamel with taurodontism : Enamel has a variation in appearance, with mixed features from Type 1 and Type 2 AI. All Type 4 AI has taurodontism in common. Condition is of autosomal dominant pattern. Other common features may include an anterior open bite, taurodontism, sensitivity of teeth. Differential diagnosis would include dental fluorosis, molar-incisor hypomineralization, chronological disorders of tooth development.

Treatment

Preventive and restorative dental care is very important as well as considerations for esthetic issues since the crown are yellow from exposure of dentin due to enamel loss. The main objectives of treatment is pain relief, preserving patient's remaining dentition, and to treat and preserve the patient's occlusal vertical height. Many factors are to be considered to decide on treatment options such as the classification and severity of AI, the patient's social history, clinical findings etc. There are many classifications of AI but the general management of this condition is similar. Full-coverage crowns are sometimes being used to compensate for the abraded enamel in adults, tackling the sensitivity the patient experiences. Usually stainless steel crowns are used in children which may be replaced by porcelain once they reach adulthood. These aid with maintaining occlusal vertical dimension. Aesthetics may be addressed via placement of composite or porcelain veneers, depending on patient factors e.g. age. If the patient has primary or mixed dentition, lab-made composite veneers may be provided temporarily, to be replaced by permanent porcelain veneers once the patient has stabilized permanent dentition. The patient's oral hygiene and diet should be controlled as well as they play a factor in the success of retaining future restorations. In the worst-case scenario, the teeth may have to be extracted and implants or dentures are required. Loss of nerves in the affected teeth may occur.

Epidemiology

The exact incidence of amelogenesis imperfecta is uncertain. Estimates vary widely, from 1 in 700 people in northern Sweden to 1 in 14,000 people in the United States. The prevalence of amelogenesis imperfecta in non-human animals has not been explored, however its presence has been noted. This condition is neither caused by nor the equivalent of dental fluorosis. A manifestation of amelogenesis imperfecta known as "snow capping" is confined to the outer prismless enamel layer. It may superficially resemble dental fluorosis, and indeed "snow capping" may be used as a descriptive term in some incidents of dental fluorosis.

References

External links

{{X-linked disorders Developmental tooth disorders Genetic disorders by system

Genetics

Diagnosis

Treatment

Epidemiology

References

Further reading

External links