The enamel organ, also known as the dental organ, is a cellular aggregation seen in a
developing tooth and it lies above the
dental papilla
In embryology and prenatal development, the dental papilla is a condensation of ectomesenchymal cells called odontoblasts, seen in histologic sections of a developing tooth. It lies below a cellular aggregation known as the enamel organ. The ...
.
The enamel organ which is differentiated from the primitive oral epithelium lining the stomodeum.The enamel organ is responsible for the formation of enamel, initiation of
dentine
Dentin () (American English) or dentine ( or ) (British English) ( la, substantia eburnea) is a calcified tissue of the body and, along with enamel, cementum, and pulp, is one of the four major components of teeth. It is usually covered by ena ...
formation, establishment of the shape of a tooth's
crown
A crown is a traditional form of head adornment, or hat, worn by monarchs as a symbol of their power and dignity. A crown is often, by extension, a symbol of the monarch's government or items endorsed by it. The word itself is used, partic ...
, and establishment of the dentoenamel junction.
The enamel organ has four layers; the
inner enamel epithelium
The inner enamel epithelium, also known as the internal enamel epithelium, is a layer of columnar cells located on the rim nearest the dental papilla of the enamel organ in a developing tooth. This layer is first seen during the cap stage, in wh ...
,
outer enamel epithelium
The outer enamel epithelium, also known as the external enamel epithelium, is a layer of cuboidal cells located on the periphery of the enamel organ in a developing tooth. This layer is first seen during the bell stage.
The rim of the enamel org ...
,
stratum intermedium
The stratum intermedium in a developing tooth is a layer of two or three cells between the inner enamel epithelium and the newly forming cells of the stellate reticulum. It first appears during the early bell stage of tooth development, at aroun ...
, and the
stellate reticulum
The stellate reticulum is a group of cells located in the center of the enamel organ of a developing tooth. These cells are star-shaped and synthesize glycosaminoglycans. As glycosaminoglycans are produced, water
Water (chemical formula ...
.
The dental papilla, the differentiated ectomesenchyme deep to the enamel organ, will produce dentin and the dental
pulp
Pulp may refer to:
* Pulp (fruit), the inner flesh of fruit
Engineering
* Dissolving pulp, highly purified cellulose used in fibre and film manufacture
* Pulp (paper), the fibrous material used to make paper
* Molded pulp, a packaging material
...
. The surrounding ectomesenchyme tissue, the dental follicle, is the primitive cementum, periodontal ligament and alveolar bone beneath the tooth root.
The site where the internal enamel epithelium and external enamel epithelium coalesce is the cervical root, important in proliferation of the dental root.
Tooth development
Tooth development begins at week 6 in utero, in the oral epithelium. The process is divided into three stages:
# Initiation
# Morphogenesis and
# Histogenesis
At the end of week 7 i.u., localised proliferations of cells in the dental laminae form round and oval swellings known as tooth buds, which will eventually develop into mesenchymal cells and surround the enamel organ. Each epithelial swelling and the surrounding mesenchymal cells form a tooth germ.
Tooth germs are the primitive structure of teeth; their formation is in three distinct stages: bud stage, cap stage, bell stage.
The stages are based on the degree of development of enamel organ. Oral epithelium forms the tooth enamel while the ectomesenchyme forms the pulp and dentine of the tooth. The ectomesenchyme lies deep to the oral epithelium.
Bud Stage
This is the initial stage of tooth development, which occurs at week 8 i.u.. Proliferation of
dental lamina
The dental lamina is a band of epithelial tissue seen in histologic sections of a developing tooth. The dental lamina is first evidence of tooth development and begins (in humans) at the sixth week in utero or three weeks after the rupture of th ...
occurs, forming small tooth buds which are spherical or ovoid condensations of epithelial cells, now known as the enamel organ.
The enamel organ consists of peripherally located, low columnar cells and centrally located polygonal cells. The enamel organ is also surrounded by proliferating mesenchymal cells, which results in the condensation of two distinct areas:
# The
dental papilla
In embryology and prenatal development, the dental papilla is a condensation of ectomesenchymal cells called odontoblasts, seen in histologic sections of a developing tooth. It lies below a cellular aggregation known as the enamel organ. The ...
: below the enamel organ
# The tooth sac: ectomesenchymal condensation of the area surrounding the tooth bud and dental papilla.
Both the dental papilla and the tooth sac are not structurally defined in the bud stage, and will become more defined in subsequent stages (Cap and Bell stages). The interaction and signalling between the enamel organ and the surrounding mesenchymal cells play an important role in the later stages of tooth development.
Each dental arch will have 10 tooth buds, accounting for 20 primary teeth.
Cap Stage
The cap stage occurs in week 9-10 i.u.
Unequal proliferation of cells during this stage, invaginating into the ectomesenchyme tissue, leads to the formation of the cap-shaped enamel organ. The ectomesenchyme tissue also invaginates superficially to shape the primitive dental pulp. Differentiation of cells occurs at this stage to make different tissue layers; external enamel epithelium, stratum intermedium, stellate reticulum, internal enamel epithelium, dental papilla, and dental follicle. The external enamel epithelium, a layer of simple cuboidal epithelium, has a protective role during tooth development.
The stellate reticulum, the innermost layer of the enamel organ, gathers GAGs between cells. The internal enamel epithelium will form enamel during the Bell Stage
Early Bell stage
There is uneven growth of enamel organ in this phase, and the epithelial cap deepens.
The cap shape of the enamel organ assumes a bell shape as the undersurface of the cap deepens.
Foldings of the internal enamel epithelium (done by the growing papilla cells) maps out the occlusal pattern of the tooth crown. The process is known as morphodifferentiation. The pressure exerted by the dental papilla cells has been shown to be opposed equally by the pressure from the fluid in the stellate reticulum (present in the enamel organ).
The folding of the enamel organ is caused by different rates of mitosis and difference in cell differentiation times, causing different crown shapes in each tooth.
Late Bell stage
This stage is the apposition stage (formation of dental hard tissues), also characterised by the commencement of root formation and mineralisation. The area between the internal enamel epithelium and odontoblasts outline the future dentinoenamel junction. Formation of dentine (dentinogenesis) precedes enamel formation (amelogenesis). It occurs first as along the future dentinoenamel junction in the region of future cusps and proceeds pulpally and apically. Cells of the internal enamel epithelium become pre-ameloblasts and release inductive factors which encourage the differentiation of odontoblasts from the mesenchymal cells of the dental papilla.
This can be seen in the figure (marked A). The odontoblasts lay down dentine (see pale blue band). After the first layer of dentine is formed, this induces ameloblasts (B) to lay down enamel (red region) over the dentine in the future incisal and cuspal areas. Amelogenesis will then follow. The cervical portion of the enamel organ then gives rise to the Hertwig Epithelial Root Sheath (HERS)- this outlines the future root and also is responsible for the size, shape, length and the number of roots.
Determination of crown morphology
The composition of the enamel organ does not vary greatly between incisors, canines, premolars, and molars. Although the quantity of odontoblasts, ameloblasts and cementoblasts present in premolars/molars and incisors/canines remains the same, the major difference between these morphological types of teeth is the rate of secretion and quantity of products secreted by the enamel organ (dentine, enamel, cementum). There has been no definite consensus as to what determines the differences between enamel organs in different teeth. However, it is a widely held view by dental professionals and biologists that genes
and cell signaling
between cells in the dental extracellular matrix/enamel matrix play a role.
The shape of the enamel layer covering the crown is determined by five growth parameters:
# The appositional growth rate
# Duration of appositional growth (at the cusp tip)
# Ameloblast extension rate
# Duration of ameloblast extension
# Spreading rate of appositional termination.
The appositional growth mechanism establishes the thickness of the enamel layer and it is determined by ribbon-like carbonate apatite crystals which are present in the rods (or prisms)
and interrods. They are produced by the ameloblast in the bell stage of tooth development. As the crystals are long and closely packed, the thickness depends on the abundance of the crystals in the tooth. Crown shape or morphology is determined by the epithelial-mesenchymal interaction, which occurs at the dentinoenamel junction (DEJ).
Firstly, the pre-ameloblasts differentiate from the inner enamel epithelia on the dentine surface covering the pulp horn. A wave of ameloblasts will then differentiate from the cusp tip and move through the inner enamel epithelia down the slope of the mineralised dentine surface. The differentiation will extend down the slope of the dentine surface and reaches its limit, where the inner epithelium is fused with the outer enamel epithelium to form Hertwig's epithelial root sheath. Enamel mineral will increase daily (apposition growth) during the secretory stage of amelogenesis (enamel formation). Ultimately, the secretory stage will end and they will transition into maturation stage ameloblasts. These ameloblasts will move down to the enamel surface of the tooth and the shape of the crown and tooth is then established.
Abnormalities
Odontomes
Odontomes are considered to be developmental anomalies resulting from the growth of completely differentiated epithelial and mesenchymal cells that give rise to
ameloblast
Ameloblasts are cells present only during tooth development that deposit tooth enamel, which is the hard outermost layer of the tooth forming the surface of the crown.
Structure
Each ameloblast is a columnar cell approximately 4 micrometers in ...
s and
odontoblast
In vertebrates, an odontoblast is a cell of neural crest origin that is part of the outer surface of the dental pulp, and whose biological function is dentinogenesis, which is the formation of dentin, the substance beneath the tooth enamel on t ...
s. Histologically, they are composed of different dental tissues including enamel,
dentin
Dentin () (American English) or dentine ( or ) (British English) ( la, substantia eburnea) is a calcified tissue of the body and, along with enamel, cementum, and pulp, is one of the four major components of teeth. It is usually covered by ena ...
e,
cementum
Cementum is a specialized calcified substance covering the root of a tooth. The cementum is the part of the periodontium that attaches the teeth to the alveolar bone by anchoring the periodontal ligament.Illustrated Dental Embryology, Histology, a ...
and in some cases,
pulp
Pulp may refer to:
* Pulp (fruit), the inner flesh of fruit
Engineering
* Dissolving pulp, highly purified cellulose used in fibre and film manufacture
* Pulp (paper), the fibrous material used to make paper
* Molded pulp, a packaging material
...
tissue, therefore if the enamel organ is not arranged in its proper fashion, an odontome may form.
Odontomes are categorised as either:
; Compound: this malformation is anatomically like a normal tooth, and has dental tissues (enamel, dentine, cementum) placed in an orderly fashion. These are more frequent than complex odontomes.
; Complex: this malformation results in dental tissues being arranged in a disorderly fashion, forming an irregular mass.
Odontomes are rare entities and usually asymptomatic; they are often incidental findings on routine dental radiographic examinations.
The complex odontome appears as an irregular mass of calcified material surrounded by a thin radiolucent area with smooth periphery, and the compound type shows calcified structures resembling teeth in the centre of a well-defined radiolucent lesion.
Some factors related to the development of odontomes are:
* Changes in genetic components responsible for tooth development
* Trauma at primary dentine period
* Inherited conditions such as
Gardner's Syndrome
Gardner's syndrome (also known as Gardner syndrome, familial polyposis of the colon, or familial colorectal polyposis) is a subtype of familial adenomatous polyposis (FAP). Gardner syndrome is an autosomal dominant form of polyposis characterize ...
* Infection
* Inflammation
* Hyperactivity of odontoblasts.
The first reported case of an odontome erupting in the oral cavity was in 1980.
Dens Invaginatus
Dens Invaginatus
Dens invaginatus (DI), also known as tooth within a tooth, is a rare dental malformation where there is an infolding of enamel into dentine. The prevalence of condition is 0.3 - 10%, affecting more males than females. The condition is presented in ...
is a dental anomaly which means that the affected tooth (dilated odontome) contains a cavity that is completely or partially lined by enamel, radiographically resembling a tooth within a tooth (dens in dente).
There is a lack of consensus on the aetiology of dens invaginatus. It is suggested that dens invaginatus arises because during
odontogenesis
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 sta ...
, there is proliferation and ingrowth of the cells of the enamel organ into the dental papilla during development.
Another proposed theory is that the distortion of the enamel organ during tooth development and subsequent protrusion of a part of the enamel organ will lead to the formation of an enamel-lined channel ending at the cingulum or occasionally at the incisal tip.
Histologically, there are differences in the structure and composition between the external and internal enamel in dens invaginatus. The internal enamel exhibits atypical and more complex rod shapes and its surface has the typical honeycomb pattern but no
perikyma
Perikymata (Greek plural of περικύμα, perikyma) are incremental growth lines that appear on the surface of tooth enamel as a series of linear grooves. In anatomically modern humans, each perikyma takes approximately 6–12 days to form. T ...
ta.
The invagination can be:
* Coronal type: slight pitting involving the enamel organ infolding into the dental papilla
* Radicular type: occupying most of the crown and root involving invagination of Hertwig's epithelial root sheath, lined with cementum.
Dens invaginatus has a clinical importance as teeth affected with dens invaginatus are predisposed to developing
pulpal disease. The invagination allows entry of irritants into an area which is separated from pulpal tissue by only a thin layer of enamel and dentine and extra preventative measures are advised to prevent dental caries.
Enamel Defect and Coeliac Disease
Coeliac disease
Coeliac disease (British English) or celiac disease (American English) is a long-term autoimmune disorder, primarily affecting the small intestine, where individuals develop intolerance to gluten, present in foods such as wheat, rye and barle ...
in children is thought to be underdiagnosed because it may initially be asymptomatic. Studies have shown that enamel defect of permanent and deciduous or primary teeth may suggest the presence of undiagnosed coeliac disease in children and adults.
Coeliac disease-related enamel defects are most commonly associated with incisors and first molar teeth, and are characterised by symmetrical distribution of enamel defects on the same tooth in all 4 quadrants.
This is a distinct characteristic of enamel defects in coeliac disease that cannot be seen in other enamel defects.
Enamel defects in coeliac disease occur due to an interference in tooth formation by
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 developmen ...
. Amelogenin is a proline-rich enamel protein that plays a major role in mineralisation and organisation of tooth crystals.
Disruption to this process cause alterations in the tooth surface. Patients with coeliac disease produce high levels of circulating IgG and IgA antigliadin antibodies (AGA) in order to get rid of protein
gliadin
Gliadin (a type of prolamin) is a class of proteins present in wheat and several other cereals within the grass genus ''Triticum''. Gliadins, which are a component of gluten, are essential for giving bread the ability to rise properly during baki ...
, which is toxic to these patients. However, due to the structural similarities between amelogenin and gliadin, AGA may interfere with amelogenin which lead to improper formation of enamel.
Furthermore, because IgG can be transported across the placenta, the
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. Amelobla ...
process is disturbed from the intrauterine period to adolescence.
Gliadins are highly hydrophobic proteins in wheat gluten. The antibodies are produced to interact with this protein. Therefore, a gluten-free diet may lead to normalisation of tooth development as circulating antibodies for enamel defect may decrease.
See also
*
Ameloblast
Ameloblasts are cells present only during tooth development that deposit tooth enamel, which is the hard outermost layer of the tooth forming the surface of the crown.
Structure
Each ameloblast is a columnar cell approximately 4 micrometers in ...
*
Tooth
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, tear ...
*
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 stag ...
*
Tooth enamel
Tooth enamel is one of the four major Tissue (biology), tissues that make up the tooth in humans and many other animals, including some species of fish. It makes up the normally visible part of the tooth, covering the Crown (tooth), crown. The ...
References
{{Authority control
Tooth development