Odontoma

Odontoma is a benign tumor of mixed odontogenic origins consisting of both odontogenic hard and soft tissue. It is thought to be the most frequently encountered odontogenic tumor. Odontomas are composed of both epithelial and ectomesenchymal components that contribute to enamel- and dentinlike structures within the lesion. Although odontomas may consist of normal-appearing enamel/dentin structures, they have defects in their structural arrangement and hence they are considered as hamartomas, or tumorlike malformations, rather than true neoplasms.

The odontoma is seen predominantly in the second and third decade of life and has a slight female predilection. There are 2 main types: compound and complex. The lesion is easily recognized in radiographic examinations and appears as a radiopaque mass with thin radiolucent rim. Odontomas are usually managed by conservative enucleation but more extensive surgical procedures may be necessary for larger, more extensive lesions.

Clinical features

Odontomas are slow-growing, expanding, and painless intrabony lesions. Pain and inflammation may, however, result from secondary infection. The 2 types of odontomas are complex and compound odontoma. The distinction between these 2 types is based on either the appearance of toothlike structures or disorganized mass of dental tissue. The complex type is unrecognizable as dental structures, appearing as a radiopaque mass with varying densities. The compound odontoma has recognizable enamel, dentin, and cementum and consists of individual recognizable small teeth. The complex odontomas are located in the posterior mandible and identified based on disorganized mass of dental tissues, that is, enamel and/or dentine ( Fig. 1 A). Compound odontomas are located in the anterior maxillae and identified based on well-organized, multiple toothlike structures ( Fig. 1 B, C). Odontomas can also be associated with other odontogenic tumors such as calcifying odontogenic cyst, ameloblastic fibroodontoma (AFO), and odontogenic fibromas. The association of odontoma with Gardner syndrome and coronoid hypoplasia has also been reported.

( A ) A growth observed in left posterior maxillae that is hard and rough mass. ( B ) Asymptomatic presentation of compound odontoma in anterior mandible with crowding of dentition. ( C ) Multiple toothlike structures excised from compound odontoma in anterior mandible.

([ A ] From Zhuoying C, Fengguo Y. Huge erupted complex odontoma in maxilla. Oral Maxillofac Surg Cases 2019;5(1):100096; with permission; and [ B, C ] Courtesy of Orrett E. Ogle, DDS, Woodhull Hospital, Brooklyn, NY.)

Diagnostic modalities

In most cases odontomas can be diagnosed based on their radiographic appearance alone. The radiologic appearance depends on the stage of the lesion. The first stage is characterized by a radiolucent appearance due to lack of calcification. Partial calcification or radiopacity are seen in second or intermediate stage. The third stage is characterized by predominance of radiopaque masses of dental hard tissues with a thin radiolucent zone. Resorption or adjacent tooth or roots are uncommon. Association with unerupted teeth may be seen. Radiographically compound odontomas seem as collection of multiple toothlike structures of varying size and shape with periphery of narrow radiolucent zone, whereas complex odontomas seem as calcified mass with radiodensity of tooth structures with periphery of narrow radiolucent zone ( Fig. 2 ).

( A ) Panoramic radiograph showing a large irregular radiopaque mass in left posterior maxillae. ( B ) Intraoral periapical radiograph showing a multiple toothlike structures in anterior mandible.

([ A ] From Zhuoying C, Fengguo Y. Huge erupted complex odontoma in maxilla. Oral Maxillofac Surg Cases 2019;5(1):100096; with permission; and [ B ] Courtesy of Orrett E. Ogle, DDS, Woodhull Hospital, Brooklyn, NY.)

Microscopically odontomas are observed with multiple mineralized structures resembling small, single-rooted teeth with loose fibrous matrix. Pulp tissue may be seen in coronal and radicular zone of toothlike structures.

Differential diagnosis

Differential diagnosis may include supernumerary tooth, AFO, and osteomas. Based on formation and the number of toothlike structures present, a supernumerary tooth can be easily differentiated from odontomas. Distinguishing AFO from odontoma can be challenging. Radiographically, the radiopacity seen in AFO is usually scattered, whereas the odontomas will have a central area of radiopacity. Radiographic appearance of complex odontoma may be confused with osteoma due to mineralized mass of tissue. However, the radiolucent zone at the periphery of the odontoma, which represents the dental follicle along with the radiodensity of the mass having a density similar to teeth, will differentiate odontomas from osteomas.

Management

Odontomas are managed with conservative surgical excision and special surgical considerations are given for large odontomas. The prognosis of the condition is usually excellent with minimal to no recurrence.

Keratocystic Odontogenic Tumor (Formally Known as the Odontogenic Keratocyst)

Keratocystic odontogenic tumor (KCOT) is a controversial benign intraosseous cystic neoplasm of the jaw, which was formerly called odontogenic keratocyst but was reclassified under a new designation in order to better convey its neoplastic nature due to its aggressive and recurrence nature. KCOT is radiographically recognized as a unilocular radiolucent area with scalloped borders or multilocular radiolucent lesion in the posterior jaw. KCOT tend to grow more in anteroposterior direction rather than in buccal-lingual expansion ( Fig. 3 ). Because of its aggressive clinical behavior and high recurrence rate, the odontogenic keratocyst was considered to be a neoplasm. However, in 2018 both a World Health Organization and International Agency for Research on Cancer consensus concluded that further research is needed to explore the genetic changes in the KCOT/OKC for it to be classified as a neoplasm. Because of insufficient evidence to support neoplastic origins of keratocystic odontogenic tumor, the condition was again reclassified as a cyst, and in 2019 the appropriate name is again odontogenic keratocyst and it has been removed from the classification of odontogenic tumors. The clinical and diagnostic details of keratocystic odontogenic tumor are discussed in Arvind Babu Rajendra Santosh’s article, “ Odontogenic Cysts ,” in this issue.

( A ) Asymptomatic bony expansion in left mandibular angle region (odontogenic keratocyst). ( B ) Large multilocular radiolucent defect with scalloped borders in left mandibular angle region. ( C ) Large multilocular radiolucent defect with scalloped borders in left mandibular angle region. ( D ) Large multilocular radiolucent defect crossing midline, that is, extending anteroposterior direction.

([ A–C ] Courtesy of Orrett E. Ogle, DDS, Woodhull Hospital, Brooklyn, NY; and [ D ] From Pogrel MA. The keratocystic odontogenic tumour (KCOT)–an odyssey. Int J Oral Maxillofac Surg. 2015;44(12):1566; with permission.)

Ameloblastoma

Ameloblastomas are the second most common benign odontogenic tumor. They are potentially aggressive, locally invasive, slow-growing benign tumors that may originate from cell rests of dental lamina, epithelium from the enamel organ, epithelial lining of odontogenic cyst (ie, dentigerous cyst), and basal cell layer of oral mucosa. Based on clinical, radiologic, histologic, and prognosis aspects, ameloblastomas are classified as (1) classic/solid/multicystic ameloblastomas, (2) unicystic type, (3) peripheral, and (4) desmoplastic ameloblastoma. Histopathologic examination is mandatory for confirmation of diagnosis. Ameloblastomas are managed by wide surgical resection, and recurrences have been reported.

Clinical features

Ameloblastomas are uncommon among children and is predominantly seen in third and fourth decades of life with a male predilection. The posterior mandible is the most commonly affected site, although one of the authors (OEO) have noted that the parasymphysis/symphysial area is the most common sites in patients seen in Central and East Africa. Ameloblastoma is a slow-growing, painless swelling of the jaw. The clinical signs such as pain and disfigurement may be seen as the lesion advances in the size. The pain occurs due to pressure effects from the mass size on peripheral nerves and secondary infection. Ameloblastomas that present with large expansile mass of the jaw can cause thinning of cortical plate, and crepitation or egg shell crackling may be elicited while palpating jaw. Rarely the lesion can perforate jaw bone leading to ulcerated growth in oral cavity and sometimes the skin. Peripheral ameloblastomas present as painless, slow-growing gingival swelling that may produce shallow depression in the underlying bone rather than infiltration.

Diagnostic modalities

Radiographic examination can greatly assist in the diagnosis of ameloblastomas. The frequent presentation type of ameloblastoma is solid/multicystic type, which appears as multilocular radiolucent destruction of bone. A well-defined, small or large radiolucent area in the bone gives the appearance of honeycomb or soap bubble appearance. The destructive changes of the jaw bone may be either confined to alveolar bone or half the mandible. Buccal and lingual cortical plate expansions are observed. Cortical plate expansions can be well recognized in occlusal radiographs. Resorption of adjacent roots of teeth is frequently observed. Association of unerupted tooth is common and adds a layer of complexity in differentiating ameloblastoma with circumferential type of dentigerous cyst. Although ameloblastoma frequently shows irregular scalloping border, this is not a consistent finding in all the cases. Mixed radiographic appearance is due to osseous septa in the lesion but not a true mineralized content in the lesion. Unicystic ameloblastoma shows a large unilocular radiolucent destruction of the involved jaw bone ( Fig. 4 ).

( A ) Panoramic radiograph showing a large radiolucent defect involving right mandibular body. ( B ) Asymptomatic swelling and labial cortical plate expansion of lower anterior region. The intraoral periapical radiograph showing small multilocular radiolucent defect (honeycomb appearance) in lower left central incisor to canine region. The histopathology specimen showing follicular ameloblastoma with peripheral ameloblast-like cells and central stellate reticulum–like cells.

([A] From Almajid EA, Alfadhel AK. Management of large pediatric ameloblastoma: conservative approach with 4-years follow up. Oral Maxillofac Surg Cases 2019;5(1):100093; with permission; and [B] Courtesy of Earl I. Clarkson, DDS, and Orrett E. Ogle, DDS, Woodhull Hospital, Brooklyn, NY.)

Microscopic examination shows ameloblast-like cells and stellate reticulum–like cells with fibrous stroma. Histologic variants of ameloblastomas include follicular, plexiform, acanthomatous, granular cell, desmoplastic, clear cell, basal cell, keratoameloblastoma, papilliferous type, mucous cell, hemangiomatous, and extragnathic types.

Differential diagnosis

Differential diagnosis of ameloblastoma can be categorized into radiolucency with and without mineralization changes. Differential diagnosis of uni-/multilocular radiolucency without mineralization includes odontogenic keratocyst, central giant cell granuloma, and dentigerous cyst, whereas differential diagnosis panel of uni-/multilocular radiolucency with mineralization includes odontogenic myxoma, calcifying odontogenic cyst, and calcifying epithelial odontogenic tumor. One must look for size, location, and presence/absence of mineralization while formulating differential diagnosis. Central giant cell granulomas are commonly reported in anterior mandible, whereas ameloblastomas are seen in posterior region. Odontogenic keratocyst has a tendency to expand in anteroposterior region, whereas ameloblastomas tend to expand in a buccal-lingual direction. Dentigerous cyst tends to show pericoronal radiolucency, whereas ameloblastomas show impacted tooth in the lesion, not necessarily pericoronal radiolucency. Mineralization density is greatly appreciated in calcifying epithelial odontogenic tumor and calcifying odontogenic cyst.

Management

Multicystic ameloblastomas are treated by wide range of surgical options ranging from simple enucleation to en-bloc resection. Peripheral ameloblastomas are managed by surgical excision and curettage of the bone at the base. Ameloblastomas have a tendency to recur, hence careful postsurgical follow-up visits are necessary.

Malignant Ameloblastoma and Ameloblastic Carcinoma

Ameloblastoma sometimes exhibit behavior of metastases that are most often found in the lungs. The diagnosis of malignant ameloblastoma should be made when a tumor in both primary and metastatic locations demonstrate histopathologic features of ameloblastoma.

The diagnosis of ameloblastic carcinoma should be made when microscopic examination of ameloblastoma cases shows cytologic features of malignancy in the primary tumor. Ameloblastic carcinomas show local aggressive behavior but do not demonstrate the character of metastasis.

Adenomatoid Odontogenic Tumor

Adenomatoid odontogenic tumor (AOT) is a benign odontogenic tumor arising from odontogenic apparatus showing odontogenic epithelium with mature fibrous stroma and without ectomesenchyme. AOT was formerly considered to be a variant of ameloblastoma. However, because of clinical and biological behavior, AOT is considered as a separate entity from ameloblastoma. Based on radiological features, 3 variants of AOT are recognized: (1) follicular/pericoronal, (2) extrafollicular/extracoronal, and (3) peripheral types. Microscopic examination is mandatory for confirmation of diagnosis. AOT usually responds well to surgical excision due to encapsulation of the lesion that can be enucleated from the adjacent bone. Aggressive behavior and recurrences are rarely reported.

Clinical features

AOTs are uncommon, benign, slow-growing, painless swelling of the jaw bone. Adenomatoid odontogenic tumors are sometimes referred as “two-thirds tumors,” because two-thirds of AOTS occur before second decade of life, two-thirds of cases are in anterior maxillae, two-thirds of cases are reported in women, two-thirds of AOTs surround an impacted tooth, and two-thirds of the time that impacted tooth is canine. Peripheral variant of AOT appears as small, sessile, exophytic mass over the labial gingiva of the maxillae.

Diagnostic modalities

AOTs are frequently recognized during radiographic examination of unerupted maxillary canine tooth. Radiolucent defect with mandible canine impaction is also observed ( Fig. 5 ). The lesion is predominantly intraosseous and shows variation in radiographic location. Based on the location of the lesion, it can be extrafollicular type (no relation to tooth structures); interradicular; adjacent to roots; superimposed on the root apex (periapical type); superimposed at midroot level; or peripheral type (extraosseous/gingival) with slight erosion of alveolar crest of bone. The follicular type is the most common type of AOT presentation. Radiographically, follicular type presents as well-defined, unilocular (oval or round) radiolucency associated with the crown of an unerupted tooth mimicking dentigerous cyst. Radiographic examination can greatly assist in the diagnosis of AOT. The intraoral periapical radiograph is the best radiograph to show radiopacities in AOT. Cone beam computed tomography seems to possess the best potential for diagnosing AOT.

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2. Odontogenic Cysts
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