|Year : 2018 | Volume
| Issue : 1 | Page : 112-115
Peripheral ameloblastic fibrodentinoma in a 3-year-old boy: Report of an unusual and rare case
Vaneet Kaur, TN Tilakraj
Department of Pedodontics and Preventive Dentistry, Dr Syamala Reddy Dental College Hospital and Research Centre, Bengaluru, Karnataka, India
|Date of Submission||17-Jun-2017|
|Date of Acceptance||03-Jan-2018|
|Date of Web Publication||13-Apr-2018|
Department of Pedodontics and Preventive Dentistry, Hospital and Research Centre, Dr Syamala Reddy Dental College, Bengaluru, Karnataka
Source of Support: None, Conflict of Interest: None
| Abstract|| |
We report a rare and unusual case of a Peripheral Ameloblastic Fibro-Dentinoma (PAFD) occurring in a 3 year old Indian boy. The boy presented to the hospital complaining of swelling in anterior maxillary region with a history of trauma. Periapical radiography of the area did not reveal any bone resorption. The entire mass was excised under local anesthesia, and the histological examination revealed a diagnosis of PAFD. The postoperative course was satisfactory and the excised area has remained free of recurrence for 9 months. PAFD is a rare entity and only 5 cases have been reported in literature. The present case is one of the youngest in the group. The mode of differentiation of the odontogenic lesion is a pointer in the diagnosis and histogenesis has been discussed.
Keywords: Enucleation, gingival growth, mixed odontogenic tumor, peripheral ameloblastic fibrodentinoma
|How to cite this article:|
Kaur V, Tilakraj T N. Peripheral ameloblastic fibrodentinoma in a 3-year-old boy: Report of an unusual and rare case. J Oral Maxillofac Pathol 2018;22:112-5
|How to cite this URL:|
Kaur V, Tilakraj T N. Peripheral ameloblastic fibrodentinoma in a 3-year-old boy: Report of an unusual and rare case. J Oral Maxillofac Pathol [serial online] 2018 [cited 2021 Jul 25];22:112-5. Available from: https://www.jomfp.in/text.asp?2018/22/1/112/230018
| Introduction|| |
Mixed odontogenic tumors are rare in occurrence and are classified based on their differentiation. Most lesions occur in young individuals and are intraosseous. Peripheral odontogenic tumors are relatively rare than their central counterpart. Odontogenic fibroma and ameloblastoma seem to be the most common among peripheral odontogenic tumors.
The first case of ameloblastic fibrodentinoma (AFD) was reported and described by Straith in 1936 as “a very rare neoplasm composed of odontogenic epithelium and immature connective tissue and characterized by the formation of dysplastic dentin.” According to the World Health Organization (WHO) classification, this tumor is termed as “AFD” and considered to be the hard tissue variant of ameloblastic fibroma. The WHO defines ameloblastic fibroma consisting of odontogenic ectomesenchyme resembling the dental papilla and epithelial strands and nests resembling dental lamina and enamel organ. No dental hard tissues are present. AFD represents a variant of ameloblastic fibroma with the presence of dentin.
Besides intraosseous lesions, a peripheral counterpart has been very rarely reported. It represents itself as an asymptomatic slow-growing lesion.
| Case Report|| |
A 3-year-old male child reported with a chief complaint of reddened soft tissue growth of the upper labial gingiva of left central incisor. His medical history was noncontributory and the boy had normal milestones. A history of trauma 5 months ago causing palatal tooth displacement and painful swelling on the labial attached gingiva with pus formation treated by antibiotics was recorded. Two months later, a local firm, tender, nonfluctuant and inflamed soft tissue gingival growth was observed which increased progressively.
Provisional diagnosis of chronic irreversible pulpitis with respect to 61 and gingival fibroma was made [Figure 1]a.
|Figure 1: Clinical and radiographic images. (a) Preoperative clinical image (before tooth extraction). (b) Preoperative clinical image (after tooth extraction). (c) Preoperative radiographic image. (d) Postoperative clinical image. (e) Postoperative radiographic image|
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Though pulpectomy was initiated considering poor prognosis of the tooth, extraction was planned eventually [Figure 1]b. Periapical radiograph showed no intrabony involvement [Figure 1]c. The tooth bud of the permanent maxillary central incisor was evident and unaffected.
Following 1 month of postextraction follow-up, the patient presented with a mild decrease in inflammation with insignificant reduction in size of mass initially, which increased in size 1 month later. Excision of the mass was planned with parental consent. After hematological examination, excision of the mass was performed under local anesthesia and sent for histopathological evaluation.
Two days postexcision, excised site was asymptomatic with signs of healing [Figure 1]d. Radiographs showed proper alignment of the permanent tooth bud. As loss of space expected was minimal and parents not consenting, space maintainer was not initiated. The patient was kept under regular follow-up. Nine months postexcision, follow-up reveals no recurrence or symptoms clinically and radiographically [Figure 1]e.
The hematoxylin and eosin-stained section showed surface hyperplastic parakeratinized stratified squamous epithelium with underlying fibrovascular connective tissue stroma [Figure 2]a. The connective tissue stroma showed numerous ameloblastic follicles [Figure 2]a. The follicles were lined by tall columnar ameloblast-like cells at the periphery with apically placed nucleus [Figure 2]b. Stellate reticulum-like cells were also seen adjoining ameloblastic cells at the center of the follicle [Figure 2]b. Abundant eosinophillic calcified areas resembling dentinoid were seen in between the follicles [Figure 2]c and [Figure 2]d. The features were indicative of a peripheral ameloblastic fibrodentinoma (PAFD). The tissue section was tested for cytokeratin 19 (CK19) (319M-1 Sigma-Aldrich ®) [Figure 3]a, following the standard immunohistochemical protocol for confirmation of the odontogenic origin. CK19 was found to be expressed in all the odontogenic epithelial areas [Figure 3]b and especially among those associated with the dysplastic dentinoid matrix [Figure 3]c. The dysplastic dentinoid matrix was not marked by CK19 [Figure 3]d. A final diagnosis of PAFD was returned.
|Figure 2: Composite photomicrographs. (a) Lesion with superficial epithelium and connective tissue stroma with numerous amelobastic follicles (×4 OM*). (b) Follicle showing ameloblast-like cells, stellate reticulum and dentinoid tissue (×10 OM*). (c) Numerous ameloblastic follicles seen with interspersed dentinoid-like material (×10 OM*). (d) Dentinoid secreted by odontoblast (×40 OM*). *Original magnification|
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|Figure 3: Composite photomicrograph of immunohistochemistry with cytokeratin 19. (a) Scanner view. (b) Positivity of cytokeratin 19 in epithelial islands (×10 OM*). (c) Cytokeratin 19-positive follicles (×40 OM*). (d) Dentinoid not marked by cytokeratin 19 (×40 OM*). *Original magnification|
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| Discussion|| |
The WHO lists AFD as a mixed odontogenic tumor and describes it as a neoplasm similar to the ameloblastic fibroma, showing inductive changes leading to the formation of dentine. The occurrence of the latter is indicative of the high rate of differentiation of the lesions.
The present case in discussion had an interesting course. The history of trauma and the displacement of the teeth were most probably the inciting factors. In an area rich with odontogenic tissue (developing tooth follicles), aberrancy in the normal development of tooth structures could be expected as a result of the trauma. Availability of odontogenic tissue in the gingival area for the development of odontogenic lesions is limited. The possibility of odontogenic tissue breach from the central to peripheral of the maxilla can be ruled out due to lack of bony involvement. Unknown causes speeded up by trauma seem to be the likely cause.
The differential diagnoses include peripheral odontogenic fibroma, peripheral ameloblastic fibroma (PAF), PAFD and peripheral ossifying fibroma.
AFD radiographically appears as a well-circumscribed unilocular or rarely multilocular radiolucent defect that contains a variable amount of calcified material with radiodensity of tooth structure. However, in this case, there was no intrabony involvement; hence, differential diagnosis of AFD was ruled out.
Peripheral odontogenic fibroma presenting as a firm, slow-growing and sessile gingival mass covered by normal-appearing mucosa usually occurs on facial gingiva of the mandible causing teeth displacement. Histopathology shows fascicles of cellular fibrous connective tissue interspersed with the areas of less cellular, fibrous, or myxoid connective tissue. However, this lesion does not show odontogenic follicles with dentinoid-like cells similar to the present lesion.
Although PAF has similar histopathological features as of PAFD, there is no enamel or dentin formation.
Some researchers believe that PAFD is only a stage in development of an odontoma while others believe that it is a separate entity exhibiting progressive growth causing bone destruction. Some investigators suggested that ameloblastic fibroma represents immature complex odontoma, and if left undisturbed, it will ultimately differentiate or mature into a lesion known as ameloblastic fibro-odontoma and ultimately continue maturation into completely differentiated odontoma. Eversole et al. proposed that mixed odontogenic tumors are totally dependent upon the presence of differentiation factors.
Peripheral ossifying fibroma can occur at any age although appearing more commonly in children and young adults. Clinically, it represents as well-demarcated focal mass on gingiva, sessile, or pedunculated base having same color as gingiva. Histopathology shows stratified squamous epithelium with bulk made of exceedingly cellular mass of connective tissue comprising large numbers of plump proliferating fibroblasts intermingled throughout a very delicate fibrillar stroma. Several forms of calcifications occur in the form of single or multiple interconnecting trabaculae of bone or osteoid. There may be islands of odontogenic cells but no differentiated ameloblastic tissue.
The present case merits mention because of two interesting features. The peripheral location and the maxillary presentation are relatively rare. A review of literature reveals only five cases hitherto reported until 2015. [Table 1] lists the details of the cases reported.
|Table 1: A literature review of the reported cases of peripheral ameloblastic fibrodentinoma|
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There seems to be no correlating features in the occurrences of these lesions, and there is widespread diversity in the presentations. The ages of occurrence range from 2.5 years to 51 years. There is no sex predilection and lesions seem to occur randomly in both the jaws.
Studies suggest that conservative excision of the tumor with minimal but adequate margins is the treatment of choice. PAFD is rare, with no published study that estimates its recurrence rate after its surgical excision. Hence, conservative surgery with enucleation was performed and patient is kept on regular follow-ups as it appears that the PAFD should be initially treated by conservative surgical therapy.
Declaration of patient consent
The authors certify that they have obtained all appropriate patient consent forms. In the form the patient(s) has/have given his/her/their consent for his/her/their images and other clinical information to be reported in the journal. The patients understand that their names and initials will not be published and due efforts will be made to conceal their identity, but anonymity cannot be guaranteed.
We would like to acknowledge Dr. V. V. Kamath, Prof and Head of Department of Oral Pathology, Dr Syamala Reddy Dental College, Hospital and Research Centre, Bengaluru, India.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
Agarwal P, Kothari N, Girdhar MA. Case report of peripheral – Type ameloblastic fibrodentinoma and a review. Br J Med Med Res 2015;8:891-5.
Umashankara KV, Nagaveni NB, Manjunath S. Ameloblastic fibro-dentinoma: Report of a rare tumor with literature review. J Cranio Max Dis 2012;1:141-4. [Full text]
IARC Working Group. Ameloblastic Fibroma/Fibrodentinoma: IARC Monograph on World Health Organization Classification of Tumours; 2005.
Chen HS, Wang WC, Lin YJ, Chen YK, Lin LM. Gingival ameloblastic fibro-dentinoma – Report of a case in a child. Int J Pediatr Otorhinolaryngol Extra 2006;1:15-8.
Yarlagadda K, Kamath VV, Satelur K. Immunohistochemical expression of keratins 8 and 19 in odontogenic cysts and tumors. J Cranio Max Dis 2015;4:128-36. [Full text]
Rajendran R. Cysts and tumors of odontogenic origin. In: Rajendran R, Sivapathasundharam B, editors. Shafers's Textbook of Oral Pathology. 6th
ed. Noida: Elsevier; 2009. p. 285-91.
McKelvy BD, Cherrick HM. Peripheral ameloblastic fibrodentinoma. J Oral Surg 1976;34:826-9.
Godjesk JE, Dolinsky HB, Schneider LC, Doyle JL. Ameloblastic fibro-dentinoma in the gingiva: Report of a case. J Oral Med 1980;35:59-61.
Minamizato T, Takashi I, Ikeda H, Fujita S, Asahina I. Peripheral-type ameloblastic fibrodentinoma with features of so-called “immature dentinoma”. Oral Surg Oral Med Oral Pathol Oral Radiol 2014;117:e61-4.
Sankireddy S, Kaushik A, Krishna BA, Reddy AL, Vinod VC, Sridevi V, et al.
Ameloblastic fibrodentinoma involving anterior maxilla: A rare case report. J Indian Soc Pedod Prev Dent 2013;31:275-8.
] [Full text]
[Figure 1], [Figure 2], [Figure 3]