Printer Friendly

Histological Evaluation and Management of Rare Case of Supernumerary (Ghost) Teeth.

1. Introduction

Supernumerary teeth may be defined as any teeth or tooth substance in excess of the usual configuration of primary or permanent dental formula [1]. They are less common in the primary dentition than in the permanent one and males are affected approximately twice than females [2]. According to literature, their prevalence in permanent dentition is 1-14% [3]. Supernumerary teeth occur more frequently in the maxilla (90-98%), especially in the premaxillary region. In fact, the most common exceeding tooth is the so-called "mesiodens"--a tooth that could be found between the two central upper incisors. Other common supernumeraries are, in order of frequency, maxillary fourth molars, maxillary premolars, mandibular premolars, maxillary lateral incisors, mandibular fourth molars, and maxillary premolars [4]. Supernumerary teeth are often associated with syndromes such as the Gardner syndrome, the Crouzon's disease, the Fabry-Anderson syndrome, the Ehler-Danlos syndrome, the Hallermann-Streiff syndrome, and facial fissures or cleidocranial dysplasia [3].

At the present time, the mechanism of their development is not very well understood. The occurrence of multiple supernumerary teeth without any associated syndrome is a very rare phenomenon. Most commonly, only one supernumerary tooth is present in a dentition; less frequently there are two supernumeraries, while three or more supernumerary teeth are rare [4, 5]. The presence of supernumerary teeth could lead to crowding, delayed eruption, diastema, rotation, and resorption of the adjacent teeth; therefore early diagnosis and appropriate treatment are essential [6].

Cone beam computed tomography (CBCT) is considered to be a useful method of evaluation of supernumerary teeth because it provides 3D information about their location and shape [7].

The aim of this paper is to present a rare nonsyndromic case of multiple hyperdontia, with the presence of four supernumerary teeth. The peculiarity of this case is that two supernumerary teeth were not visible neither in the orthopantomography (OPT) nor in the CBCT.

2. Case Report

We report a case of a hyperdontia in a 9-year-old male patient who underwent a routine dental check-up. At clinical examination, the oral structures appeared normal but he presented a delay of the maxillary left incisor exfoliation (61 as per FDI tooth numbering system) and a delay of 21 eruption. Patient had no symptoms with the teeth involved. The patient presented a negative anamnestic history in his family for altered dentition. Class III molar occlusion was seen with 11 palatally displaced (Figure 1).

Examination of the OPT (Figure 2) revealed the presence of numerous radiopaque areas in the left incisor region and the consequent difficulty in the eruption of 21 placed over the supernumerary dental group. After acquiring written informed consent, a CBCT was performed and a 3D examination was carried out. The analysis showed a group of 2 supernumerary teeth placed palatally to 61 and 62 with an indefinite shape (Figure 3(a)) and element 21 being displaced apically. Tooth 22 was placed more apically than the contralateral one, palatally and distally in contact with the root of 63 (Figure 3(b)).

A multidisciplinary approach was undertaken, the treatment was decided with an oral surgeon and an orthodontist. The surgical approach involved the extraction of three deciduous teeth 61, 62, and 63 and two supernumerary teeth allowing realignment of 21. A "wait and see" approach was preferred instead of a simultaneous disimpaction of 21 in order to help the natural path of permanent incisor eruption [8-10]. Parents were informed and their consensus was achieved.

As expected two malformed supernumerary elements were found, but the accurate curettage of the bone revealed a third and fourth abortive elements formed apically and distally to the distal supernumerary tooth (Figures 4(a) and 4(b)). They appeared as small dental germ-like formations with an irregular shape and resulting softer than normal teeth upon compression (Figures 4(c) and 4(d)).

Four supernumerary teeth, two visualized in OPT and CBCT (A--blue circle and B--violet circle as reported in Figures 3(a) and 4(d)) and two discovered upon surgical removal (C and D--black circle in Figure 4(d)), were harvested and processed according to a calcified tissue protocol [11]. In brief, after fixation in formalin 10%/0.1 M phosphate buffer saline solution (pH 7.4), the teeth were dehydrated (70%, 90%, 96%, and 100%), infiltrated in different ratios of alcohol/Technovit 7200 VLC resin (Exakt Kulzer, Norderstedt), finally infiltrated, and later embedded in pure resin. One longitudinal cut in the core of each sample was performed in order to obtain two sections per tooth.

All obtained sections were glued with Technovit 7210 VLC resin (Exakt Kulzer, Norderstedt) on plastic slides, ground to a final thickness of 120 [micro]m. C and D teeth were stained with Toluidine Blue and Pyronin Y in order to visualize the soft tissue microstructure. All specimens were observed and microphotographs were acquired under transmitted and polarized microscope Nikon Eclipse 80i (Nikon, Japan), equipped with a digital camera at the magnification of 10x, 20x, 40x, and 60x.

2.1. Histological and Morphological Analysis. Histological examination revealed that the two supernumerary teeth A and B presented an altered architecture and a peculiar shape with the pulp cavity and the radicular portion missing. Ground sections and analysis by polarized light revealed well mineralized tissues, structurally resembling normal enamel and dentine. Morphological analysis suggests that tooth A (indicated in Figures 5(a) and 5(b)) presents a morphology similar to a canine tooth, while tooth B (indicated in Figures 5(c) and 5(d)) resembles a premolar tooth.

In contrast, the other two "ghost" supernumerary teeth (C and D), which were discovered during surgery, could be compared to primordial dental germs and have resulted from an altered odontogenic process (Figures 6(a)-6(d)).

The tooth C showed a structure similar to a developing dental papilla characterized by dental pulp mesenchymal-like tissue (Figures 6(a) and 6(b)). The tissue was rich in blood vessels and the cells were characterized by a small cell body with a large, round nucleus and few long and thin cytoplasmic processes. Furthermore, at one point on the papilla border, indicated with a red arrow (Figure 6(a)), a small area of mineralized tissue similar to dentine was observed.

The tooth D presented an unusual structure and features. It was possible to distinguish a portion characterized by mineralized islands located mainly in peripheral area (Figures 7(a) and 7(b)) and mesenchymal-derived tissue similar to dental pulp core (Figure 7(c)). Figure 7(a) shows one of the irregular dentine fragments, clearly identifiable by the presence of dentinal tubuli. The dentine fragments were present throughout the sample. In addition, the tooth contained numerous calcified granules not histologically structured and similar to primordial nuclei of mineralization. The presence of calcified tissue was further confirmed by the presence of birefringent areas revealed by polarized light.

Next to the granules, in the peripheral area, portions of dense connective tissue surrounded by cuboidal/cylindrical cells similar to preodontoblasts were present. The cells seemed to be in the process of creating typical fence/palisade structure and ready to deposit dentine (Figure 7(b), red arrow).

In the core of tooth D some follicles of dehydration due to histological processing were detected. They were characterized by different size and shape. Furthermore, the core was populated by many cells of mesenchymal origin similar to cells described in relation to tooth C (Figure 6(a)).

3. Discussion

The etiology of supernumerary teeth still remains unclear. Several theories have been proposed to explain their occurrence. The most common are phylogenetic theory; an abnormal reaction to a traumatic local event; environmental factors; the dichotomy of the tooth germ; and the theory of hyperactivity of the dental lamina [12]. The last one seems to be the more accepted [13, 14]. Heredity is considered to be an important factor, especially in the development of multiple supernumerary teeth, which are considered to represent a partial third dentition in humans. Their inheritance however does not seem to follow a Mendelian pattern [2, 12].

Supernumerary teeth may erupt normally or remain impacted and in both cases they can create problems because of their potential to interfere with normal occlusal development. They can cause crowding, delayed eruption of deciduous or permanent teeth, rotation of adjacent teeth, cystic formation, or migration of the unerupted teeth [2, 4, 10]. Based on morphology, supernumerary can be defined as supplemental (eumorphic) or rudimentary (conic shape, tuberculate, molariform, and odontome) [15, 16]. Seventy-five percent of the supernumerary teeth are asymptomatic [5] and are mostly diagnosed as an accidental radiological finding or because the presence of one of the anomalies seen before makes it necessary to get an OPT [12].

Surgical removal of the supernumerary teeth is indicated in case of delayed eruption, displacement of the adjacent tooth, cystic lesion, and resorption of the adjacent tooth, but if the risks of surgery are more than benefits, the teeth may be left in situ and monitored regularly [4].

After supernumerary extraction, while monitoring with OPT (Figure 8), the patient of the present study will undergo a rapid maxillary expansion and then he surely will have to be treated with a fixed appliance.

Today, in addition to traditional OPT, CBCT is considered to be a great help in dental diagnosis about number, position, and morphology, because it allows more detailed information such as 3D reconstruction of teeth and bone with less X-rays than conventional computed tomography [10, 17, 18].

In the reported case, the supernumerary teeth were asymptomatic but caused the retention of 21. This is the reason why the patient was suggested to have an OPT. This first exam revealed the presence of two supernumerary teeth. An additional X-ray exam with a CBCT was requested in order to define how to plan a surgical intervention. Due to superimposing structural components, the correct diagnosis of the location, eruption patterns, and variations of supernumerary teeth is sometimes impossible with OPT and IOPA (intraoral periapical X-rays). The pediatric dental community can benefit from the amount of additional information provided by CBCT [19], though in this case the CBCT did not diagnose the two "ghost" elements.

This exam confirmed the presence of the first two "calcified" supernumerary teeth with rudimentary morphology. It was only during the extraction that the surgeon found another two "ghost" elements, likely remnants of an odontogenic cordon that interrupted proliferative process at different stages resulting in two dental abortive hints. "Ghost" teeth were not be seen in CBCT since they were not calcified enough. In fact element C resembled a dental papilla stopped at early stage while element D presented several granules of mineralized tissue typical of a later stage of proliferation/maturation.

The fragmentation of this eventual odontogenic cordon could lead to constituting other dental abortive elements either new or already formed but not detected. Therefore, this case seems to confirm the theory of hyperactivity of the dental lamina [8] recommending a careful clinical monitoring of the patient.

In fact, chronologically supernumerary teeth can develop simultaneously to permanent teeth or after them (after permanent dentition). Some authors described the formation of late supernumerary teeth [10, 20-23] and suggested clinical and radiographic monitoring in order to assess the formation of further teeth [4].

4. Conclusion

Supernumerary teeth have to be extracted when they could inhibit permanent teeth eruption. Appropriate diagnosis with OPT and CBCT is recommended and an accurate surgical site revision is mandatory. The orthodontic treatment should include the monitoring of the eruption before the disimpaction of the retained permanent tooth. This case report seems to confirm the existence of odontogenic hyperactive lamina in nonsyndromic patients that may alter the normal development or eruption of permanent teeth with eventual skeletal abnormalities during growth. This condition also suggests an accurate monitoring of patients with supernumerary teeth in order to discover any additional supernumerary element, already present at the time of the first examination but subjected to a later calcification, appearing in X-rays only after some time.

Conflicts of Interest

The authors declare that they have no conflicts of interest.


The authors would like to acknowledge Dr. Laura Moneghini for the precious support in the histological description.


[1] M. A. Scheiner and W. J. Sampson, "Supernumerary teeth: a review of the literature and four case reports," Australian Dental Journal, vol. 42, no. 3, pp. 160-165, 1997.

[2] L. D. Rajab and M. A. M. Hamdan, "Supernumerary teeth: review of the literature and a survey of 152 cases," International Journal of Paediatric Dentistry, vol. 12, no. 4, pp. 244-254, 2002.

[3] N. Khambete and R. Kumar, "Genetics and presence of nonsyndromic supernumerary teeth: a mystery case report and review of literature," Contemporary Clinical Dentistry, vol. 3, no. 4, pp. 499-502, 2012.

[4] A. I. Orhan, L. Ozer, and K. Orhan, "Familial occurrence of nonsyndromal multiple supernumerary teeth: a rare condition," Angle Orthodontist, vol. 76, no. 5, pp. 891-897, 2006.

[5] A. Acikgoz, G. Acikgoz, U. Tunga, and F. Otan, "Characteristics and prevalence of non-syndrome multiple supernumerary teeth: a retrospective study," Dentomaxillofacial Radiology, vol. 35, no. 3, pp. 185-190, 2006.

[6] S. M. Shokry and M. S. Alenazy, "Consanguinity-related hyperdontia: an orthopantomographic study," Dental Research Journal, vol. 10, no. 6, pp. 732-736, 2013.

[7] J. Mossaz, D. Kloukos, N. Pandis, V. G. A. Suter, C. Katsaros, and M. M. Bornstein, "Morphologic characteristics, location, and associated complications of maxillary and mandibular supernumerary teeth as evaluated using cone beam computed tomography," European Journal of Orthodontics, vol. 36, no. 6, pp. 708-718, 2014.

[8] E. M. De Lima, C. B. Schmidt, L. L. De Araujo, S. M. Deon Rizzatto, and F. L. Martinelli, "How to predict the timing of eruption of mandibular second premolars," Angle Orthodontist, vol. 82, no. 6, pp. 1067-1070, 2012.

[9] L. Leyland, P. Batra, F. Wong, and R. Llewelyn, "A retrospective evaluation of the eruption of impacted permanent incisors after extraction of supernumerary teeth," Journal of Clinical Pediatric Dentistry, vol. 30, no. 3, pp. 225-232, 2006.

[10] C. Mason, D. C. Rule, and C. Hopper, "Multiple supernumeraries: the importance of clinical and radiographic follow-up," Dentomaxillofacial Radiology, vol. 25, no. 2, pp. 109-113, 1996.

[11] K. Donath and G. Breuner, "A method for the study of undecalcified bones and teeth with attached soft tissues: the Sage-Schliff (sawing and grinding) technique," Journal of Oral Pathology, vol. 11, no. 4, pp. 318-326, 1982.

[12] J. A. Alvira-Gonzalez and C. G. Gay-Escoda, "Non-syndromic multiple supernumerary teeth: meta-analysis," Journal of Oral Pathology and Medicine, vol. 41, no. 5, pp. 361-366, 2012.

[13] R. Solares and M. I. Romero, "Supernumerary premolars: a literature review," Pediatric Dentistry, vol. 26, no. 5, pp. 450-458, 2004.

[14] J. F. Liu, "Characteristics of premaxillary supernumerary teeth: a survey of 112 cases," ASDC Journal of Dentistry for Children, vol. 62, no. 4, pp. 262-265, 1995.

[15] A. Parolia, M. Kundabala, M. Dahal, M. Mohan, and M. S. Thomas, "Management of supernumerary teeth," Journal of Conservative Dentistry, vol. 14, no. 3, pp. 221-224, 2011.

[16] A. H. Brook, J. Jernvall, R. N. Smith, T. E. Hughes, and G. C. Townsend, "The dentition: the outcomes of morphogenesis leading to variations of tooth number, size and shape," Australian Dental Journal, vol. 59, no. 1, pp. 131-142, 2014.

[17] W. de Vos, J. Casselman, and G. R. J. Swennen, "Cone-beam computerized tomography (CBCT) imaging of the oral and maxillofacial region: a systematic review of the literature," International Journal of Oral and Maxillofacial Surgery, vol. 38, no. 6, pp. 609-625, 2009.

[18] D. G. Liu, W. L. Zhang, Z. Y. Zhang, Y. T. Wu, and X. C. Ma, "Three-dimensional evaluations of supernumerary teeth using cone-beam computed tomography for 487 cases," Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology and Endodontics, vol. 103, pp. 403-411, 2007.

[19] B. C. Katheria, C. H. Kau, R. Tate, J.-W. Chen, J. English, and J. Bouquot, "Effectiveness of impacted and supernumerary tooth diagnosis from traditional radiography versus cone beam computed tomography," Pediatric Dentistry, vol. 32, no. 4, pp. 304-309, 2010.

[20] J. Yague-Garcia, L. Berini-Aytes, and C. Gay-Escoda, "Multiple supernumerary teeth not associated with complex syndromes: a retrospective study," Medicina Oral, Patologia Oral y Cirurgia Oral, vol. 14, no. 7, pp. 331-336, 2009.

[21] S. M. Cochrane, J. R. Clark, and N. P. Hunt, "Late developing supernumerary teeth in the mandible," British Journal of Orthodontics, vol. 24, no. 4, pp. 293-296, 1997.

[22] S. Yassaei, M. Goldani Moghadam, and S. M. Tabatabaei, "Late developing supernumerary premolars: reports of two cases," Case Reports in Dentistry, vol. 2013, Article ID 969238, 4 pages, 2013.

[23] R. S. Jamwal, P. Sharma, and R. Sharma, "Late-developing supernumerary mandibular premolar: a case report," World Journal of Orthodontics, vol. 11, no. 4, pp. e94-e98, 2010.

Dino Re, (1) Elena Canciani, (2) Corinne Poli, (3) Laura Buccarella, (3) Marilisa Toma, (2) Andrea Carlo Butti, (3) and Claudia Dellavia (2)

(1) University Department, Istituto Stomatologico Italiano and Department of Biomedical, Surgical and Dental Sciences, Universita degli Studi di Milano, Milan, Italy

(2) Department of Biomedical, Surgical and Dental Sciences, Universita degli Studi di Milano, Milan, Italy

(3) Istituto Stomatologico Italiano, Universita degli Studi di Milano, Milan, Italy

Correspondence should be addressed to Corinne Poli;

Received 22 February 2017; Accepted 10 April 2017; Published 4 May 2017

Academic Editor: Gerardo Gomez-Moreno

Caption: Figure 1: Frontal view of the patient class III occlusion.

Caption: Figure 2: OPT of the patient with supernumerary dental group.

Caption: Figure 3: (a) CBCT of the patient showing 3 deciduous teeth (61 in red circle, 62 in yellow circle, and 63 in green circle) and 2 supernumerary teeth (blue and violet circles). (b) CBCT of the patient showing displacement of permanent teeth 21 and 22.

Caption: Figure 4: (a) Intraoral view after soft tissue elevation. (b) Intrasurgical view after the extraction of deciduous teeth and the exposure of the supernumeraries. (c) The alveolar site free from supernumerary teeth. (d) Deciduous and supernumerary teeth after the extraction. They are indicated with the same colours used in Figure 3(a). Third and fourth supernumeraries can be seen.

Caption: Figure 5: The ground sections of tooth A (a-b) and tooth B (c-d) under light microscope (a, c) and polarized microscope (b, d). The sections are not stained and polarization highlights mineralized tissue. Enamel appears more birefringent than dentine due to its higher level of calcification.

Caption: Figure 6: The ground sections of the two "ghost" teeth C (a-b) and D (c-d) under light microscope (a, c) and polarized microscope (b, d). The sections were stained with Toluidine Blue and Pyronin Y. Polarization highlighted a limited area containing mineralized tissue. The papilla in (b) did not present areas of calcified tissue, thus resulting as not birefringent.

Caption: Figure 7: Details of the "ghost" teeth C and D under light microscope (a-c): (a) mesenchymal-like tissue; (b) dentine fragment; (c) odontoblast-like cells (red arrow) that appear to be in a phase of matrix deposition around calcified granules (yellow arrow). Toluidine Blue and Pyronin Y staining, total magnification 400x.

Caption: Figure 8: OPT of the patient during follow-up (1 year postextraction).
COPYRIGHT 2017 Hindawi Limited
No portion of this article can be reproduced without the express written permission from the copyright holder.
Copyright 2017 Gale, Cengage Learning. All rights reserved.

Article Details
Printer friendly Cite/link Email Feedback
Title Annotation:Case Report
Author:Re, Dino; Canciani, Elena; Poli, Corinne; Buccarella, Laura; Toma, Marilisa; Butti, Andrea Carlo; De
Publication:Case Reports in Dentistry
Date:Jan 1, 2017
Previous Article:Excision of Mucocele Using Diode Laser in Lower Lip.
Next Article:The Diagnosis and Treatment of Multiple Factitious Oral Ulcers in a 6-Year-Old Boy.

Terms of use | Privacy policy | Copyright © 2021 Farlex, Inc. | Feedback | For webmasters