Oral Sciences n3


Braz J Oral Sci. 12(1):23-29

Original Article Braz J Oral Sci.
January | March 2013 - Volume 12, Number 1

Keratocystic odontogenic tumor related to
nevoid basal cell carcinoma syndrome:

clinicopathological study
Luana Eschholz Bomfin1, Ana Paula M. Vivas1, Andre Caroli Rocha2, Maria Isabel W. Achatz3,

Clovis Antonio L. Pinto4, Fabio Abreu Alves5

1 Department of Stomatology, São Paulo University, São Paulo, SP, Brazil
2 Department of Stomatology, A. C. Camargo Hospital, São Paulo, SP, Brazil

3 Department of Oncogenetics, A. C. Camargo Hospital, São Paulo, SP, Brazil
4 Department of Anatomical Pathology, A. C. Camargo Hospital, São Paulo, SP, Brazil

5 Department of Stomatology, University of São Paulo, Department of Stomatology, A. C. Camargo Hospital, São Paulo, SP, Brazil

Correspondence to:
Fábio Abreu Alves

Rua Prof. Antônio Prudente 211, Liberdade,
CEP: 01509-900 - São Paulo, SP, Brasil

Phone: +55 11 21895129
Fax: +55 11 21895133

E-mail: falves@accamargo.org.br

Abstract

Aim: To assess clinicopathological features of patients with keratocystic odontogenic tumor (KCOT)
associated with nevoid basal cell carcinoma syndrome (NBCCS) in a single Brazilian institution.
Methods: After histopathological analyses of KCOT related to NBCCS, the medical charts of 14
patients were assessed. These patients presented a total of 31 primary and 8 recurrent KCOT.
Results: Out of 14 patients, 8 presented a single KCOT, 4 showed synchronous tumors, 1 had
3 metachronous lesions and another patient had 2 synchronous lesions at initial evaluation and
then developed other 3 metachronous lesions. Besides the 31 primary KCOTs, 18 lesions were
located in mandible and 13 in maxilla. Most tumors presented unilocular pattern and association
with a tooth. Conclusions: KCOT is a frequent manifestation of NBCCS and can be its first sign,
mainly in young patients. In contrast to a previously published series, most patients presented a
single lesion.

Keywords:  Gorlin syndrome,keratocyst, keratocystic odontogenic tumor, nevoid basal cell
carcinoma syndrome.

Introduction

Nevoid basal cell carcinoma syndrome (NBCCS) was first described in 1960
by Gorlin and Goltz and was characterized by multiple basal cell carcinomas
(BCC), odontogenic keratocysts (OKC) and bifid ribs1.

A multidisciplinary colloquium was recently organized and its aims were to
better define the physical findings associated with NBCCS. The participants
reviewed the diagnostic criteria of the syndrome and there was no consensus for a
formal recommendation. Consequently, a suspected diagnosis of NBCCS should
be considered based on the findings of less stringent criteria of: (1) one major
criterion and molecular confirmation; (2) two major criteria; or (3) one major and

Received for publication: January 14, 2013
Accepted: March 05, 2013



Braz J Oral Sci. 12(1):23-29

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two minor criteria. In addition, medulloblastoma (MB) should
be considered a major criterion as it may lead to increased
early detection of the syndrome. Both major and minor criteria
according to this colloquium are shown in Table 12.

Basal Cell Carcinoma (BCC) and OKC are the most
common incident manifestations of the syndrome3. In 2004,
Agaram et al. showed significant loss of heterozygosity of
tumor suppressor genes in sporadic lesions4. Consequently,
these authors hypothesized the neoplastic nature of the lesion
and the World Health Organization later recommended
changing the name of the lesion from OKC to keratocystic
odontogenic tumor (KCOT).

There are few reported cases of KCOT associated
with NBCCS from Brazil and most data feature biological
behavior. In addition, we have found only 13 well-
documented patients have been found in English language
literature with such association in the Brazilian population
in the last 20 years5-10. The purpose of this paper is to describe
clinical and histopathological aspects of KCOTs associated
with NBCCS and report other manifestations associated with
the syndrome. Furthermore, this study shows the largest
clinical data about KCOT associated with NBCCS ever
compiled in the Brazilian population.

Material and methods

Characterization of the Study
This study consisted of a retrospective analysis of

patients with KCOT diagnosed between 1970 and 2009. A
total of 74 patients presented KOCT, 14 being related to
NBCCS. Clinical criteria for NBCCS diagnosis were based
on Bree et al.2 The present study was approved by the Ethics
Committee of AC Camargo Hospital (number 1322/2009).

Clinical data
The medical charts of 14 patients presenting KCOT

related to NBCCS were evaluated. These patients presented
a total of 31 primary and 8 recurrent KCOT. Data including

Major criteria

1. Basal cell carcinomas (BCC) prior to 20years old or excessive numbers of BCC out of proportion to prior sun exposure and skin type

2. Odontogenic Keratocystic of the jaw prior to 20 years of age

3. Palmar or plantar pitting

4. Lamellar calcification of the falx cerebri

5. Medulloblastoma, typically desmoplastic

6. First degree relative with NBCCS

Minor Criteria

1. Rib anomalies

2. Macrocephaly determined after adjustment for height

3. Other specific skeletal malformations and radiologic changes (i.e., vertebral anomalies, kyphoscoliosis, short fourth metacarpals, postaxial polydactyly).

4. Cleft/lip palate

5. Ovarian/cardiac fibroma

6. Lymphomesenteric cysts

7. Ocular abnormalities (i.e., strabismus, hipertelorisms, congenital cataracts, glaucoma, coloboma)

Table 1. Major and minor criteria stated by First International Colloquium on NBCCS Bree et al2.

age, gender, race, signs, symptoms, radiographic features,
treatment and recurrence were analyzed.

Histopathological analysis
The hematoxylin/eosin (HE)-stained slides of KCOTs

were retrieved and submitted to histopathological exam. All
slides were reviewed by an oral pathologist and findings
were confirmed by a second general pathologist (Pinto CAL).

Statistical analysis
Frequency distribution tables were built in order to

record patient clinical data, tumors and histopathological
features. The recurrence rate was calculated by Kaplan-Meier
estimator. All data analysis was performed using R version
2.13.0 software (http://www.r-project.org)

Results

Clinical features of 14 patients
Six (42.86%) patients with KCOT were referred by the

Cutaneous Oncology Department due to previous diagnosis
of NBCCS and the remaining 8 (57.14%) had KCOT as first
manifestation of the syndrome.

The patient’s age at KCOT diagnosis ranged from 8 to 66
years (mean age of 31 years), and most of the lesions occurred in
the second decade of life. Nine out of 14 patients (64.29%) were
female and 12 patients (85.71%) were Caucasian (Table 2).

Among the 14 patients, 8 patients presented a single
KCOT, 4 presented KCOT synchronous tumors (total of 15
lesions), 1 had 3 KCOT metachronous lesions and 1 patient
had 2 synchronous lesions at the initial evaluation and
developed other 3 metachronous lesions during the follow-
up period (Table 2).

In addition to KCOTs, the most common clinical
manifestations were basal cell carcinoma (CBC), palmar pits,
abnormal ribs and vertebrae, and calcification of the falx
cerebri (Figure 1). The NBCCS clinical manifestations are
listed in Table 3.

Keratocystic odontogenic tumor related to nevoid basal cell carcinoma syndrome: clinicopathological study



2525252525

Variable Category n %

Age 0-9 17.14

10-19 5 35.71

20-29 2 14.29

30-39 4 28.57

40-69 2 14.28

Gender Female 9 64.29

Male 5 35.71

Race Caucasian 12 85.71

Not Caucasian 2 14.29

Main complaint Swelling 5 35.71

None 9 64.29

Extra-oral examination None 10 71.43

Facial asymmetry 3 21.43

Fistula 1 7.14

Intra-oral examination Lump 6 42.86

Fistula 1 7.14

None 7 50.00

Number of KCOT 1 8 57.14

3 3 21.43

4 1 7.14

5 2 14.29

Patient’s status Alive without disease 12 85.71

Alive with disease 1 7.14

Out of follow-up 1 7.14

Total 14 100

Table 2. Clinical features of 14 patients with NBCCS.

Braz J Oral Sci. 12(1):23-29

Fig. 1: Some of clinical manifestations of NBCCS. A. Multiple palmar pits (patient 13). B. Basal cell carcinoma located in fluff region (patient 13). C. One KCOT located
in ramus and posterior mandible and with multilocular pattern (patient 4). D. Presence of four synchronous KCOT with unilocular pattern involving 3rd impacted molar
(patient 11). E. Chest radiograph demonstrating bifid ribs (patient 12). F. Antero-posterior skull radiograph showing calcification of the falx cerebri (patient 2).

Clinicopathological features of 31 primary KCOT in
14 patients

At initial evaluation, 5 (35.71%) patients complained
of swelling and 9 (64.29%) had no symptoms. The time of
complaint ranged between 15 days and 6 months (mean=2
months). On extra-oral examination, 3 patients (21.43%)
presented facial asymmetry, 1 patient extra-oral fistula
(7.14%) and no alterations were observed in 10 patients
(71.43%). On intra-oral examination, 6 patients (42.86%)
presented lumps, 1 patient (7.14%) a fistula and 7 patients
(42.86%) presented no alterations.

Radiographic analysis of 31 primary KCOTs demonstrated
that 18 (58.06%) lesions were located in the mandible and 13
(41.94%) in the maxilla. Most of the tumors presented a
unilocular pattern and had tooth association (Figure 1). The
size of the lesions ranged from 2.5 to 10 cm (mean = 6.14 cm).
According to KCOT treatment, enucleation associated with
curettage was performed in 30 cases (96.78%) and the other
case was treated by marsupialization and curettage (Table 4).

Out of the 31 KCOTs, 6 presented a single recurrence
and one tumor recurred twice. The time between the treatment
and the recurrence ranged between 9 to 149 months
(median=66.25 months) (Table 4).

Histopathological data of 31 primary and 8 recurrent
KCOTs

Typical KCOT epithelium was found in 26 (66.66%)

Keratocystic odontogenic tumor related to nevoid basal cell carcinoma syndrome: clinicopathological study



Braz J Oral Sci. 12(1):23-29

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Patient pKCOT rKCOT
Majo r Criteria Mino r Criteria

Other clin ical manifestations
KCOT CF PP BC MB FD MC HY PC CL FB AR

1 L mand
R mand*
Ant maxilla

R maxilla*
L maxilla

2
1
-

1
-

+ + - - - - + - - - - + Epidermoid cyst, endometrial duplications, mitral valve prolapsed, nevi,
scoliosis

2 R mand - + + + - - - + + + + + - Broad nasal base, epidermoid cyst, hypocromic lesions in the conjunctiva,
multiple nevi, nail clubbing

3 L+R mand*

R maxilla*
L maxilla*

-

-
-

+ - - - - + - - - - - - -

4 R mand 1 + - - + - - - - - - - - Bilateral kidney stones, breasts cysts, epidermoid cyst, hypercalciuria,
lipoma, nevi, ovarian myoma, scoliosis

5 L mand - + + - + - - - - - - - - -

6 R maxilla - + - - + - - - - - - - - Ductal carcinoma of breast, multiple nevi

7 R mand 1 + - - + - - - - - - - - Marginal osteophytes, nevi, ovarian myoma, scoliosis

8 R mand
L mand
R maxilla

1
-
-

+ - - + - - - + - - + + Breast cysts, cholecystitis, epidermoid cyst, ovarian myoma and pelvis
cysts.

9 R maxilla 1 + + + + - - - - - - - - Multiple nevi, ovarian myoma

10 R mand - + + + + - - - - - - + - Broad nasal base, nevi and prognathism.

11 R mand*
L mand*
R maxilla*
L maxilla*

-
-
-
-

+ - - + - + - - - - - - Mitral valve prolapsed, multiple nevi.

12 R mand - + - + - - - + - - - + + Facial milia, scoliosis

13 R maxilla*
L maxilla*
L mand*
R mand*

Ant mand*

-
-
-
-

-

+ - + + - - + - - + + - Broad nasal base, high-arched palate, prognathism and sebaceous cyst.

14 R mand*
L mand*
R maxilla*

-
-
-

+ + - - + - - - - - - + Hypothyroidism, liver adenoma, multiple nevi, renal cyst and thyroid goiter.

Total 31 8 14 6 5 9 3 2 4 2 1 2 5 1 46

Table 3. Clinical features of the 14 patients with NBCCS distributed according to main major and minor NBCCS criteria2.

pKCOT=primary keratocystic odontogenic tumor, rKCOT=recurrent keratocystic odontogenic tumor, CF=Calcification of the falx cerebri, PP=Palmar pits, BC=Basal cell
carcinoma, MB=Meduloblastoma, FD=First degree relative with NBCCS, MC=Macrocephaly, SC=Scoliosis, HY=Hypertelorism, PC=Pectus cavitatum, CL=Clinodactilia,
FB=Frontal bossing, AR=Abnormal ribs, L=left, R=right, mand=mandible, * synchronous KCOT, +presence, - absence.

tumors and 13 lesions had typical areas of KCOT and areas
of epithelial hyperplasia. Furthermore, detachment of the
epithelium was seen in 27 (69.23%) cases. Interestingly, only
one case presented evident epithelium dysplasia.

Variable Category n %

Location Mandible Posterior 7 22.58

Posterior + ramus 6 19.35

Ramus 3 9.68

Anterior 2 6.45

Total 18 58.06

Maxilla Posterior 12 38.71

Anterior 1 3.23

Total 13 41.94

Radiographic pattern Multilocular 6 19.35

Unilocular 15 48.39

Not informed 10 32.26

Tooth association Yes 13 54.17

N o 11 45.83

Not informed 7 22.58

Treatment

Enucleation 30 96.78

and curettage

Marsupialization and 1 3.23

curettage

Recurrence N o 24 77.42

Yes 7 22.58

Table 4. Clinical and radiographic features of the 31
primary KCOT.

In relation to the connective tissue, 21 cases (53.84%)
demonstrated mild inflammation in 11 tumors (28.20%),
moderate in 5 (12.82%), and severe in 5 cases (12.82%). Satellite
cysts, remnants of odontogenic epithelium, budding and
dystrophic calcification were found in 11 (28.20%), 14 (35.89%),
9 (23.07%), 6 cases (15.38%), respectively (Figure 2).

Discussion

BCCs and KCOT are the main features observed in
patients with NBCCS3. Similarly, Kimonis et al. evaluated
clinical and radiological data of 105 persons with NBCCS.
Pits, BCCs, jaw cysts and falx calcification were the most
common anomalies, and according to their results the authors
suggested some major and minor criteria for NBCCS
diagnosis 11. Comparing these criteria with the First
International Colloquium on NBCCS criteria2, there were two
important alterations. The latter suggested changing rib
anomalies to minor criterion and MB to major criterion.
Interestingly, Amlashi et al. evaluated 76 patients with MBs
and three of them had syndromic MBs. Additionally, the
authors reviewed the literature and found other 33 patients
with syndromic MBs. The mean age of syndromic MBs was
4 years (earlier than sporadic MBs) and most syndromic
patients were younger than 2 years12. Only one of these patients
developed MB at 3 years. At 17 years he presented 3
synchronous KCOTs, and at 18 years calcification of the
falx cerebri. It is worthy of note that calcification of the falx
cerebri had been previously investigated in this patient.

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Braz J Oral Sci. 12(1):23-29

Fig. 2: A. Typical epithelium lining of a KCOT (H.E., 10.3X). B. Daughter cyst observed in cystic capsule (H.E., 4.8X). C. Budding of the basal cell layer of the lining
epithelium (H.E., 9.8X). D. Remnants of odontogenic epithelium in the cystic wall (H.E., 9.3X).

Kimonis et al. evaluated the falx cerebri calcification in 82
individuals with NBCCS11. This calcification was present in
23 out of 29 (79%) individuals over the age of 40, 20 out of
26 (77%) individuals between the ages of 20 and 40 and 10
out of 27 (37%) individuals under the age of 20.

In the stomatological system, besides KCOT, other benign
and malignant tumors have been described in NBCCS patients
such as ameloblastoma, myxoma, fibrosarcoma, squamous cell
carcinoma, adenoid cystic carcinoma and lymphoma.
Furthermore, development defects such as cleft lip/palate,
dental ectopy/heterotopy, impacted teeth, dental agenesis,
malocclusion, mandibular prognathism, high-arched palate,
skeletal open bite and hyperplasia of mandibular coronoid
process have also been reported10,13-17. Interestingly, Ponti et
al.18 evaluated 41 ameloblastomas and two of them were related
to NBCCS. In addition, PTCH 1 germline mutations were also
detected in both cases and negative in the others. The authors
suggested including ameloblastoma as a criterion for syndrome
identification. The present series reveals that only one patient
presented high-arched palate associated with prognatism.

In the present study, 74 patients with KCOT were
reviewed and 14 (19.17%) of them also presented NBCCS.
KCOT was the first sign of the syndrome in 8 (57.14%)
patients. In a similar study, Lo Muzio et al.19 evaluated 37
individuals with NBCCS, and 34 of them had KCOT (92%).
In approximately 70% of these patients, the first manifestation
of the syndrome was KCOT. In general, most of the patients
with NBCCS are females and KCOT occurs in the second

decade of life with a mean age ranging from 17 to 26 years19-
21. In the present series, 9 out of 14 patients were females
and there were two peaks of age, in the second and fourth
decades. As a consequence, the mean age was 31 years,
differing from the above-mentioned studies.

In the largest series in English literature, Woolgar et al.
evaluated 164 KCOTs in syndromic patients and 379 KCOTs
not associated with NBCCS20. It was observed that the
posterior area of the mandible was the main affected site,
followed by the maxillary molar region in both groups. Since
the syndromic patients almost always have more than one
tumor, it is to be expected that more maxillary tumors are
present in these patients. Such data were also demonstrated
in the present study, in which multiple lesions were found
in 6 patients and accounted for 23 tumors (12 in the mandible
and 11 in the maxilla). Interestingly, 8 patients presented a
single lesion, 6 affecting the mandible and 2 the maxilla. In
general, the mandible was the main location of the lesions
(18 cases - 58.06%), 13 being in the body/ramus and 5 in the
anterior area. In addition, there were 12 cases (38.71%) in the
posterior and 1 case in the anterior region of the maxilla.

Other studies have also shown multiple lesions affecting
syndromic patients. Kimonis et al. reported that 78 (74%)
NBCCS patients presented KCOT with number of tumors
ranging from 1 to 2811. However, the authors did not clarify
which tumors were primary or recurrent. Furthermore, it was
also shown that 5 individuals had more than 10 KCOTs in
their lifetime. Ahn et al. reviewed 33 well-documented case

Keratocystic odontogenic tumor related to nevoid basal cell carcinoma syndrome: clinicopathological study



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Braz J Oral Sci. 12(1):23-29

reports of NBCCS published between 1981 and 2002. Out of
the total, 30 patients (90.9%) had KCOT and the number of
lesions per patient ranged from 1 to 6 (mean 2.7 lesions)21. In
a recent NBCCS case series reported in Indian patients, all 6
patients developed multiple KCOT (range 3 to 6) 22.
Differently, most of the patients in this study (8 out of 14)
had a single KCOT, and the other 6 patients presented 23
tumors (range 3 to 5). The above-mentioned research
involving Brazilian patients with KCOT related to NBCCS
reports only 13 patients, and there was no information on 3
patients, 3 had a single lesion, 4 had 2 lesions, 2 had 3
lesions and one patient had 5 lesions5-10.

Regarding the treatment of KCOT, Zecha et al.
demonstrated that 58 patients who did not have an NBCCS
diagnosis and were treated with enucleation alone had
recurrence in 20.7% of the cases23. A lower rate was described
by Boffano et al. accounting for 11.9% of 261 tumors treated
by enucleation and curettage24. In this study, the association
of enucleation and curettage was performed in 30 (96.78%)
cases (13 patients). Recurrence was observed in 7 tumors
(22.58%), which corresponded to 5 patients. One other patient
was at first treated by marsupialization and after 10 months
by curettage. This patient has been asymptomatic for 5 years.
Recurrences usually manifest within the first 5 to 7 years.
However, Zhao et al. demonstrated recurrence after 13 years
of follow-up25. Similarly, our study demonstrated 2 patients
who had recurrence after 10 years.

In summary, KCOT related to NBCCS can affect patients
at a younger age than sporadic KCOT and multiple tumors
are commonly found. Interestingly, in this series, 8 out of 14
patients (57%) had a single lesion. Early diagnosis of the
syndrome and a long follow-up period is important due to
the severity of clinical manifestations. Moreover, a
multidisciplinary team is required, including dentists,
dermatologists, geneticists and neurologists to improve the
diagnosis and quality of life.

Acknowledgments

We wish to thank Ana Laura Miziara for text revision.

Funding

This study was supported by São Paulo State Research
Foundation (FAPESP).

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Keratocystic odontogenic tumor related to nevoid basal cell carcinoma syndrome: clinicopathological study