ABSTRACT
Resumen El queratoquiste odontogénico es una entidad potencialmente agresiva y de alta recurrencia, con características clínicas y radiográficas no definidas claramente. Se presenta en cualquier etapa de la vida. El 70 a 80% se ubican en la mandíbula, comúnmente en la región de tercer molar y ángulo mandibular desde donde progresan hacia la rama y cuerpo. Son lesiones en general asintomáticas que pueden alcanzar dimensiones notables. A menudo se encuentran en el examen radiográfico de rutina. El objetivo del presente artículo es reportar el caso de una mujer de 40 años de edad, con un queratoquiste odontogénico paraqueratinizado, evaluando sus características clínicas, radiográficas e histopatológicas que llevaron a un manejo y tratamiento conservador oportuno y adecuado con resultados satisfactorios. Concluyendo que la minuciosa elaboración de la historia clínica basado en hallazgos clínicos, radiográficos e histopatológicos conduce a un diagnóstico correcto, que permite la elaboración de un plan de tratamiento adecuado.
Resumo O Queratocisto odontogênico potencialmente agressivo e de alta recorrência, com características clínicas e radiográficas não claramente definidas. Ocorre em qualquer estágio da vida. 70 a 80% estão localizados na mandíbula, geralmente na região do terceiro molar e no ângulo mandibular de onde progridem para o ramo e o corpo. São lesões geralmente assintomáticas que podem atingir dimensões notáveis. Eles são freqüentemente encontrados no exame radiográfico de rotina. O objetivo deste artigo é relatar o caso de uma mulher de 40 anos com um queratocisto odontogênico paraqueratinizado, avaliando suas características clínicas, radiográficas e histopatológicas que conducem ao manejo e tratamento conservador oportuno e adequado, com resultados satisfatórios. Concluindo que o cuidadoso preparo da história médica com base em achados clínicos, radiográficos e histopatológicos leva a um diagnóstico correto, o que permite o desenvolvimento de um plano de tratamento adequado.
Abstract Odontogenic keratocysts are potentially aggressive and have high recurrence rates. Their clinical and radiographic features are not clearly defined. They can occur at any stage of life. Seventy to 80% are located in the mandible, commonly in the area between the third molar and the mandibular angle, from where they grow towards the ramus and body. They are generally asymptomatic lesions that can grow considerably. They are often found on routine radiographs. This paper reports the case of a 40-year-old woman with a parakeratinized odontogenic keratocyst. After assessing the cyst's clinical, radiographic and histopathological features, we managed and treated the condition timely, conservatively, and with satisfactory results. We concluded that preparing the patient's dental history carefully and based on clinical, radiographic, and histopathological findings allowed us to make the correct diagnosis and develop the necessary treatment plan.
ABSTRACT
@#A 37-year-old woman consulted for a slow-growing mass of one-year duration on the left side of the mandible with associated tooth mobility. Clinical examination showed buccal expansion along the left hemi-mandible from the mid-body to the molar-ramus region with associated mobility and displacement of the pre-molar and molar teeth. Radiographs showed a well-defined unilocular radiolucency with root resorption of the overlying teeth. Decompression and unroofing of the cystic lesion was performed. Received in the surgical pathology laboratory were several gray-white rubbery to focally gritty tissue fragments with an aggregate diameter of 1 cm. Histopathologic examination shows a fibrocollagenous cyst wall lined by a fairly thin and flat stratified squamous epithelium without rete ridges. (Figure 1) The epithelium is parakeratinized with a wavy, corrugated surface while the basal layer is cuboidal and quite distinct with hyperchromatic nuclei. (Figure 2) Based on these features, we signed the case out as odontogenic keratocyst (OKC). Odontogenic keratocysts are the third most common cysts of the gnathic bones, comprising up to 11% of all odontogenic cysts, and most frequently occurring in the second to third decades of life.1,2 The vast majority of cases occur in the mandible particularly in the posterior segments of the body and the ramus. They typically present as fairly large unilocular radiolucencies with displacement of adjacent or overlying teeth.1 If associated with an impacted tooth the radiograph may mimic that of a dentigerous cyst.2 Microscopically, the parakeratinized epithelium without rete ridges, and with a corrugated luminal surface and a prominent cuboidal basal layer are distinctive features that enable recognition and diagnosis.1,2,3 Occasionally, smaller “satellite” or “daughter” cysts may be seen within the underlying supporting stroma, sometimes budding off from the basal layer. Most are unilocular although multilocular examples are encountered occasionally.1 Secondary inflammation may render these diagnostic features unrecognizable and non-specific.2 Morphologic differential diagnoses include other odontogenic cysts and unicystic ameloblastoma. The corrugated and parakeratinized epithelial surface is sufficiently consistent to allow recognition of an OKC over other odontogenic cysts, while the absence of a stellate reticulum and reverse nuclear polarization will not favor the latter diagnosis.2,3 Odontogenic keratocysts are developmental in origin arising from remnants of the dental lamina. Mutations in the PTCH1 gene have been identified in cases associated with the naevoid basal cell carcinoma syndrome as well as in non-syndromic or sporadic cases.1,3 These genetic alterations were once the basis for proposing a neoplastic nature for OKCs and thus the nomenclature “keratocystic odontogenic tumor” was for a time adopted as the preferred name for the lesion.3,4 Presently, it is felt there is not yet enough evidence to support a neoplastic origin and hence the latest WHO classification reverts back to OKC as the appropriate term.1 Sekhar et al. gives a good review of the evolution of the nomenclature for this lesion.3 Treatments range from conservative enucleation to surgical resection via peripheral osteotomy.5 Reported recurrences vary in the literature ranging from less than 2% of resected cases up to 28% for conservatively managed cases.1,5 These are either ascribed to incomplete removal or to the previously mentioned satellite cysts - the latter being a feature associated with OKCs that are in the setting of the naevoid basal cell carcinoma syndrome.1,2,3 Thus, long term follow-up is recommended.5 Malignant transformation, though reported, is distinctly rare.
Subject(s)
Odontogenic Cysts , Odontogenic Tumors , Basal Cell Nevus SyndromeABSTRACT
Introduction: Collagen forms an integral part of connective tissue and maintains its structural integrity. It has natural birefringence which is attributed to the arrangement of its fibers and is enhanced by special stains such as picrosirius red through polarizing microscopy. The polarization colors differ according to the fiber thickness and pattern of arrangement which in turn related to aggressiveness. Hence, the present study was conducted to evaluate collagen fibers in keratocystic odontogenic tumor (KCOT) and ameloblastoma using polarizing microscopy. Aim: This study aims to compare and correlate different types and patterns of collagen fibers in KCOT and ameloblastoma using picrosirius red stain under polarizing microscopy to delineate their aggressiveness. Materials and Methods: The color, thickness, and orientation of collagen fibers in the KCOTs (n = 15) and ameloblastomas (n = 15) were studied histochemically by staining the sections with picrosirius red and examined under polarizing microscope using image analyzer software. Results: When collagen fiber bundles in KCOT and ameloblastoma were compared, significant difference was noted between yellowish-orange collagen fiber bundles, but no significant difference was observed between greenish-yellow and orange-red collagen bundles. With respect to orientation and organization, the results are statistically significant (P < 0.05). Conclusion: The connective tissue stroma of KCOT could be regarded not just as a structural support but as a functional part of the lesion. In KCOT, the thin, parallel, and loosely arranged greenish-yellow collagen fibers may be attributed to its high recurrence rate and biological aggressiveness.
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Both Ameloblastomas and odontogenic keratocysts share many clinical features in common such as local aggressiveness, high recurrence rates and radical management options. Understanding the pathogenesis and biological behavior of these would improve our success at diagnosis and treatment. Despite efforts focused on understanding the pathogenesis of these lesions still little is known about them. AIM: To evaluate the expression of IL-1α and IL-6 by immunohistochemistry in ameloblastomas and KCOTs and correlate their expression with with their increase in size and extent of bone destruction. Methods: A total of 25 cases of ameloblastomas and 25 cases of keratocystic odontogenic tumors were included in the study. All histological slides were stained immunohistochemically to show the expression of IL-1α and IL-6. Results: Immunohistochemical expressions of IL-1α and IL-6 in ameloblastoma was observed in only stellate reticulum-like cells While in KCOT the immonohistochemical expression of both the antibodies in comparision to ameloblastoma was observed only in the lining epithelial cells. The higher expression rates of IL-1α and IL-6 were associated with increases in tumor size in ameloblastomas and connective tissue cyst wall thickness in keratocystic odontogenic tumors. Conclusion: The higher expression rates of IL-1α and IL-6 were associated with increased tumor size in ameloblastomas and with connective tissue cyst wall thickness in KCOT. Thus we can suggest that the cytokines play a role on aggressive behaviour of ameloblastomas and keratocystic odontogenic tumors by facilitating increased bone resorption.
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OBJECTIVES: This study was aimed to analyze the reducing pattern of decompression on mandibular odontogenic keratocyst and to determine the proper time for secondary enucleation. MATERIALS AND METHODS: Seventeen patients with OKC of the mandible were treated by decompression. Forty-five series of CT data were taken during decompression and measured by using InVivo software (Anatomage, San Jose, Calif) and were analyzed. RESULTS: The expected relative volume during decompression is calculated using the following formula: V(t) = V initial × exp.(at + 1/2bt 2) (t = duration after decompression (day)). There was no significant directional indicator in the rate of reduction between buccolingual and mesiodistal widths. CONCLUSION: The volume reduction rate gradually decreased, and 270 days were required for 50% volume reduction following decompression of OKC. The surgeon should be aware of this pattern to determine the timing for definitive enucleation. CLINICAL RELEVANCE: The volume reduction rate and pattern of decompression of the OKC can be predicted and clinicians should be considered when treating OKC via decompression.
Subject(s)
Humans , Decompression , Mandible , Odontogenic CystsABSTRACT
OBJECTIVES: A keratocystic odontogenic tumor (KOT) is a type of odontogenic tumor that mainly occurs in the posterior mandible. Most KOTs appear as solitary lesions; however, they sometimes occur as multiple cysts. This study analyzed the clinical features of multiple KOTs. MATERIALS AND METHODS: The participants were diagnosed with KOT by biopsy with multiple surgical sites, and were patients at the Pusan National University Hospital and the Pusan National University Dental Hospital from January 1, 2005 to March 31, 2016. Charts, records, images and other findings were reviewed. RESULTS: A total of 31 operations were conducted in 17 patients. The mean patient age was 28.4±20.1 years. Multiple KOTs were found to occur at a young age (P<0.01). The predominant sites were in the posterior mandible (28.6%). Most cases of multiple lesions appeared in both the upper and lower jaw, and 40.3% of lesions were associated with unerupted and impacted teeth. The overall recurrence rate measured by operation site was 10.4% (8/77 sites). No patients were associated with nevoid basal cell carcinoma syndrome. CONCLUSION: The pure recurrence rate was lower than estimated, but there was a higher possibility of secondary lesions regardless of the previous operation site; therefore, long-term follow-up is necessary.
Subject(s)
Humans , Basal Cell Nevus Syndrome , Biopsy , Clinical Study , Follow-Up Studies , Jaw , Mandible , Odontogenic Cysts , Odontogenic Tumors , Recurrence , Retrospective Studies , Tooth, ImpactedABSTRACT
El tumor odontogénico queratoquístico, es una patología que se encuentra asociada a la retención de un órgano dentario, en especial al tercer molar, es reconocido por su potencial destructivo y extenso, erosionando placas corticales que envuelven mucosa y tejidos blandos, la etiología del tumor odontogénico queratoquístico está probablemente relacionada con el desarrollo de la lámina dental (o restos de Serres) y con una mayor recidiva dentro de los tumores odontogénicos, siendo motivo de su reclasificación en el 2005 por la OMS. Se presenta casoclínico de un tumor odontogénico queratoquístico en el seno maxilarderecho, se exponen los métodos utilizados para la exploración clínica,radiológica y el tratamiento quirúrgico elegido.
The keratocystic odontogenic tumor is a condition associated withtooth retention, particularly of the third molar. It is recognized as beingpotentially highly destructive, by eroding cortical plates overlying theoral mucosa and soft tissues. The etiology of keratocystic odontogenictumor is probably related to the development of the dental lamina (orremains of Serres) and the recurrence rate is high compared to that ofother odontogenic tumors, the reason for their reclassifi cation by theWHO in 2005. We present a clinical case of a keratocystic odontogenictumor in the right maxillary sinus, including an explanation of themethods used for clinical and radiological examination, and the chosensurgical treatment.
Subject(s)
Humans , Male , Young Adult , Odontogenic Cysts/surgery , Odontogenic Cysts/classification , Odontogenic Cysts/diagnostic imaging , Maxillary Sinus/pathology , Decompression, Surgical/methods , Mexico , Oral Surgical Procedures/methods , RecurrenceABSTRACT
The keratocystic odontogenic tumor (KCOT), formerly known as odontogenic keratocyst, is a benign developmental odontogenic tumor with many distinguishing clinical and histologic features. Hard tissue deposits, which usually take the form of dystrophic calcifications, cartilaginous tissue, or dentinoid, are uncommon findings in the connective tissue capsule of the KCOT. We report a case of a 33‑year‑old female with KCOT showing osseous tissue and calcified deposits close to its epithelial lining, which is an extremely rare occurrence. A brief review on the reported prevalence of hard tissue deposits in KCOTs and possible mechanisms that has been implicated in mineralization and bone formation has been discussed.
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Primary intraosseous carcinoma (PIOC) that arises from the epithelial lining of odontogenic cyst is a rare entity that represents about 1-2% of all oral and maxillofacial carcinoma. In particular, PIOC arising from keratocystic odontogenic tumor (KCOT) is rare when compared with such occurrence in other odontogenic cysts such as radicular cyst, residual cyst, and dentigerous cyst. Th e following case report discusses a case of squamous cell carcinoma arising from parakeratinized KCOT associated with impacted mandibular canine in a 43-year-old male patient with a complaint of painful swelling in the mandible. A review of reported cases from 1981 of PIOC arising from KCOT alone is also included.
ABSTRACT
Keratocystic odontogenic tumor (KCOT) is a common benign tumor of osseous lesions in dental and maxillofacial practice. We describe three cases of large KCOT located in the posterior part of the mandible extending to the angle and ramus region, which were enucleated via sagittal split osteotomy (SSO) of the mandible. There are cases in which a conventional enucleation procedure does not ensure complete excision of the entire lesion without damage to vital structures like the inferior alveolar nerve. In such cases, a SSO approach could be a better choice than conventional methods. The purpose of this article is to describe our experience using unilateral mandibular SSO for removal of a KCOT from the mandible.
Subject(s)
Mandible , Mandibular Nerve , Odontogenic Cysts , Odontogenic Tumors , Osteotomy , Osteotomy, Sagittal Split RamusABSTRACT
The keratocystic odontogenic tumor is a benign intraosseous neoplasm derived from remnants of the dental lamina and it occurs with high frequency. Regarding histological characteristics, it has a high recurrence rate which is one of the main therapeutic problems. Also, it presents high local aggressiveness, expressed in cortical expansion, delayed eruption and displacement of teeth, blood vessels and nerves. At present, there are various treatments, being ideal the one which presents the lowest risk of recurrence with low morbidity for the patient. In this review, the main histopathological, clinical and therapeutic aspects of this oral pathology are discussed.
El tumor odontogénico queratoquístico es una neoplasia intraósea benigna que deriva de restos de la lámina dental, y que se presenta con alta frecuencia. Sus características histológicas le confieren una elevada tasa de recidiva, siendo este uno de sus principales problemas terapéuticos. Presenta además una considerable agresividad local, la cual se expresa con la expansión de corticales óseas, retardo en la erupción y desplazamiento de dientes, vasos sanguíneos y nervios. En la actualidad existen diversos tratamientos, siendo el ideal aquel que presente el menor riesgo de recidiva con una baja morbilidad para el paciente. En la presente revisión se discuten los principales aspectos histopatológicos, clínicos y terapéuticos de esta patología oral.
Subject(s)
Humans , Odontogenic Cysts/diagnosis , Odontogenic Cysts/pathology , Odontogenic Tumors/diagnosis , Odontogenic Tumors/pathology , Decompression, Surgical , Diagnosis, Differential , Odontogenic Cysts/surgery , Odontogenic Tumors/surgeryABSTRACT
Summary: Odontogenic keratocysts (OKC) now officially known as Keratocystic odontogenic tumor (KCOT) is a benign odontogenic intraosseous tumor which is potentially agrressive having distinguished clinical and histopathological features. Based on a literature review, more aggressive treatment — either resection or enucleation supplemented with Carnoy’s solution with or without peripheral ostectomy — results in a lower recurrence rate than enucleation alone or marsupialization. WHO’s reclassification of this lesion from cyst to tumour underscores its aggressive nature and should motivate clinicians to manage the disease in a correspondingly aggressive manner. The purpose of this paper is to review and discuss the redesignation of KCOT and the implications for treatment.
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El Tumor odontogénico queratoquístico es una entidad benigna de prevalencia relativamente alta que surge desde los remanentes de la lámina dental, el cual tiene un potencial comportamiento agresivo y alta recurrencia. Este tiende a crecer lentamente dentro del canal medular en sentido anteroposterior transformándose en una gran lesión sin causar una expansión obvia. Esta revisión describe la clínica, imagenología y tratamientos actuales del Tumor Odontogénico Queratoquístico a propósito de un paciente de sexo masculino 30 años diagnosticado con esta entidad.
Keratocystic Odontogenic tumor is a benign entity with relatively high prevalence that arises from remains of dental lamina. It has a potentially aggressive behaviour, high recurrence and anteroposterior slow growth in the medullar canal, which can become large lesion without obvious expansion. This review describes clinical, imagenological and current treatments of Keratocystic Odontogenic Tumor in 30- year-old male patient diagnosed with this entity.
Subject(s)
Humans , Male , Adult , Mandibular Neoplasms/surgery , Mandibular Neoplasms/diagnosis , Odontogenic Cysts/surgery , Odontogenic Cysts/diagnosis , Odontogenic Tumors/surgery , Odontogenic Tumors/diagnosis , Neoplasm Recurrence, LocalABSTRACT
Introduction: Even though odontogenic cysts share a similar histogenesis, they show different growth and differentiation profile due to differences in the proliferative cellular activity. Aims: We perform an immunohistochemical assessment of protein 53 (p53), proliferating cell nuclear antigen (PCNA), B-cell lymphoma 2 (bcl-2), and murine double minute 2 (MDM2) expression in odontogenic cysts and keratocystic odontogenic tumor analyzing their correlation with the biological behavior of these lesions. Materials and Methods: By the streptavidin-biotin-peroxidase method with antibodies against p53, PCNA, bcl-2, and MDM2 proteins, 11 radicular cysts, 11 dentigerous cysts, and 11 keratocystic odontogenic tumor were analyzed. The non-parametric Mann-Whitney U-test and Kruskall-Wallis test (P ≤ 0.05) were used to analyze the data. Results: Immunopositivity for PCNA was observed in all cases appraised, predominantly in the suprabasal layer of keratocystic odontogenic tumor epithelial lining (SD ± 19.44), but no significant differences were found among the groups of lesions. Bcl-2 immunoexpression was observed especially in the basal layer of keratocystic odontogenic tumor. PCNA LI was significantly higher than bcl-2 LI in keratocystic odontogenic tumor. MDM2 and p53 immunoexpression were not detected in the lesions studied. Among the evaluated lesions, the keratocystic odontogenic tumor showed different immunoexpression of the proliferation and apoptosis markers. Conclusion: The results of this study suggest that the keratocystic odontogenic tumor presents distinct biological behavior of the odontogenic cysts, as for the processes of proliferation, apoptosis, and differentiation, reinforcing the information in favor of the neoplastic nature of this lesion.
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Existen disímiles condiciones que hacen necesario el reemplazo articular temporomandibular; dentro de las más frecuentes se encuentran la anquilosis, la osteoatrosis, estadíos avanzados del Síndrome de disfunción temporomandibular, daño articular postrauma y procesos neoplásicos o tumorales. Los queratoquistes odontógenos que se agrupan para su estudio dentro de los quistes odontogénicos del desarrollo, representan cerca del 7 al 10 por ciento de todos los quistes maxilo-mandibulares. Se dice que tienen dos picos de incidencia entre la segunda y tercera década de vida y entre los 50 y 60 años de edad, con una ligera predilección por el sexo masculino. Aparece más frecuentemente en la región del tercer molar de la mandíbula con extensión a la rama ascendente El presente trabajo tuvo como objetivo mostrar el caso de un paciente masculino de 57 años de edad en el que fue necesario el reemplazo articular temporomandibular debido a un queratoquiste odontogénico que involucraba la totalidad de la rama mandibular derecha, incluyendo el proceso condíleo y coronoideo, así como el ángulo hasta el tercio posterior del cuerpo mandibular. Tras un año de realizada la intervención quirúrgica la evolución del paciente fue satisfactoria(AU)
Temporomandibular joint replacement is required in a variety of conditions. Among the most frequent are ankylosis, osteoarthrosis, advanced stages of the temporomandibular dysfunction syndrome, post-traumatic joint damage, and neoplastic or tumoral processes. Odontogenic keratocysts, which are classified as developmental odontogenic cysts for study purposes, constitute 7-10 per cent of all maxillomandibular cysts. Two peaks have been identified in their incidence: between the second and third decades of life, and between 50 and 60 years of age, with a slight predominance of the male sex. They are most common in the third molar area of the mandibule, with expansion to the ascending branch. A case is presented of a male 57-year-old patient requiring temporomandibular joint replacement due to an odontogenic keratocyst involving the entire right mandibular branch, including the condylar and coronoid processes, as well as the angle as far as the posterior third of the mandibular body. One year after surgery, the patient's evolution was satisfactory(AU)
Subject(s)
Humans , Male , Middle Aged , Jaw Cysts/epidemiology , Bone Transplantation/methods , Temporomandibular Joint/injuries , Odontogenic Cysts/surgery , Mandibular Prosthesis Implantation/methodsABSTRACT
Subject(s)
Humans , Aneurysm, False , Angiography , Arteries , Curettage , Embolization, Therapeutic , Head , Hemorrhage , Hemostasis , Mandible , Neck , Odontogenic Cysts , Odontogenic Tumors , PetrolatumABSTRACT
In 2005, odontogenic cyst was classified as keratocyst odontogenic tumor due to being aggressive and recurrent. The keratocyst odontogenic tumor has characteristics, with slow development, does not cause metastases and provides great bone destruction. The aim of this study was to discuss the aspects regarding the diagnosis, prognosis and treatment of odontogenic keratocyst tumor, through the report of two cases. Both initially underwent decompression of the lesion present proximity of anatomical structures to be great and noble, aiming to prevent pathological fractures. We carried out the clinical-radiographic and after regression of the lesion, patients underwent enucleation total.
El año 2005 quiste odontogénico fue clasificado como un tumor queratoquiste odontogénico (TQO) debido a su agresividad y recurrencia. El TQO tiene las características del tumor: crecimiento lento, no causa metástasis y proporciona una gran destrucción ósea. El objetivo de este estudio fue examinar los aspectos relacionados con el diagnóstico, pronóstico y tratamiento del TQO mediante la presentación de dos casos. Ambos casos fueron inicialmente sometidos a descompresión debido al gran tamaño de la lesión y la proximidad de ésta con estructuras anatómicas importantes, con el objetivo de prevenir las fracturas patológicas. Se llevó a cabo un seguimiento clínico-radiográfico y después de tener una regresión de la lesión postdescompresión, los pacientes fueron sometidos la enucleación total.
Subject(s)
Humans , Male , Adult , Young Adult , Middle Aged , Jaw Neoplasms/surgery , Jaw Neoplasms , Odontogenic Cysts/surgery , Odontogenic Cysts , Decompression, Surgical , Radiography, PanoramicABSTRACT
Introdução: O Tumor Odontogênico Ceratocístico (TOC) pode ser definido como um tumor intraósseo, benigno, de origem odontogênica. A incidência dessa lesão na mandibula é de 3 a 4 vezes maior que na maxila, com preferência pela região dos terceiros molares inferiores, no ângulo da madíbula, de onde se estende para o ramo ascentende. Em casos de lesões mais extensas, observa-se tumefação, drenagem ou dor associada, aumento de volume de tecidos moles e tecido ósseo, parestesia, mobilidade de dentes envolvidos pela lesão, bem como crescimento lento e deslocamento de peças dentárias. Objetivo e Metodologia: O objetivo deste trabalho foi realizar uma revisão da literatura e um levantamento de casos diagnosticados no Laboratóro de Patologia do Instituto de Ciências Biológicas da UPF a respeito do TOC. Resultados: No presente levantamento, foram encontrados 48 casos de TOC, com uma prevalencia do gênero feminino, na segunda e terceira década de vida. Um maior número de casos ocorreram na mandibula com preferencia pela região de terceiro molar inferior. Apresentavam em sua maioria lesões radiolúcidas uniloculares e o principal sinal clínico foi o de abaulamento. Conclusão: O que pode-se concluir através deste trabalho é que é fundamental para o sucesso do tratamento do Tumor Odontogênico Ceratocístico, o conhecimento por parte do Cirurgião Dentista de lesões tumorais de origem odontogênica , para que um correto e precoce diagnóstico seja executado, levando a melhor escolha do tratamento e, consequentemente um prognóstico favorável.
Introduction: The Keratocystic odontogenic tumor can be defined like an intraosseous tumor, benign, of odontogenic origin. The incidence of this lesion in the mandible and 3 to 4 times higher than in the maxilla, with a preference for the third molar region. In cases of more extensive lesions, there is swelling, drainage or pain associated, swelling of soft tissue and bone tissue, paresthesia, mobility of teeth involved by the injury, as well as slow growth and displacement of dental pieces. Objective and Methodology: The objective of this study was a literature review and a survey of cases diagnosed in the Pathology Lab of the Institute of Biological Sciences, UPF, about keratocystic odontogenic tumor. Result: In this survey, we found 48 cases of TOC, with a prevalence of females in second and third decade of life. A greater number of cases occurred in the jaw with a preference for the third molar region. Had mostly unilocular radiolucent lesions and was the main clinical sign of bulging. Conclusion: What can be concluded from this work is that it is essential for the successful treatment of odontogenic tumor keratocystic, knowledge by the Surgeon Dentist of odontogenic origin tumors, for a correct and early diagnosis is performed, taking the best choice of treatment and thus a favorable prognosis.
Subject(s)
Humans , Male , Female , Child , Adolescent , Young Adult , Middle Aged , Odontogenic Cysts/epidemiology , Odontogenic Cysts/pathology , Odontogenic Tumors/epidemiology , Odontogenic Tumors/pathology , Age Distribution , Brazil/epidemiology , Mandibular Diseases/epidemiology , Mandibular Diseases/pathology , Maxillary Diseases/epidemiology , Maxillary Diseases/pathology , Sex DistributionABSTRACT
Keratocystic odontogenic tumors (KCOT) comprise a unique pathological entity characterized by aggressive/destructive behavior and propensity to recurrence. This study describes the diagnostic and treatment features of a KCOT lesion. A 22-year old man was referred for surgical treatment of pericoronitis on tooth no. 37. Panoramic radiography revealed a unilocular, large radiolucent area extending from tooth no. 36 to the left mandibular ramus. Aspiration and incisional biopsy were performed, and the tissue sample was sent for microscopic evaluation. Microscopically, a cystic lesion was observed, lined by keratinized squamous epithelium and filled with keratin lamellae, confirming the diagnosis of KCOT. Surgery was performed in an outpatient setting and involved osteotomy, detachment of the cystic lesion, and removal of teeth no. 36, 37, and 38. The patient was clinically and radiographically followed for 12 months, and no evidence of recurrence was observed. KCOTs should be considered in the differential diagnosis of lesions affecting the posterior region of the mandible. Accurate clinical, radiographic, and microscopic examinations are essential to establish the definitive diagnosis and choose the most effective therapy.
O tumor odontogênico queratocístico (TOQ) é uma entidade patológica singular, devido ao seu comportamento agressivo/destrutivo e à sua propensão a recorrências. O presente trabalho descreve as particularidades de diagnóstico e tratamento de um TOQ. Um paciente do sexo masculino, com 22 anos de idade, foi encaminhado para tratamento cirúrgico de pericoronarite no dente 37. O exame radiográfico panorâmico revelou uma área ampla, unilocular, estendendo-se do dente 36 até o ramo esquerdo da mandíbula. Punção óssea aspirativa e biópsia incisional foram realizadas, e a amostra de tecido foi encaminhada para análise microscópica. Microscopicamente, observou-se lesão cística, revestida por epitélio escamoso queratinizado e preenchida por lamelas de queratina, confirmando o diagnóstico de TOQ. O procedimento cirúrgico foi realizado em ambiente ambulatorial e envolveu osteotomia, descolamento da luz da lesão e exodontia dos dentes 36, 37 e 38. O paciente foi acompanhado clínica e radiograficamente por um período de 12 meses, e não foi observada recorrência da lesão. O TOQ deve ser considerado no diagnóstico diferencial de alterações da região posterior da mandíbula. Exames clínicos, radiográficos e microscópicos precisos são essenciais no estabelecimento do diagnóstico e na escolha da modalidade terapêutica mais eficaz.
Subject(s)
Humans , Male , Young Adult , Odontogenic Cysts , Diagnostic Imaging , Mouth Neoplasms , Odontogenic TumorsABSTRACT
The odontogenic keratocyst (OKC) was originally classified as a developmental cyst, and OKCs were histologically divided into orthokeratotic (O-OKCs) and parakeratotic (P-OKCs) types. Clinical features differ between O-OKCs and P-OKCs with P-OKCs having a tendency to recur after surgical treatment. According to the revised histopathological classification of odontogenic tumors by the World Health Organization (2005) , the term keratocystic odontogenic tumor (KCOT) has been adopted to describe P-OKCs. In this retrospective study, we examined 186 KCOTs treated at the Maxillofacial Surgery Department of the Tokyo Medical and Dental University Hospital from 1981 through 2005. The patients ranged in age from 7 to 85 years (mean, 32.7) and consisted of 93 males and 93 females. The most frequently treated areas were the mandibular molar region and ramus. The majority of KCOTs in the maxillary region were treated by enucleation and primary closure. The majority of KCOTs in the mandibular region were enucleated, and the wound was left open. Marginal resection was performed in the 4 patients with large lesions arising in the mandible. In patients who were followed for more than a year, recurrences were observed in 19 of 120 lesions (15.8%) . The recurrences were found at the margins of the primary lesion in contact with the roots of the teeth or at the upper margins of the mandibular ramus. Clinicians should consider aggressive treatment for KCOTs because the recurrence rate of P-OKCs is higher than that of other cyst types such as O-OKCs, dentigerous cysts, primordial cysts that were non-keratinized, and slightly keratinized stratified squamous epithelium. Although more aggressive treatment is needed for KCOTs as compared to other cystic lesions, it is difficult to make a precise diagnosis preoperatively on the basis of clinical features and X-ray imaging. Therefore, preoperative biopsy is necessary for selecting the appropriate treatment for patients with cystic lesions.