Journal of Peking University(Health Sciences) >
Three-dimentional radiographic features of 67 maxillary radicular cysts
Received date: 2019-06-02
Online published: 2021-04-21
Supported by
National Natural Science Foundation of China(11435007)
Objective: To analyze the three-dimensional radiographic characteristics of maxillary radi-cular cysts using cone-beam computed tomography (CBCT) and spiral CT. Methods: Clinical records, histopathological reports, and CBCT or non-enhanced spiral CT images of 67 consecutive patients with maxillary radicular cysts were retrospectively acquired, and radiographic features, including size, shape, expansion, internal structure and relationship with the surrounding tissues, were analyzed. The lesions were divided into three types according to the involved tooth number, as follows: type Ⅰ (single tooth), the epicenter of the cyst was located at the apex of a nonvital tooth, without involvement of the neighbo-ring tooth; type Ⅱ (adjacent tooth involvement), the cyst was located at the apex of a nonvital tooth with involvement of the mesial and/or distal tooth root; and type Ⅲ (multi-teeth), the cyst involved the apexes of ≥4 teeth. Besides, these cysts were classified as another three types on sagittal views, as follows: centripetal, the root apex was oriented centripetally to the center of the cyst; palatal, the cyst was located mainly at the palatal side of the apex; and labial/buccal, the cyst was located mainly at the labial/buccal side of the apex. Results: Totally, 67 patients with maxillary radicular cysts were acquired, including 38 males and 29 females, and their ages ranged from 13 to 77 years. Among them, 46 lesions (68.7%) were located in the anterior maxilla and 65 (97.0%) were round or oval. Labial/buccal cortex expansion was present in 43 cases (64.2%) and palatal cortex expansion in 37 cases (55.2%). The nasal floor was invaded in 27 cases (40.3%), the maxillary sinus was invaginated in 26 cases (38.8%), and root resorption was present in 9 cases (13.4%). The average diameter of lesions was (20.89±8.11) mm mesio-distally and (16.70±5.88) mm bucco-palatally. In spite of the 4 residual cysts, the remaining 63 lesions included 14 type Ⅰ, 26 type Ⅱ and 23 type Ⅲ cysts according to the involved tooth number. Besides, the 63 lesions included 46 centripetal, 15 palatal and 2 buccal cysts on sagittal views. Conclusion: The maxillary radicular cysts were frequently well-circumscribed round or oval radiolucency, with significantly different sizes. According to the involved tooth number, it can be divided into single tooth, adjacent tooth involvement and multi-teeth types. On sagittal views, the root-cyst relationship was centripetal in most cases, while a minority of cysts expanded palatally or buccally.
Yuan MENG , Li-qi ZHANG , Ya-ning ZHAO , Deng-gao LIU , Zu-yan ZHANG , Yan GAO . Three-dimentional radiographic features of 67 maxillary radicular cysts[J]. Journal of Peking University(Health Sciences), 2021 , 53(2) : 396 -401 . DOI: 10.19723/j.issn.1671-167X.2021.02.027
| [1] | White SC, Pharoah MJ. Oral radiology principles and interpretation[M]. 7th ed. Missouri: Mosby Inc., 2014. |
| [2] | Takata T, Slootweg PJ. Odontogenic and maxillofacial bone tumors[M] // El-Naggar AE, Chan JKC, Grandis JR, et al. WHO classification of head and neck tumors. 4th ed. Lyon: IARC, 2017: 203-260. |
| [3] | Kilinc A, Saruhan N, Gundogdu B, et al. Benign tumors and tumorlike lesions of the oral cavity and jaws: an analysis of 709 cases[J]. Niger J Clin Pract, 2017,20(1):1448-1454. |
| [4] | 张震康, 俞光岩. 口腔颌面外科学[M]. 2版. 北京: 北京大学医学出版社, 2013. |
| [5] | 马绪臣. 口腔颌面医学影像学[M]. 2版. 北京: 北京大学医学出版社, 2014. |
| [6] | 吴运堂. 口腔颌面骨疾病临床影像诊断学[M]. 北京: 北京大学医学出版社, 2005. |
| [7] | Scarfe WC, Toghyani S, Azevedo B. Imaging of benign odontoge-nic lesions[J]. Radiol Clin North Am, 2018,56(1):45-62. |
| [8] | Barros C, Santos HBP, Cavalcante IL, et al. Clinical and histopathological features of nasopalatine duct cyst: A 47-year retrospective study and review of current concepts[J]. J Craniomaxillofac Surg, 2018,46(2):264-268. |
| [9] | Araujo JP, Lemos CA, Miniello TG, et al. The relevance of clinical and radiographic features of jaw lesions: a prospective study[J]. Braz Oral Res, 2016,30(1):e96-e104. |
| [10] | Nunez-Urrutia S, Figueiredo R, Gay-Escoda C. Retrospective clinicopathological study of 418 odontogenic cysts[J]. Med Oral Patol Oral Cir Bucal, 2010,15(5):e767-e773. |
| [11] | Chen JH, Tseng CH, Wang WC, et al. Clinicopathological analysis of 232 radicular cysts of the jawbone in a population of southern Taiwanese patients[J]. Kaohsiung J Med Sci, 2018,34(4):249-254. |
| [12] | Gondak RO, Rocha AC, Neves Campos JG, et al. Unicystic ameloblastoma mimicking apical periodontitis: a case series[J]. J Endod, 2013,39(1):145-148. |
| [13] | 高岩, 李铁军. 口腔组织学与病理学[M]. 2版. 北京: 北京大学医学出版社, 2013. |
| [14] | Faitaroni LA, Bueno MR, Carvalhosa AA, et al. Differential diagnosis of apical periodontitis and nasopalatine duct cyst[J]. J Endod, 2011,37(3):403-410. |
| [15] | Omoregie FO, Sede MA, Ojo AM. Ameloblastomatous change in radicular cyst of the jaw in a Nigerian population[J]. Ghana Med J, 2015,49(2):107-111. |
| [16] | Mass E, Kaplan I, Hirshberg A. A clinical and histopathological study of radicular cysts associated with primary molars[J]. J Oral Pathol Med, 1995,24(1):458-461. |
| [17] | Aboulhosn M, Noujeim Z, Nader N, et al. Decompression and enucleation of a mandibular radicular cyst, followed by bone regeneration and implant-supported dental restoration[J]. Case Rep Dent, 2019,2019:9584235. |
| [18] | Pitcher B, Alaqla A, Noujeim M, et al. Binary decision trees for preoperative periapical cyst screening using cone-beam computed tomography[J]. J Endod, 2017,43(3):383-388. |
| [19] | 孟圆, 张亚琼, 叶欣, 等. 上颌成釉细胞瘤、牙源性角化囊肿及含牙囊肿的螺旋CT和锥形束CT影像分析[J]. 中华口腔医学杂志, 2018,53(10):659-664. |
| [20] | Guo J, Simon JH, Sedghizadeh P, et al. Evaluation of the reliability and accuracy of using cone-beam computed tomography for diagnosing periapical cysts from granulomas[J]. J Endod, 2013,39(12):1485-1490. |
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