Oral Pathology
Maryam Alsadat Hashemipour; Fatemeh Sadat Fatah; Mohammad Javad Ashraf; Mehrnaz Tahmasebi
Volume 11, Issue 4 , October 2016, , Pages 334-344
Abstract
Background: In cancers of prostate, breast, oropharynx, lung, hypopharynx and skin, human tissue kallikreins has been demonstrated as a main role in these problems. There are many research works in which some human tissue kallikreins are expressed in salivary glands. In the present study, the main goal ...
Read More
Background: In cancers of prostate, breast, oropharynx, lung, hypopharynx and skin, human tissue kallikreins has been demonstrated as a main role in these problems. There are many research works in which some human tissue kallikreins are expressed in salivary glands. In the present study, the main goal was to determine expression of human tissue kallikreins 4, 8, 10, 11 and 13 in pleomorphic adenomas and mucoepidermoid carcinomas. Methods: Sixty-six specimens (45 cases of pleomorphic adenomas and 21 cases mucoepidermoid carcinomas) were selected for final analysis by immunohistochemistry. For doing association test, clinical parameters obtained from the patients’ medical charts, which included age, gender were used and the nonparametric tests employed for statistical analyses. Results: The expression of human kallikreins 4, 8, 11 and 13 was more prominent in benign and malignant tumors compared to that in normal tissues and the difference was significant. In addition, the expression of human kallikreins 4, 8, 10 and 11 in malignant tumors was more than that in benign tumors, with statistically significant differences. Conclusion: The differences in the levels of human kallikreins 4, 8, 11 and 13 suggest that kallikreins may benefit in determining tumor behavior of salivary gland tumors.
Maryam Alsadat Hashemipour; Shahrzad Adhami; Behroz Mozafari; Fatemeh Ahmadi Motemail
Volume 6, Issue 3 , June 2011, , Pages 158-163
Abstract
A primary intraosseous carcinoma (PIOC) is a squamous cell carcinoma arising within the jawbone andshould be differentiated from a malignant ameloblastoma. It is not due to arising from an odontogenic cyst or tumor. The possibility of the lesion being a metastasis fromanotherprimary ...
Read More
A primary intraosseous carcinoma (PIOC) is a squamous cell carcinoma arising within the jawbone andshould be differentiated from a malignant ameloblastoma. It is not due to arising from an odontogenic cyst or tumor. The possibility of the lesion being a metastasis fromanotherprimary site should be considered, and excluded by a careful history and examination. The diagnosis of a PIOC is rare, but it is often worth considering in any differential diagnosis of jawradiolucency. The prognosis associated with primary intraosseous carcinoma of the jaws is poor and needs for aggressive treatment. It is common for these patients to present with apparent routine dental.This paper reports a case PIOC of the maxilla. The patient was a 68-year-old woman with a chief complaint of swelling of her hard palate.
Maryam Assadat Hashemi Pour; M Rad; A Mojtahedi
Volume 3, Issue 2 , March 2008, , Pages 81-87
Abstract
Background and Objective: Different mechanisms may lead to the development of soft tissue tumor-like lesions in the oral cavity. Many of these lesions can be identified as specific entities on the basis of their histopathological features and are divided into fibrous, vascular, and giant cell ...
Read More
Background and Objective: Different mechanisms may lead to the development of soft tissue tumor-like lesions in the oral cavity. Many of these lesions can be identified as specific entities on the basis of their histopathological features and are divided into fibrous, vascular, and giant cell types. The purpose of this study was to establish the relative prevalence of the different histopathological aspects of biopsies of oral soft tissue tumor-like lesions at School of Dentistry, Kerman Univ. Med. Sci. Materials and Methods: Documents and records of 260 patients with localized lesions of oral tissues diagnosed from March 1996 to March 2004 were reviewed. The lesions were classified into either fibrous or soft hemorrhagic lesions. Clinical data regarding age, gender, location, and treatment of lesions were obtained for each case. Data included in the present retrospective study were analyzed by SPSS statistical software (13.5) using t- test and chi-square tests. Results: A total of 260 surgical specimens of lesions of the oral cavity presented clinically were studied; 143 cases (55%) had fibrous lesions and 117 cases (45%) had soft hemorrhagic lesions. The fibrous lesions included 91 cases (63.6%) of gingival lesions, whereas 98 cases (83.76%) of the soft hemorrhagic lesions had gingival lesions. The patients were simultaneously treated by excisional biopsy and elimination of the chronic irritant. Conclusion: Oral lesions are often detected by dental professionals, surgeons and ENT specialists. Knowledge of the frequency and presentation of the most common oral lesions is beneficial in developing a clinical impression of such lesions encountered in practice.
