Objective To analyze the clinical feature and pathological characteristics of oral submucous fibrosis (OSF) coexisted with oral leukoplakia (OLK) or oral lichen planus (OLP),and summarize both the common and each clinical and pathological characteristics of two kinds of diseases.Methods The clinical and pathological data of 74 patients with OSF coexisted with OLK and 57patients with OSF coexisted with OLP were retrospectively reviewed.Results Most of patients with OSF coexisted with OLK or OLP were mainly young and middle-aged male patients,and all had the habit of eating betel quid chewing.Most of them had the habit of smoking and alcohol drinking; while their limitation of mouth opening were not obvious.Patients coexisted with unilateral OLK or OLP all had a unilateral mastication of chewing betel nut;the prevalence rate of erosive OLP was lower in the patients with OSF coexisted OLP than that of OLP patients never chew betel nut.The pathology of both OSF coexisted with OLK or OLP was with the respective characteristics of OLK or OLP on the basis of OSF,and the epithelium was thickened more than atrophic.No relationship was found between the degree of epithelial hyperplasia and the severity of fibrosis in patients with OSF coexisted with OLK.Conclusions OSF coexisted with OLK and OSF coexisted with OLP were the occurrence of OLK or OLP on the basis of OSF,which were not a simple superposition of two diseases,but combination with their own characteristics of OSF coexisted with OLK or OLP.

Objective To investigate the expressions of cytokeratin/keratin 4 in the buccal tissue of oral submucous fibrosis at the early,middle and advanced stages,explore which role keratin4 (K4) plays in the process and development of oral submucous fibrosis (OSF),and provide evidence for K4 being a promising biomarker to evaluate the development and prognosis of OSF.Methods Ten cases of normal tissues,and 10 cases of OSF tissues with typical early,middle and advanced stages,were selected,respectively.Detect the expression of K4 in the tissue mentioned above through immunohistochemistry and Westem blot.The data was analyzed by statistical means.Results The results of immunohistochemistry showed that K4 was mainly located in cytoplasm,and positive cells with brownish yellow granules were seen in whole epithelial layer of the normal mucosa.The expression of K4 was lower at all stages of OSF than that at the normal tissue with statistical significance (P ＜0.05).With the aggravation of OSF,the expression of K4 was decreased,difference between early and advanced stage was found to be statistically significant.The results of Western blot also showed that the expression of K4 was lower than that of early,middle and advanced stages of OSF (P ＜ 0.05).With the aggravation of OSF,the expression of K4 was decreased,but the differences between them had no significance (P ＞ 0.05).Conclusions The expression of K4 in OSF tissue of early,middle and advanced stages were decreased compared to normal tissue,respectively.It suggests that K4 might play and important role in the initiation and development of OSF.

Objective To investigate the xenotransplantation model of fetal pig skin precursor tissue and its development after transplantaion. Methods Porcine skin precursor tissue was obtained from the embryo of gestation day 56 (E56), and made into microskin or stamp skin graft. The microskin was transplanted to the dorsal wound in BALB/c nude mice, then covered with human corpse skin. The stamp skin graft was imbedded subcutaneously into the back of nude mice, and microskin was injected subcutaneously into the auricles of nude mice. Their growth and development were observed and they were examined by HE staining at 6th and 12th week after transplantation respectively. Two-sample t test was used to analyze the size of newly grown skin tissue. Results Porcine skin precursor tissue graft in three models above survived and continued growth after transplantation, and growth ability of the dorsal wound transplantation model was significantly stronger than that of the auricle model. Epidermis and hypodermis were detected in newly grown skin tissues. Hair follicles, a few of sebaceous glands, but no sweat glands were observed in auricle model, while many sebaceous glands and sweat glands were observed in the dorsal wound model. Conclusion Transplantation of microskin to dorsal wound is the optimal model of investigating the xenotransplantation of fetal pig skin precursor tissue and its development after transplantion.