Nano-cellulose proteinversusacellular matrixinoral mucosarepair
10.3969/j.issn.2095-4344.2016.21.009
- VernacularTitle:纳米纤维素蛋白和脱细胞基质修复口腔黏膜
- Author:
Zhongchao WANG
;
Liyuan FAN
;
Wei CAI
;
Junqiang JIANG
- Publication Type:Journal Article
- From:
Chinese Journal of Tissue Engineering Research
2016;20(21):3104-3109
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND:The sensitivity andmucus secretion of theoral mucosamake oral soft tissues difficult to repair, so patients cannot achieve satisfactory outcomes after treatment. Nano-celulose protein mainly composed of glycine, alanine and serine has good histocompati bility. However, there is a lack of comparative study about the effect of nano-celulose protein and acelular matrix in oral mucosa repair, and the clinical effects of the two materials are stil under discussion.
OBJECTIVE:To investigate the effects of nano-celulose proteinver susacelular matrix in oral mucosa repair.
METHODS:Oral mucosadefect models were preparedinrats, and these rat models were randomly divided into four groups:oral mucosa defectswere repaired by vaseline (control group), nano-celulose protein, bovine skin acelular matrix and human skin acelular matrix, respectively. Repair effects were compared among different materials within 2 months after surgery.
RESULTS AND CONCLUSION:The diameter of oral mucosa defect measured using a vernier caliper, had no significant differences among groups at 1 day after surgery (P> 0.05); the diameter of oral mucosa defect in the nano-celulose protein group was significantly lower than that in the other groups at 3, 5 and 7 days after surgery (P<0.05); the diameter of oral mucosa defect in the bovine and human skin acelular matrix groups was significantly lower than that in the control group at 5 and 7 days after surgery (P< 0.05). Morphological observationoftheoral mucosa under light microscope showed: the number of newborn capilary endothelialcels in the defect region had no significant differences among nano-celulose protein, bovine acelular matrix and human acelular matrixgroupsat 1, 3, 5 and 7 weeks after surgery (P> 0.05);but there were significant differences in the number of newborn capilary endothelialcels between the control group and the other three groups (P< 0.05). Furthermore, at 21 days after surgery, closely aligned and thicker new epithelialtissuecould be found in the nano-celulose protein group; in the bovine acelular matrix group,thedefect regionwasrepaired wel, new epithelialtissueappeared andthe number of inflammatory cels decreased; in the human acelular matrix group, inflammatory cels appearedobviously, and new epithelialtissueformed with the normal thickness. In contrast,abundant inflammatory cels and thinner epithelial tissues appeared in the control group. To conclude,bothnano-celulose protein and acelular matrix can accelerate wound healing by promoting oral mucosal epithelial hyperplasia.
