Acellular amniotic membraneversus medical membrane to prevent tendon adhesion in tendon sheath repair
10.3969/j.issn.2095-4344.2016.21.011
- VernacularTitle:脱细胞羊膜与医用膜修复腱鞘缺损防治肌腱粘连的比较
- Author:
Guoli LIU
;
Kunlun YU
;
Jiangbo BAI
;
Tao MA
;
Yantao YANG
;
Dehu TIAN
- Publication Type:Journal Article
- From:
Chinese Journal of Tissue Engineering Research
2016;20(21):3117-3123
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND:Experiments have demonstrated that biological membranes can be usedtorecon struct thetendon she athandin hibit exogenou shealing of thetendon.Therefore,the semembrane sprovide a good bed for tendon gliding and reduce tendon adhesion.
OBJECTIVE:To compare the effectsof acelular amniotic membrane and medical membraneagainst tendon adhesion during the repair oftendon sheath defects.
METHODS:ToesIIIfrom the bipeds of 66 leghorns were chosen to prepare tendon injury and tendon sheath defect models, which were randomly divided into three groups (n=22 per group). Amnion group were repaired with acelular amniotic membrane, medical membrane group with absorbable membrane, and control group had no treatment on tendon sheath defects. Gross, histological and biomechanical tests of each group were performed at 2, 4, 8, 12 weeks after surgery.
RESULTS AND CONCLUSION:At 12 weeks after surgery, in the amniotic membrane and medical membrane groups, the tendon sheath formed completely, and the tendon healed well, with no adhesion, but in the control group, there was serious tendon adhesion. At 8 weeks after surgery, the number of synovial cells in the false sheath was highest in the amniotic membrane group sequentially followed by the medical membrane group and control group. In the amniotic membrane group, the rough endoplasmic reticulum expanded highly and secreted exuberantly in the matrix, while in the control group, the synovial cells presented with messy arrangement, and expanded vacuoles in the matrix were weaker than those in the other two groups. At 12 weeks after surgery, fibroblasts were arrayedtidily in layerwith dense structure in the medical membrane and amniotic membrane groups;but in the control group, fibroblasts were distributed disorderly with loose structure. Tendon sliding distance and total flexor toe angle in the amniotic membrane and medical filmgroups were significantly larger than those in the control group (P < 0.05),butthere was no significant difference between the medical membrane and amniotic membrane groups. Additionally, the maximum tensile fracture strength had no significant difference among three groups at 12 weeks after surgery. These results indicate that both amniotic membrane and medical membrane can markedlyprotect the tendon from exogenous healing and adhesion.
