Enhanced Proliferation and Adhesion Marker Gene Expression in Fibroblast Cells: Evaluating the Efficacy of a Non-Surgical Treatment for Urogenital Fistula.

BACKGROUND Vesicovaginal fistula (VVF) due to posterior bladder wall and/or anterior vaginal wall necrosis is a condition that leads to urinary incontinence. Both microscopic and macroscopic VVFs severely impact quality of life. They are also associated with frequent recurrence after surgery. A non-surgical intervention for VVF is urgently required. A membrane bilayer could act as a mechanical tamponade and stimulate defect closure. MATERIAL AND METHODS This is an experimental study that explored the characteristics of mucoadhesive bilayer membrane complexes for non-operative treatment of VVF in vitro. We synthesized a mucoadhesive bilayer membrane, and inoculated it with cultured fibroblast cells. The mucoadhesive bilayer membrane was prepared with 3 different treatments: (1) estrogen; (2) lyophilized radiation-sterilized amnion (ALSR), a prepared amniotic membrane; and (3) arginine and glutamine (arginine+glutamine), 2 amino acids associated with wound repair. Expression levels of 3 genes, namely tumor growth factor beta (TGF-ß), lysil oxidase (LOX), and junctional adhesion molecules (JAMs), were measured using the Livak method and polymerase chain reaction (PCR). RESULTS On the fifth day after inoculation, there was no statistically significant difference in expression of the genes in the 3 conditions. However, on the tenth day, gene expression of the LOX and JAMs genes in the fibroblast cells inoculated onto the mucoadhesive bilayer membrane with arginine+glutamine was significantly higher than the expression in the fibroblast cells inoculated onto the mucoadhesive bilayer membrane with estrogen or with ALSR. CONCLUSIONS The mucoadhesive bilayer membrane complex with arginine+glutamine gave rise to the highest expression of the LOX and JAMs genes, indicating that the highest proliferation and cell adhesion were found in cells inoculated with the mucoadhesive bilayer membrane complex with arginine+glutamine.