Vaginal estrogen application for 6 weeks preoperatively increased synthesis of mature collagen, decreased degradative enzyme activity, and increased thickness of the vaginal wall, suggesting this intervention improves both the substrate for suture placement at the time of surgical repair and maintenance of connective tissue integrity of the pelvic floor.
Background:The function of fetal fibronectin (fFN) in the pathogenesis of preterm labor is not known. Results: fFN activates MMP-1, MMP-9, and COX-2 in mesenchymal cells and causes preterm labor in mice. Conclusion: fFN is biologically active and plays a significant role in the pathogenesis of preterm labor. Significance: Signaling of fFN in fetal membranes is important in the pathophysiology of premature preterm rupture of the membranes.
This pilot study demonstrates significant alterations in the FF milieu of obese women undergoing IVF, which may contribute to the decreased fecundity of obese women. Although the impact of this environment on oocyte and embryo development is not fully realized, these changes may also lead to imprinting at the genomic level and long-term sequelae on offspring.
Background: Bleeding during pregnancy is a risk factor for premature rupture of the fetal membranes. Results: Thrombin causes preterm birth in mice and activates PAR-1 and TLR4 to increase MMPs and COX-2. Conclusion: Thrombin acts through multiple mechanisms to increase MMPs and PGE 2 in amnion. Significance: Thrombin plays a pivotal role in the pathogenesis of preterm labor and rupture of the membranes.
Loss of pelvic organ support (i.e., pelvic organ prolapse) is common in menopausal women. Surgical reconstruction of pelvic organ prolapse is plagued with high failure rates. The objective of this study was to determine the effects of estrogen on biomechanical properties, lysyl oxidase (LOX), collagen content, and histomorphology of the vagina with or without surgical injury. Nulliparous ovariectomized guinea pigs were treated systemically with either 50 μg/kg/day estradiol (E2,) or vehicle. After 2 wk, vaginal surgery was performed, and animals were treated with either beta-aminopropionitrile (BAPN, an irreversible LOX inhibitor), or vehicle to determine the role of LOX in recovery of the vaginal wall from injury with or without E2. Estradiol resulted in (i) significant growth, increased smooth muscle, and increased thickness of the vagina, (ii) increased distensibility without compromise of maximal force at failure, and (iii) increased total and cross-linked collagen. In the absence of E2, BAPN resulted in decreased collagen and vaginal wall strength in the area of the injury. In contrast, in E2-treated animals, increased distensibility, maximal forces, and total collagen were maintained despite BAPN. Interestingly, LOX mRNA was induced dramatically (9.5-fold) in the injured vagina with or without E2 at 4 days. By 21 days, however, LOX levels declined to near baseline in E2-deprived animals. LOX mRNA levels remained strikingly elevated (12-fold) at 21 days in the estrogenized vagina. The results suggest that prolonged E2 induced increases in LOX, and collagen cross-links may act to sustain a matrix environment that optimizes long-term surgical wound healing in the vagina.
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