2017
DOI: 10.1016/j.actbio.2017.05.015
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Towards rebuilding vaginal support utilizing an extracellular matrix bioscaffold

Abstract: As an alternative to polypropylene mesh, we explored an extracellular matrix (ECM) bioscaffold derived from urinary bladder matrix (MatriStem™) in the repair of vaginal prolapse. We aimed to restore disrupted vaginal support simulating application via transvaginal and transabdominal approaches in a macaque model focusing on the impact on vaginal structure, function, and the host immune response. In 16 macaques, after laparotomy, the uterosacral ligaments and paravaginal attachments to pelvic side wall were com… Show more

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Cited by 22 publications
(17 citation statements)
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“…Based on the donor source, the biologic meshes are divided into three groups, namely, autologous graft, allograft and xenograft [ 9 , 31 ]. Various sources include autologous dermis, fascia lata or rectus fascia, allograft cadaveric tissue, porcine intestinal submucosa, bovine pericardium [ 35 , 36 ]. They involve rigorous decellularisation steps to leave an organised collagen microstructured scaffold with histological similarity to the host tissue.…”
Section: Pelvic Organ Prolapse and Non-degradable Biomaterials Meshmentioning
confidence: 99%
See 1 more Smart Citation
“…Based on the donor source, the biologic meshes are divided into three groups, namely, autologous graft, allograft and xenograft [ 9 , 31 ]. Various sources include autologous dermis, fascia lata or rectus fascia, allograft cadaveric tissue, porcine intestinal submucosa, bovine pericardium [ 35 , 36 ]. They involve rigorous decellularisation steps to leave an organised collagen microstructured scaffold with histological similarity to the host tissue.…”
Section: Pelvic Organ Prolapse and Non-degradable Biomaterials Meshmentioning
confidence: 99%
“…Designing an implantable construct for POP application involves the selection of polymers, as well as an optimum fabrication process to attain desired outcomes for augmenting the native tissue repair process. The selection of polymer for mesh design considers whether the fabricated construct can offer optimum fibre alignment [ 64 ], pore size, filament/fibre/strand thickness, sufficient mechanical strength to perform the implant surgery, controlled biodegradation/bioresorption to support tissue in growth [ 65 , 66 ] for extended periods of time and stiffness [ 35 , 36 , 37 ] matching the native tissue stiffness at the implant site. The biocompatibility of degradable meshes can be modified using plant-based aloe vera/alginate complex [ 53 ] as a printed top layer encapsulating a cell-based therapeutic agent.…”
Section: New Generation Of Meshes For Pop Surgerymentioning
confidence: 99%
“…Second, some clinical studies demonstrate that avoiding a vaginal incision suture line being in direct contact with the mesh material could decrease mesh exposure 128,129 . Additionally, avoiding a vaginal incision when implanting a natural scaffold derived from natural extracellular matrix on the vaginal wall of rhesus macaques, in these cases the material was implanted transabdominally rather than through a vaginal incision,was also shown to eliminate the negative effects on overall structure and function of the vagina with increased vaginal stiffness, collagen content and an increased collagen I/ III ratio at 3 months 130 . Finally, vaginal mesh extrusion described as vaginal mesh being visualized through the separated vaginal epithelium most commonly occurs in the midline where the surgical incision is made 131 .…”
Section: [H3] Biocompatibilitymentioning
confidence: 99%
“…This was used by Liang et al . 41 in monkeys to repair transected uterosacral ligaments and paravaginal attachments to the pelvic side wall. Matristem™ was used to repair the transected ligaments through either a transvaginal or transabdominal incision.…”
Section: Biomaterialsmentioning
confidence: 99%