William D'Angelo1, Jenna Dziki1,2, Stephen F Badylak1,2,3. 1. McGowan Institute for Regenerative Medicine. 2. Department of Surgery, University of Pittsburgh School of Medicine. 3. Department of Bioengineering, University of Pittsburgh, Pittsburgh, PA.
Abstract
PURPOSE OF REVIEW: The present article reviews the history of mesh-related complications and regulations in SUI and POP repair settings, clinical outcomes associated with the use of biologic and synthetic mesh materials, and novel approaches using modified mesh materials. RECENT FINDINGS: Treatment of pelvic floor disorders, such as stress urinary incontinence (SUI) and pelvic organ prolapse (POP) commonly involves implantation of synthetic surgical mesh materials like polypropylene. Many synthetic mesh materials, however, are associated with a foreign body response upon implantation, which is characterized by fibrotic encapsulation. Complications, including erosion, infections, bleeding, and chronic pain, have led to warnings by regulatory agencies and the recall of several mesh products. To mitigate such complications, biologic mesh materials have been proposed as alternatives for SUI and POP repair. SUMMARY: Clinical outcomes of surgical repair of POP/SUI are similar between biologic and synthetic meshes, but biologic meshes have a lower incidence of adverse effects. Several strategies for modifying or functionalizing biological and synthetic meshes have shown promising results in preclinical studies.
PURPOSE OF REVIEW: The present article reviews the history of mesh-related complications and regulations in SUI and POP repair settings, clinical outcomes associated with the use of biologic and synthetic mesh materials, and novel approaches using modified mesh materials. RECENT FINDINGS: Treatment of pelvic floor disorders, such as stress urinary incontinence (SUI) and pelvic organ prolapse (POP) commonly involves implantation of synthetic surgical mesh materials like polypropylene. Many synthetic mesh materials, however, are associated with a foreign body response upon implantation, which is characterized by fibrotic encapsulation. Complications, including erosion, infections, bleeding, and chronic pain, have led to warnings by regulatory agencies and the recall of several mesh products. To mitigate such complications, biologic mesh materials have been proposed as alternatives for SUI and POP repair. SUMMARY: Clinical outcomes of surgical repair of POP/SUI are similar between biologic and synthetic meshes, but biologic meshes have a lower incidence of adverse effects. Several strategies for modifying or functionalizing biological and synthetic meshes have shown promising results in preclinical studies.
Authors: Yinwei Chen; Lia Banie; Benjamin N Breyer; Yan Tan; Zhao Wang; Feng Zhou; Guifang Wang; Guiting Lin; Jihong Liu; Lei S Qi; Tom F Lue Journal: CRISPR J Date: 2022-06-27
Authors: Xiaoyu Zhang; Yajun Ruan; Alex K Wu; Uwais Zaid; Jaqueline D Villalta; Guifang Wang; Lia Banie; Amanda B Reed-Maldonado; Guiting Lin; Tom F Lue Journal: Urology Date: 2020-04-10 Impact factor: 2.649