Six-year follow-up outcomes of the P(LLA-CL)/Fg bio-patch for anterior vaginal wall prolapse treatment

Chapple CR(2017)Consensus Statement of the European Urology Association and the European Urogynaecological Association on the use of implanted materials for treating pelvic organ prolapse and stress urinary incontinence Eur Urol 72 424-431

Cruz F(2016)Regulatory warnings and use of surgical mesh in pelvic organ prolapse JAMA Intern Med 176 275-277

Deffieux X(2021)A 14-year multi-institutional collaborative study of Chinese pelvic floor surgical procedures related to pelvic organ prolapse Chin Med J (Engl) 134 200-205

Milani AL(2020)Biologic grafts for use in pelvic organ prolapse surgery: a contemporary review Curr Urol Rep 21 52-1973

Arlandis S(2004)Time dependent variations in biomechanical properties of cadaveric fascia, porcine dermis, porcine small intestine submucosa, polypropylene mesh and autologous fascia in the rabbit model: implications for sling surgery J Urol 171 1970-3593

Artibani W(2007)The extracellular matrix as a biologic scaffold material Biomaterials 28 3587-283

Sedrakyan A(2018)Long-term follow-up of anterior vaginal repair: a comparison among colporrhaphy, colporrhaphy with reinforcement by xenograft, and mesh Neurourol Urodyn 37 278-611

Chughtai B(2020)A comparison of sacrospinous hysteropexy augmented with polypropylene mesh versus human dermis at 12-month follow-up: an ambidirectional study Female Pelvic Med Reconstr Surg 26 607-22

Mao J(2021)Efficacy and safety of pelvic organ prolapse surgery with porcine small intestinal submucosa graft implantation Eur J Obstet Gynecol Reprod Biol 267 18-689

Sun ZJ(2019)Landmarks in vaginal mesh development: polypropylene mesh for treatment of SUI and POP Nat Rev Urol 16 675-580

Chapple CR(2017)Consensus Statement of the European Urology Association and the European Urogynaecological Association on the use of implanted materials for treating pelvic organ prolapse and stress urinary incontinence Eur Urol 72 424-431

Cruz F(2016)Regulatory warnings and use of surgical mesh in pelvic organ prolapse JAMA Intern Med 176 275-277

Deffieux X(2021)A 14-year multi-institutional collaborative study of Chinese pelvic floor surgical procedures related to pelvic organ prolapse Chin Med J (Engl) 134 200-205

Milani AL(2020)Biologic grafts for use in pelvic organ prolapse surgery: a contemporary review Curr Urol Rep 21 52-1973

Arlandis S(2004)Time dependent variations in biomechanical properties of cadaveric fascia, porcine dermis, porcine small intestine submucosa, polypropylene mesh and autologous fascia in the rabbit model: implications for sling surgery J Urol 171 1970-3593

Artibani W(2007)The extracellular matrix as a biologic scaffold material Biomaterials 28 3587-283

Sedrakyan A(2018)Long-term follow-up of anterior vaginal repair: a comparison among colporrhaphy, colporrhaphy with reinforcement by xenograft, and mesh Neurourol Urodyn 37 278-611

Chughtai B(2020)A comparison of sacrospinous hysteropexy augmented with polypropylene mesh versus human dermis at 12-month follow-up: an ambidirectional study Female Pelvic Med Reconstr Surg 26 607-22

Mao J(2021)Efficacy and safety of pelvic organ prolapse surgery with porcine small intestinal submucosa graft implantation Eur J Obstet Gynecol Reprod Biol 267 18-689

Sun ZJ(2019)Landmarks in vaginal mesh development: polypropylene mesh for treatment of SUI and POP Nat Rev Urol 16 675-580