参考文献/References:
[1]申英末,陈杰,王振军,等. 疝修补材料的发展与新进展.中华疝和腹壁外科杂志(电子版),2007,1(1):56-59.
[2]Berger D, Bientzle M. Polyvinylidene fluoride: a suitable mesh material for laparoscopic incisional and parastomal hernia repair! A prospective, observational study with 344 patients. Hernia,2009,13(2):167-172.
[3]朱兰,於四军,郎景和,等.尿失禁影响问卷简表的引进和人群验证.中华妇产科杂志, 2011,46(7):505-509.
[4]Zhu L, Yu S, Xu T, et al. Validation of the Chinese version of the pelvic organ prolapse/urinary incontinence sexual questionnaire short form (PISQ-12). Int J Gynaecol Obstet,2012,116(2):117-119.
[5]朱兰.压力性尿失禁手术治疗现状及值得重视的临床问题.中国实用妇科与产科杂志,2011,27(1):2-4.
[6]Moldovan CP, Marinone ME, Staack A, et al. Transvaginal retropubic sling systems: efficacy and patient acceptability. Int J Womens Health,2015,7: 227-237.
[7]Feiner B, Maher C. Vaginal mesh contraction: definition, clinical presentation, and management. Obstet Gynecol,2010,115(2 Pt 1):325-330.
[8]Urban E,King MW,Guidoin R,et al. Why make monofilament sutures out of polyvinylidene fluoride? ASAIO J,1994,40(2):145-156.
[9]王劼,杨庆,郯志清,等.用于疝气补片的PVDF涂层聚酯单丝的制备.合成纤维,2009,38(10):19-22,33.
[10]Klink CD,Junge K,Binnebosel M,et al. Comparison of long-term biocompability of PVDF and PP meshes. J Invest Surg,2011,24(6):292-299.
[11]Klinge U, Klosterhalfen B, Ottinger AP,et al. PVDF as a new polymer for the construction of surgical meshes. Biomaterials,2002,23(16):3487-3493.
[12]Conze J, Junge K, Weiss C,et al.New polymer for intra-abdominal meshes-PVDF copolymer. J Biomed Mater Res B Appl Biomater,2008,87(2):321-328.
[13]Celik A, Altinli E, Koksal N,et al. The shrinking rates of different meshes placed intraperitoneally: a long-term comparison of the TiMesh, VYPRO Ⅱ, Sepramesh, and DynaMesh. Surg Laparosc Endosc Percutan Tech, 2009,19(4):e130-e134.
[14]李好义,刘勇,何雪涛,等.应用于组织工程支架制备的电纺技术.生物工程学报,2012,28(1):15-25.
[15]Damaraju SM, Wu S, Jaffe M. Structural changes in PVDF fibers due to electrospinning and its effect on biological function. Biomed Mater, 2013,8(4):045007.
[16]Lima MJ, Correlo VM, Reis RL. Micro/nano replication and 3D assembling techniques for scaffold fabrication. Mater Sci Eng C Mater Biol Appl,2014,42(1):615-621.
[17]Schug-Pass C, Sommerer F, Tannapfel A. The use of composite meshes in laparoscopic repair of abdominal wall hernias: are there differences in biocompatibily? Surg Endosc,2009, 23(3):487-495.