диссертации / 73

and treatment. Berlin Heidelberg: Springer 2006; 3–25.

188. Федосеев А.В., Чекушин А.А. Недифференцированная дисплазия соединительной ткани как один из возможных механизмов образования наружных вентральных грыж Российский медико-биологический вестник им. академика И.П.

Павлова 2010; (3): 125-130.

189.Pans A, Albert A, Lapiere CM, Nusgens B. Biochemical study of collagen in adult groin hernias. J Surg Res 2001; 95 (2): 107-113.

190.Pans A. [New prospects in the etiology of groin hernias]. Chirurgie 1999; 124 (3): 288-297.

191.Chang EG. When to use mesh in inguinal hernia repair. Mil Med 1991; 156 (7): 364-

192.Junge K, Rosch R, Klinge U et al. Risk factors related to recurrence in inguinal hernia repair: a retrospective analysis. Hernia 2006; 10 (4): 309-315.

193.Doctor HG. Evaluation of various prosthetic materials and newer meshes for hernia repairs. J Minim Access Surg 2006; 2 (3): 110-116.

194.Bower S, Moore BB, Weiss SM. Neuralgia after inguinal hernia repair. Am Surg 1996; 62 (8): 664-667.

195.Ansaloni L, Catena F, D'Alessandro L. Prospective randomized, double-blind, controlled trial comparing Lichtenstein's repair of inguinal hernia with polypropylene mesh versus Surgisis gold soft tissue graft: preliminary results. Acta Biomed 2003; 74 Suppl 2 10-14.

196.Bay-Nielsen M, Perkins FM, Kehlet H. Pain and functional impairment 1 year after inguinal herniorrhaphy: a nationwide questionnaire study. Ann Surg 2001; 233 (1): 1-7.

197.Kumar S, Wilson RG, Nixon SJ, Macintyre IM. Chronic pain after laparoscopic and open mesh repair of groin hernia. Br J Surg 2002; 89 (11): 1476-1479.

198.Poobalan AS, Bruce J, Smith WC et al. A review of chronic pain after inguinal herniorrhaphy. Clin J Pain 2003; 19 (1): 48-54.

199.Poobalan AS, Bruce J, King PM et al. Chronic pain and quality of life following open inguinal hernia repair. Br J Surg 2001; 88 (8): 1122-1126.

271

200.Courtney CA, Duffy K, Serpell MG, O'Dwyer PJ. Outcome of patients with severe chronic pain following repair of groin hernia. Br J Surg 2002; 89 (10): 1310-1314.

201.Kehlet H. Chronic pain after groin hernia repair. Br J Surg 2008; 95 (2): 135-136.

202.Canziani M, Frattini F, Cavalli M et al. Sutureless mesh fibrin glue incisional hernia repair. Hernia 2009; 13 (6): 625-629.

203.Мирзабекян Ю.Р., Иванов М.П., Попович В.К., Добровольский С.Р. Результаты лечения больных с послеоперационной вентральной грыжей Хирургия. Журнал им. Н.И. Пирогова 2008; (№5).

204.Усов С.А., Носов В.Г. Профилактика инфекции в области хирургического вмешательства при аллопластике грыж передней брюшной стенки Бюллетень Восточно-Сибирского научного центра СО РАМН 2005; (3): 259-260.

205.Kumar S. Chronic groin sepsis following tension-free inguinal hernioplasty. Br J Surg 1999; 86 (11): 1482.

206.Taylor SG, O'Dwyer PJ. Chronic groin sepsis following tension-free inguinal hernioplasty. Br J Surg 1999; 86 (4): 562-565.

207.Avtan L, Avci C, Bulut T, Fourtanier G. Mesh infections after laparoscopic inguinal hernia repair. Surg Laparosc Endosc 1997; 7 (3): 192-195.

208.Белоконев В.И., Пушкин С.Ю., Житлов А.Г. и соавт. Применение герниологических приемов у больных со сформированными кишечными свищами желудочно-кишечного тракта Вестник Национального медико-хирургического центра им. Н.И. Пирогова 2011; 6 (2): 58-62.

209.Помазкин В.И. Использование синтетических материалов для пластики послеоперационных грыж при вмешательствах на "открытой" толстой кишке Вестник хирургии им. И.И. Грекова 2010; 169 (2): 99-101.

210.Forbes SS, Eskicioglu C, McLeod RS, Okrainec A. Meta-analysis of randomized controlled trials comparing open and laparoscopic ventral and incisional hernia repair with mesh. Br J Surg 2009; 96 (8): 851-858.

211.Israelsson LA, Smedberg S, Montgomery A et al. Incisional hernia repair in Sweden 2002. Hernia 2006; 10 (3): 258-261.

272

212.Amid PK, Shulman AG, Lichtenstein IL, Hakakha M. Biomaterials for abdominal wall hernia surgery and principles of their applications. Langenbecks Arch Chir 1994; 379 (3): 168-171.

213.Amid PK, Lichtenstein IL, Shulman AG, Hakakha M. Biomaterials for "tensionfree" hernioplasties and principles of their applications. Minerva Chir 1995; 50 (9): 821-

214.Farmer L, Ayoub M, Warejcka D et al. Adhesion formation after intraperitoneal and extraperitoneal implantation of polypropylene mesh. Am Surg 1998; 64 (2): 144-146.

215.Bachman S, Ramshaw B. Prosthetic material in ventral hernia repair: how do I choose? Surg Clin North Am 2008; 88 (1): 101-112, ix.

216.Klinge U, Klosterhalfen B. Modified classification of surgical meshes for hernia repair based on the analyses of 1,000 explanted meshes. Hernia 2012; 16 (3): 251-258.

217.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.

218.Jamry A, Jalynski M, Piskorz L, Brocki M. Assessment of adhesion formation after laparoscopic intraperitoneal implantation of Dynamesh IPOM mesh. Arch Med Sci 2013;

9(3): 487-492.

219.Zinther NB, Wara P, Friis-Andersen H. Intraperitoneal onlay mesh: an experimental study of adhesion formation in a sheep model. Hernia 2010; 14 (3): 283-289.

220.Sommer T, Friis-Andersen H. DynaMesh(R) in the repair of laparoscopic ventral hernia: a prospective trial. Hernia 2013; 17 (5): 613-618.

221.Fortelny RH, Petter-Puchner AH, Glaser KS et al. Adverse effects of polyvinylidene fluoride-coated polypropylene mesh used for laparoscopic intraperitoneal onlay repair of incisional hernia. Br J Surg 2010; 97 (7): 1140-1145.

222.Klosterhalfen B, Klinge U. Retrieval study at 623 human mesh explants made of polypropylene--impact of mesh class and indication for mesh removal on tissue reaction. J Biomed Mater Res B Appl Biomater 2013; 101 (8): 1393-1399.

273

223.Clave A, Yahi H, Hammou JC et al. Polypropylene as a reinforcement in pelvic surgery is not inert: comparative analysis of 100 explants. Int Urogynecol J 2010; 21 (3): 261-270.

224.Суковатых Б.С., Нетяга А.А., Жуковский В.А.и соавт. Современные полимерные материалы в пластической хирургии послеоперационных и рецидивных вентральных грыж Курский научно-практический вестник "Человек и его здоровье"

2006; (1): 72-78.

225.Dieval F, Chakfe N, Wang L et al. Mechanisms of rupture of knitted polyester vascular prostheses: an in vitro analysis of virgin prostheses. Eur J Vasc Endovasc Surg 2003; 26 (4): 429-436.

226.Sanders DL, Kingsnorth AN. The modern management of incisional hernias. BMJ 2012; 344 e2843.

227.Белоконев В.И., Ковалева З.В., Вавилов А.В.и соавт. Комплексное лечение больных с послеоперационной вентральной грыжей Хирургия. Журнал им. Н.И.

Пирогова 2008; (2): 42-47.

228.Виноградов А.А., Плеханов А.Н., Товаршинов А.И. и соавт. Анализ рецидивов после аллопластики послеоперационных вентральных грыж Вестник Бурятского государственного университета 2010; (12): 198-202.

229.Чугунов А.Н., Славин Л.Е., Замалеев А.З. Анализ причин рецидивов послеоперационных вентральных грыж после разных способов аллопластики Казанский медицинский журнал 2007; (3): 238-240.

230.Цверов И.А., Базаев А.В. Хирургическое лечение больных с вентральными грыжами: современное состояние Современные технологии в медицине 2010; (4):

122-127.

231. Григорюк А.А, Ковалев В.А. Применение сетчатых полипропиленовых имплантатов в лечении послеоперационных вентральных грыж: экспериментальное и клиническое исследование Дальневосточный медицинский журнал 2010; (2): 2326.

274

232.Дамбаев Г.Ц, Хохлов К.С., Габидулина Н.В., Щеглов А.В. Ненатяжная герниопластика при лечении больных с послеоперационными вентральными грыжами Сибирский медицинский журнал (г. Томск) 2011; 26 (1-2): 121-124.

233.Титов В.В., Калачев И.И., Тимошин А.Д. Сравнительная оценка под- и

надапоневротической пластики передней брюшной стенки у больных с послеоперационными вентральными грыжами Анналы хирургии 2008; (4): 56-59.

234.Hawn MT, Snyder CW, Graham LA et al. Long-term follow-up of technical outcomes for incisional hernia repair. J Am Coll Surg 2010; 210 (5): 648-655, 655-647.

235.Алекберзаде А.В., Липницкий Е.М., Сундуков И.В. Открытая аллопластика послеоперационных вентральных грыж Хирургия. Журнал им. Н.И. Пирогова 2011;

(4): 13-16.

236.Цверов И.А., Базаев А.В. Оценка основных способов аллопластики с целью оптимизации лечения больных с послеоперационными вентральными грыжами Современные технологии в медицине 2011; (2): 73-76.

237.Мошкова Т.А., Васильев С.В., Олейник В.В., Морозов А.Б. Оценка способов размещения полипропиленовых сеток при аллопластике вентральных грыж Вестник хирургии им. И.И. Грекова 2007; 166 (2): 78-81.

238.Welty G, Klinge U, Klosterhalfen B et al. Functional impairment and complaints following incisional hernia repair with different polypropylene meshes. Hernia 2001; 5 (3): 142-147.

239.Liebert TC, Chartoff RP, Cosgrove SL, McCuskey RS. Subcutaneous implants of polypropylene filaments. J Biomed Mater Res 1976; 10 (6): 939-951.

240.Mary C, Marois Y, King MW et al. Comparison of the in vivo behavior of polyvinylidene fluoride and polypropylene sutures used in vascular surgery. ASAIO J 1998; 44 (3): 199-206.

241.Costello CR, Bachman SL, Grant SA et al. Characterization of heavyweight and lightweight polypropylene prosthetic mesh explants from a single patient. Surg Innov 2007;

14(3): 168-176.

275

242.Costello CR, Bachman SL, Ramshaw BJ, Grant SA. Materials characterization of explanted polypropylene hernia meshes. J Biomed Mater Res B Appl Biomater 2007; 83 (1): 44-49.

243.Klinge U, Klosterhalfen B, Conze J et al. Modified mesh for hernia repair that is adapted to the physiology of the abdominal wall. Eur J Surg 1998; 164 (12): 951-960.

244.Barros D'Sa AA, Berger K, Di Benedetto G et al. A healable filamentous Dacron surgical fabric. Experimental studies and clinical experience. Ann Surg 1980; 192 (5): 645-

245.Maarek JM, Guidoin R, Aubin M, Prud'homme RE. Molecular weight characterization of virgin and explanted polyester arterial prostheses. J Biomed Mater Res 1984; 18 (8): 881-894.

246.Riepe G, Loos J, Imig H et al. Long-term in vivo alterations of polyester vascular grafts in humans. Eur J Vasc Endovasc Surg 1997; 13 (6): 540-548.

247.Vinard E, Eloy R, Descotes J et al. Stability of performances of vascular prostheses retrospective study of 22 cases of human implanted prostheses. J Biomed Mater Res 1988;

22(7): 633-648.

248.van der Lei B, Bleichrodt RP, Simmermacher RK, van Schilfgaarde R. Expanded polytetrafluoroethylene patch for the repair of large abdominal wall defects. Br J Surg 1989; 76 (8): 803-805.

249.Bellon JM, Contreras LA, Bujan J. Ultrastructural alterations of polytetrafluoroethylene prostheses implanted in abdominal wall provoked by infection: clinical and experimental study. World J Surg 2000; 24 (5): 528-531; discussion 532.

250.Bellon JM, Contreras LA, Bujan J et al. Effect of relaparotomy through previously integrated polypropylene and polytetrafluoroethylene experimental implants in the abdominal wall. J Am Coll Surg 1999; 188 (5): 466-472.

251.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.

252.Urban E, King MW, Guidoin R et al. Why make monofilament sutures out of polyvinylidene fluoride? ASAIO J 1994; 40 (2): 145-156.

276

253.Жуковский В.А. Современные тенденции и подходы к разработке полимерных эндопротезов для герниопластики Вестник хирургии им. И.И. Грекова 2011; 170 (1): 102-105.

254.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.

255.Junge K, Binnebosel M, Rosch R et al. Adhesion formation of a polyvinylidenfluoride/polypropylene mesh for intra-abdominal placement in a rodent animal model. Surg Endosc 2009; 23 (2): 327-333.

256.Дубова Е.А., Щеголев А.И., Чекмарева И.А. и соавт. Тканевая реакция на

экспериментальной биологии и медицины 2006; 142 (12): 687-692.

257.Bellon JM, Rodriguez M, Garcia-Honduvilla N et al. Postimplant behavior of lightweight polypropylene meshes in an experimental model of abdominal hernia. J Invest Surg 2008; 21 (5): 280-287.

258.Weyhe D, Schmitz I, Belyaev O et al. Experimental comparison of monofile light and heavy polypropylene meshes: less weight does not mean less biological response. World J Surg 2006; 30 (8): 1586-1591.

259.Boulanger L, Boukerrou M, Lambaudie E et al. Tissue integration and tolerance to meshes used in gynecologic surgery: an experimental study. Eur J Obstet Gynecol Reprod Biol 2006; 125 (1): 103-108.

260.Bringman S, Wollert S, Osterberg J et al. Three-year results of a randomized clinical trial of lightweight or standard polypropylene mesh in Lichtenstein repair of primary inguinal hernia. Br J Surg 2006; 93 (9): 1056-1059.

261.O'Dwyer PJ, Kingsnorth AN, Molloy RG et al. Randomized clinical trial assessing impact of a lightweight or heavyweight mesh on chronic pain after inguinal hernia repair. Br J Surg 2005; 92 (2): 166-170.

262.Klinge U, Junge K, Spellerberg B et al. Do multifilament alloplastic meshes increase the infection rate? Analysis of the polymeric surface, the bacteria adherence, and the in vivo consequences in a rat model. J Biomed Mater Res 2002; 63 (6): 765-771.

277

263.Engelsman AF, van Dam GM, van der Mei HC et al. In vivo evaluation of bacterial infection involving morphologically different surgical meshes. Ann Surg 2010; 251 (1): 133-137.

264.Krause HG, Galloway SJ, Khoo SK et al. Biocompatible properties of surgical mesh using an animal model. Aust N Z J Obstet Gynaecol 2006; 46 (1): 42-45.

265.Klosterhalfen B, Klinge U, Schumpelick V. Functional and morphological evaluation of different polypropylene-mesh modifications for abdominal wall repair. Biomaterials 1998; 19 (24): 2235-2246.

266.Di Vita G, Patti R, Sparacello M et al. Impact of different texture of polypropylene mesh on the inflammatory response. Int J Immunopathol Pharmacol 2008; 21 (1): 207-214.

267.Papadimitriou J, Petros P. Histological studies of monofilament and multifilament polypropylene mesh implants demonstrate equivalent penetration of macrophages between fibrils. Hernia 2005; 9 (1): 75-78.

268.Junge K, Klinge U, Rosch R et al. Functional and morphologic properties of a modified mesh for inguinal hernia repair. World J Surg 2002; 26 (12): 1472-1480.

269.Rosch R, Junge K, Quester R et al. Vypro II mesh in hernia repair: impact of polyglactin on long-term incorporation in rats. Eur Surg Res 2003; 35 (5): 445-450.

270.Weyhe D, Belyaev O, Buettner G et al. In vitro comparison of three different mesh constructions. ANZ J Surg 2008; 78 (1-2): 55-60.

271.Junge K, Rosch R, Krones CJ et al. Influence of polyglecaprone 25 (Monocryl) supplementation on the biocompatibility of a polypropylene mesh for hernia repair. Hernia 2005; 9 (3): 212-217.

272.Bellon JM, Rodriguez M, Garcia-Honduvilla N et al. Partially absorbable meshes for hernia repair offer advantages over nonabsorbable meshes. Am J Surg 2007; 194 (1): 68-74.

273.Bellon JM, Jurado F, Garcia-Honduvilla N et al. The structure of a biomaterial rather than its chemical composition modulates the repair process at the peritoneal level. Am J Surg 2002; 184 (2): 154-159.

278

274.Klinge U, Junge K, Stumpf M et al. Functional and morphological evaluation of a low-weight, monofilament polypropylene mesh for hernia repair. J Biomed Mater Res 2002; 63 (2): 129-136.

275.Muhl T, Binnebosel M, Klinge U, Goedderz T. New objective measurement to characterize the porosity of textile implants. J Biomed Mater Res B Appl Biomater 2008;

84(1): 176-183.

276.Clowes AW, Zacharias RK, Kirkman TR. Early endothelial coverage of synthetic arterial grafts: porosity revisited. Am J Surg 1987; 153 (5): 501-504.

277.Eichhorn SJ, Sampson WW. Statistical geometry of pores and statistics of porous nanofibrous assemblies. J R Soc Interface 2005; 2 (4): 309-318.

278.Frosch KH, Barvencik F, Lohmann CH et al. Migration, matrix production and lamellar bone formation of human osteoblast-like cells in porous titanium implants. Cells Tissues Organs 2002; 170 (4): 214-227.

279.Tsukada H, Osada H. Experimental study of a new tracheal prosthesis: pored Dacron tube. J Thorac Cardiovasc Surg 2004; 127 (3): 877-884.

280.Cooper JA, Lu HH, Ko FK et al. Fiber-based tissue-engineered scaffold for ligament replacement: design considerations and in vitro evaluation. Biomaterials 2005; 26 (13): 1523-1532.

281.Karageorgiou V, Kaplan D. Porosity of 3D biomaterial scaffolds and osteogenesis. Biomaterials 2005; 26 (27): 5474-5491.

282.Zhang Y, Xu HH, Takagi S, Chow LC. In-situ hardening hydroxyapatite-based scaffold for bone repair. J Mater Sci Mater Med 2006; 17 (5): 437-445.

283.Ayers RA, Simske SJ, Nunes CR, Wolford LM. Long-term bone ingrowth and residual microhardness of porous block hydroxyapatite implants in humans. J Oral Maxillofac Surg 1998; 56 (11): 1297-1301; discussion 1302.

284.Bobyn JD, Stackpool GJ, Hacking SA et al. Characteristics of bone ingrowth and interface mechanics of a new porous tantalum biomaterial. J Bone Joint Surg Br 1999; 81 (5): 907-914.

285.Eggli PS, Muller W, Schenk RK. Porous hydroxyapatite and tricalcium phosphate cylinders with two different pore size ranges implanted in the cancellous bone of rabbits.

279

A comparative histomorphometric and histologic study of bony ingrowth and implant

substitution. Clin Orthop Relat Res 1988; (232): 127-138.

286.Deng X, Guidoin R. Alternative blood conduits: assessment of whether the porosity of synthetic prostheses is the key to long-term biofunctionality. Med Biol Eng Comput 2000; 38 (2): 219-225.

287.Bertheville B. Porous single-phase NiTi processed under Ca reducing vapor for use as a bone graft substitute. Biomaterials 2006; 27 (8): 1246-1250.

288.Bragdon CR, Burke D, Lowenstein JD et al. Differences in stiffness of the interface between a cementless porous implant and cancellous bone in vivo in dogs due to varying amounts of implant motion. J Arthroplasty 1996; 11 (8): 945-951.

289.Zellin G, Linde A. Effects of different osteopromotive membrane porosities on experimental bone neogenesis in rats. Biomaterials 1996; 17 (7): 695-702.

290.Akers DL, Du YH, Kempczinski RF. The effect of carbon coating and porosity on early patency of expanded polytetrafluoroethylene grafts: an experimental study. J Vasc Surg 1993; 18 (1): 10-15.

291.Martakos P, Karwoski T. Healing characteristics of hybrid and conventional polytetrafluoroethylene vascular grafts. ASAIO J 1995; 41 (3): M735-741.

292.Peiper C, Junge K, Prescher A et al. Abdominal musculature and the transversalis fascia: an anatomical viewpoint. Hernia 2004; 8 (4): 376-380.

293.Bringman S, Conze J, Cuccurullo D et al. Hernia repair: the search for ideal meshes. Hernia 2010; 14 (1): 81-87.

294.Saberski ER, Orenstein SB, Novitsky YW. Anisotropic evaluation of synthetic surgical meshes. Hernia 2010.

295.Binnebosel M, Rosch R, Junge K et al. Biomechanical analyses of overlap and mesh dislocation in an incisional hernia model in vitro. Surgery 2007; 142 (3): 365-371.

296.Deeken CR, Abdo MS, Frisella MM, Matthews BD. Physicomechanical evaluation of polypropylene, polyester, and polytetrafluoroethylene meshes for inguinal hernia repair. J Am Coll Surg 2011; 212 (1): 68-79.

280