References
- Toosie K, Gallego K, Stabile BE, Schaber B, French S, de Virgilio C. Fibrin glue reduces intra-abdominal adhesions to synthetic mesh in a rat ventral hernia model. Am Surg. 2000; 66: 41–5
- Muller SA, Treutner KH, Haase G, Kinzel S, Tietze L, Schumpelick V. Effect of intraperitoneal anti adhesive fluids in a rat peritonitis model. Arch Surg. 2003; 138: 286–90
- Baykal A, Ozdemir A, Renda N, Korkmaz A, Sayek I. The effect of octreotide on postoperative adhesion formation. Can J Surg. 2000; 43: 43–7
- Menzies D, Ellis H. Intestinal obstruction from adhesions: how big is the problem?. Ann R Coll Surg Eng. 1990; 72: 60–3
- Kucukozkan T, Ersoy B, Uygur D, Gundogdu C. Prevention of adhesions by sodium chromoglycate, dexamethasone, saline and aprotinin after pelvic surgery. ANZ J Surg. 2004; 74: 1111–5
- Van Goor H, De Graaf JS, Grond J, Sluiter WJ, van der Meer J, Bom VJ, et al. Fibrinolytic activity in the abdominal cavity of rats with faecal peritonitis. Br J Surg. 1994; 81: 1046–9
- van Goor H, Bom VJ, van der Meer J, Sluiter WJ, Bleichrodt RP. Coagulation and fibrinolytic responses of human peritoneal fluid and plasma to bacterial peritonitis. Br J Surg. 1996; 83: 1133–5
- Konukoglu D, Iymen H, Zylan E. Antioxidant status in experimental peritonitis. effects of alpha tocopherol and taurin. Pharmacol Res. 1999; 39: 247–51
- Wittmann DH, Schein M, Condon RE. Management of secondary peritonitis. Ann Surg. 1996; 224: 10
- Harke HP. Octenidine dihydrochloride, properties of a new antimicrobial agent. Int J Hyg Environ Med. 1989; 188: 188–93
- Heeg P. Antisepsis of mucous membranes – current status and aspects of future development. Z Gesamte Hyg Ihre Grenzgeb. 1990; 36: 83–6
- Bothin C, Okada M, Midtvedt T, Perbeck L. The intestinal flora influences adhesion formation around surgical anastomoses. Br J Surg. 2001; 88: 143–5
- Erenoglu C, Akin ML, Aydin S, Filiz E, Batkin A. The prophylactic effects of interferon and vitamin E on postoperative peritoneal adhesions. J Curr Surg. 1997; 11: 195–204
- Di Zerega GS. Biochemical events in peritoneal tissue repair. Eur J Surg. 1997, (suppl577): 10–16
- Menzies D. Postoperative adhesions: their treatment and relevance in clinical practice. Ann R Coll Surg Eng. 1993; 75: 147–53
- Raftery AT. Regeneration of parietal and visceral peritoneum: an enzyme histochemical study. J Anat. 1976; 121: 589–97
- DeCherney AH, di Zegera GS. Clinical problem of intraperitoneal postsurgical adhesion formation following general surgery and the use of adhesion prevention barriers. Surg Clin Am. 1997; 77: 671–88
- Holmdahl L. Making and covering of surgical footprints. Lancet. 1999; 353: 1456–7
- Maleckas A, Daubaras V, Vaitkus V, Aniuliene A, Dirzinauskas E, Rakauskas M. Increased postoperative peritoneal adhesion formation after the treatment of experimental peritonitis with chlorhexidine. Langenbecks Arch Surg. 2004; 389: 256–60
- van Westreenen M, van den Tol PM, Pronk A, Marquet RL, Jeekel J, Leguit P. Perioperative lavage promotes intraperitoneal adhesion in the rat. Eur Surg Res. 1999; 31: 196–201
- Janik JS, Nagaraj HS, Groff DB. Prevention of postoperative peritoneal adhesions: efficacy of povidone. Arch Surg. 1982; 117: 1321–4
- Ivarsson ML, Holmdahl L, Franzen G, Risberg B. Costs of bowel obstruction from adhesions. Eur J Surg. 1997; 163: 679–84
- Holmdahl L, Riskberg B. Adhesions prevention and complications in general surgery. Eur J Surg. 1997; 163: 169–74
- Parlakgumus A, Baykal A, Aran Ö. An unusual cause of chemical peritonitis. Acta Chir Belg. 2005; 105: 322–3