ПРОФИЛАКТИКА ИНФЕКЦИОННЫХ ОСЛОЖНЕНИЙ В ХИРУРГИИ. ЧАСТЬ II

Инфекции, ассоциированные с оказанием медицинской помощи (ИАМП), или внутрибольничные инфекции (ВБИ) (Healthcare associated infections - HAIS) - это инфекции, приобретённые пациентами в процессе лечения и ухода. Инфекционное поражение области хирургического вмешательства (ИOXB, SSI - Surgical site infection) по данным ВОЗ - наиболее частый вид внутрибольничной инфекции (ВБИ) в странах со средним уровнем дохода. ИОХВ встречается у 1/3 больных, перенесших хирургические вмешательства. В обзоре приводятся данные об эпидемиологии и распространенности ИОХВ, а также описываются методы предоперационной профилактики.

инфекционные осложнения, хирургия, профилактика, infectious complications, surgery, prevention

1. Paint-only is equivalent to scrub-and-paint in preoperative preparation of abdominal surgery sites. Ellenhorn J.D. [et al.] // J. Am. Coll. Surg. - 2005; Vol. 201(5) p.:737-41

2. Effect of pre-operative skin preparation on postoperative wound infection. Shirahatti R.G. [et al.] // J. Postgrad. Med. - 1993; Vol.:39(3) p.:134-6

3. Segal C.G. Preoperative skin preparation of cardiac patients / Segal C.G., Anderson J.J. // AORN J. - 2002 - Vol.:76 (5) p.:821-8

4. Rodrigues A.L. Incidence of surgical site infection with pre-operative skin preparation using 10% polyvidone-iodine and 0.5% chlorhexidine-alcohol / Rodrigues A.L., Simoes Mde L. // Rev. Col. Bras. Cir. - 2013 Vol.: 40(6) p.:443-8

5. Minimizing wound contamination in a ‘clean’ surgery: comparison of chlorhexidine-ethanol and povidone-iodine. Sistla S.C. [et al.] // Chemotherapy. - 2010. - Vol.:56(4) p.:261-7

6. Comparison of the efficacy of chlorhexidine gluconate versus povidone iodine as preoperative skin preparation for the prevention of surgical site infections in clean-contaminated upper abdominal surgeries. Srinivas A. [et al.] // Surg. Today - 2014. - Vol.:45 p.:1378-84

7. Paocharoen V. Comparison of surgical wound infection after preoperative skin preparation with 4% chlohexidine and povidone iodine: A prospective randomized trial. Paocharoen V., Mingmalairak C., Apisarnthanarak A. // J. Med. Associ. Thai. - 2009. - Vol.:92(7) p.:898-902

8. Chlorhexidine-alcohol versus povidone-iodine for surgical-site antisepsis / Darouiche R.O. [et al.] // New Engl. J. Med. - 2010. - Vol.:362 p.:18-26

9. Efficacy of surgical preparation solutions in lumbar spine surgery / Savage J.W. [et al.] // J. Bone Joint Surg. (Am). - 2012 - Vol.:94 p.: 490-4

10. A randomized trial comparing skin antiseptic agents at cesarean delivery / Tuuli M.G. [et al.] // New Engl. J. Med. - 2016 - Vol.:374(7) p.: 647-55

11. Systematic review and cost analysis comparing use of chlorhexidine with use of iodine for preoperative skin antisepsis to prevent surgical site infection / Lee I. [et al.] // Infect. Control Hosp. Epidemiol. - 2010. - Vol.:31(12) p.:1219-29

12. Guideline for prevention of surgical site infection, 1999. Centers for Disease Control and Prevention (CDC) Hospital Infection Control Practices Advisory Committee. Mangram A.J. [et al.] // Am. J. Infect. Control. - 1999 - Vol.: 27(2) p.: 97-132; quiz 3-4; discussion 96

13. Dohmen P.M. Impact of antimicrobial skin sealants on surgical site infections / Dohmen P.M. - Surg. Infect. (Larchmt) - 2014. - Vol.:15(4) p.:368-71

14. Influence of preoperative skin sealing with cyanoacrylate on microbial contamination of surgical wounds following trauma surgery: a prospective, blinded, controlled observational study. Daeschlein G. [et al.] // Int. J. Infect. Dis. - 2014 - Vol.: 29 p.: 274-8

15. Microbial sealants do not decrease surgical site infection for clean-contaminated colorectal procedures. / Doorly [et al.] // M. Tech. Coloproctol. - 2015 - Vol.:19(5) p.:281-5

16. Efficacy of integuseal for surgical skin preparation in children and adolescents undergoing scoliosis correction / Dromzee E. [et al.] // Spine. - 2012 - Vol.:37(21) p.:e1331-5

17. Bacterial growth and wound infection following saphenous vein harvesting in cardiac surgery: a randomized controlled trial of the impact of microbial skin sealant / Falk-Brynhildsen K. [et al.] // Europ. J. Clin. Microbiol. Infect. Dis. - 2014 - Vol.:33(11) p.:1981-7

18. Reduction of surgical site infection using a microbial sealant: a randomized trial / Iyer A. [et al.] // J. Thorac. Cardiovasc. Surg. - 2011. - Vol.: 142(2) p.: 438-42

19. Significant reduction in incidence of wound contamination by skin flora through use of microbial sealant / Towfigh S [et al.] // Arch Surg. - 2008 - Vol.: 143(9) p.: 885-91; discussion 91

20. Cyanoacrylate skin microsealant for preventing surgical site infection after vascular surgery: a discontinued randomized clinical trial / Vierhout B.P. [et al.] // Surg. Infect. (Larchmt). - 2014 - Vol.: 15(4) p.: 425-30

21. A randomized trial of a skin sealant to reduce the risk of incision contamination in cardiac surgery / von Eckardstein A.S. [et al.] // Ann. Thorac. Surg. - 2011 Vol.: 92(2) p.: 632-7

22. Roy P. Serious adverse events after microbial sealant application in paediatric patients / Roy P., Loubiere A., Vaillant T., Edouard B. // Ann Pharm Fr. - 2014 - Vol.: 72(6) p.: 409-14

23. Cyanoacrylate microbial sealants for skin preparation prior to surgery / Lipp A. [et al.] // Cochrane Database Syst. Rev. - 2013 Vol: 8:CD008062

24. WHO guidelines on hand hygiene in health care. Geneva: World Health Organization - 2009 - URL: http://apps.who.int/iris/bitstream/10665/44102/1/9789241597906_eng.pdf (accessed 24 July 2016)

25. Clusterrandomized, crossover trial of the efficacy of plain soap and water versus alcohol-based rub for surgical hand preparation in a rural hospital in Kenya. Nthumba P.M. [ et al.] // Br. J. Surg. - 2010 - Vol.: (11) p.:1621-8

26. Alcohol-based hand-rub versus traditional surgical scrub and the risk of surgical site infection: a randomized controlled equivalent trial / Al-Naami M.Y. [et al.]// EWMA J. - 2009 - Vol.: 9(3) p.:5-10

27. Weight C.J. Avagard hand antisepsis vs. traditional scrub in 3600 pediatric urologic procedures / Weight C.J., Lee M.C., Palmer J.S// Urology - 2010 - Vol.: 76(1) p.:15-7

28. Clinical implementation of a scrubless chlorhexidine/ethanol pre-operative surgical handrub / Marchand R. [ et al.] // Can. Oper. Room. Nurs. J. - 2008 - Vol.: 26(2) p.:21-2, 6, 9-2231

29. Value of hand disinfection by rubbing with alcohol prior to surgery in a tropical setting / Adjoussou S. [et al.] // Med. Trop. - 2009 - Vol.:69(5) p.: 463-6

30. Mainous M.R. Nutrition and infection / Mainous M.R., Deitch E.A. // Surg Clin North Am. -1994 - Vol.:74(3) p.: 659-76

31. Culebras J.M. Malnutrition in the twenty-first century: an epidemic affecting surgical outcome. / Culebras J.M. // Surg. Infect (Larchmt) - 2013 Vol.: 14(3) p.: 237-43

32. Waitzberg D.L., Ravacci G.R., Raslan M. Hospital hyponutrition / Waitzberg D.L., Ravacci G.R., Raslan M. // Nutr Hosp. - 2011 Vol.: 26(2) p.: 254-64

33. Studley H.O. Percentage of weight loss: a basic indicator of surgical risk in patients with chronic peptic ulcer. 1936. / Studley H.O.// Nutr. Hosp. - 2001 Vol.: 16(4) p.:141-3; discussion 0-1

34. Nutrition in the surgical patient: immunonutrition / Culebras-Fernandez J.M. [et al.] // Nutr Hosp. - 2001 Vol.: 16(3) p.: 67-77

35. Fry D.E. Fifty ways to cause surgical site infections. Surg. Infect. / Fry D.E. // Larchmt. - 2011 - Vol.: 12(6) p.:497-500

36. Di Carlo V. Complications of pancreatic surgery and the role of perioperative nutrition. [et al.] // Dig. Surg. - 1999. - Vol.: 16(4) p.: 320-6

37. Mazaki T., Ishii Y., Murai I. Immunoenhancing enteral and parenteral nutrition for gastrointestinal surgery: a multiple-treatments metaanalysis. / Mazaki T., Ishii Y., Murai I. // Ann. Surg. - 2015 - Vol.: 261(4) p.: 662-9

38. The impact of perioperative glutamine-supplemented parenteral nutrition on outcomes of patients undergoing abdominal surgery: a meta-analysis of randomized clinical trials / Yue C. [et al.]// Am. Surg. - 2013. - Vol.: 79(5) p.: 506-13

39. The role of immunonutrition in gynecologic oncologic surgery / Celik J.B. [et al.] // Europ. J. Gynaecol. Oncol. - 2009 - Vol.: 30(4) p.: 418-21

40. Reduced infections with perioperative immunonutrition in head and neck cancer: exploratory results of a multicenter, prospective, randomized, doubleblind study /Falewee M.N. [et al.] // Clin. Nutr. - 2014 - Vol.: 33(5) p.: 776-84

41. Prospective randomized trial of preoperative enteral immunonutrition followed by elective total gastrectomy for gastric cancer / Fujitani K. [et al.] // Br. J. Surg. - 2012 - Vol.: 99(5) p.: 621-9

42. The immunomodulating enteral nutrition in malnourished surgical patients - a prospective, randomized, double-blind clinical trial / Klek S. [et al.] // Clin. Nutr. - 2011 - Vol.: 30(3) p.: 282-8

43. Effect of preoperative oral immuneenhancing nutritional supplement on patients at high risk of infection after cardiac surgery: a random- ised placebo-controlled trial. / Tepaske R. [et al.] // Lancet. - 2001 - Vol.: 358(9283) p.: 696-701

44. Immunoenhanced enteral nutrition formulas in head and neck cancer surgery: a prospective, randomized clinical trial / Casas-Rodera P. [et al.] // Nutr. Hosp. - 2008 - Vol.: 23(2) p.: 105-10

45. Randomized clinical trial with an enteral arginine-enhanced formula in early postsurgical head and neck cancer patients / de Luis D.A. [et al.] // Europ. J. Clin. Nutr. - 2004 - Vol.: 58(11) p.: 1505-8

46. High dose of arginine enhanced enteral nutrition in postsurgical head and neck cancer patients. A randomized clinical trial. / De Luis DA. [et al.] // Europ. Rev. Med. Pharmacol. Sci. - 2009 - Vol.: 13(4) p.: 279-83

47. Effects of branched-chain amino acids-enriched nutrient support for patients undergoing liver resection for hepatocellular carcinoma / Okabayashi T. [et al.]// J. Gastroenterol Hepatol. - 2008 - Vol.: 23(12) p.: 1869-73

48. Berthold E. Continuation of TNF blockade in patients with inflammatory rheumatic disease. An observational study on surgical site infections in 1,596 elective orthopedic and hand surgery procedures / Berthold E., Geborek P., Gulfe A.// Acta Orthop. - 2013 - Vol.: 84(5) p.: 495-501

49. Immunosuppressive therapy does not increase operative morbidity in patients with Crohn's disease / Bafford AC [et al.] // J. Clin. Gastroenterol. - 2013 - Vol.:47(6) p.: 491-5

50. Strategies to prevent surgical site infectionsion acute care hospitals: 2014 update. / Anderson D.J. [et al.] // Infect. Control. Hosp. Epidemiol. - 2014 - 35(6) p.: 605-27

51. Effects of supplemental oxygen and dexamethasone on surgical site infection: a factorial randomized trial double dagger / Kurz A. [et al.] // Br. J. Anaesth. -2015 - Vol.: 115(3) p.: 434-43

52. The role of oxygen in wound healing: a review of the literature. / Rodriguez P.G. [et al.] // Dermatol Surg. - 2008 - Vol.: 34(9) p.: 1159-69

53. Wound hypoxia and acidosis limit neutrophil bacterial killing mechanisms / Allen D.B. [et al.]// Arch Surg. - 1997 - Vol.: 132(9) p.: 991-6

54. Hays R.C. PO2, pH, and redox potential of experimental abscesses / Hays R.C., Mandell G.L. // Proc. Soc. Exper. Biol. Medic. Soc. - 1974 - vol.: 147(1) p.: 29-30

55. Improving surgical site infection prevention practices through a multifaceted educational intervention /Owens P. [et al.] // Ir. Med J. - 2015 - Vol.: 108(3) p.: 78-81

56. Guidelines: Prevention and treatment of surgical site infection: Summary of NICE guidance. / Leaper D. [et al.] // BMJ. - 2008 - Vol.: 337(7677) p.: 1049-51

57. Strategies to prevent surgical site infections in acute care hospitals: 2014 update. / Anderson D.J. [et al.] // Infect. Control. Hosp. Epidemiol. - 2014 - Vol.: 35(06) p.: 605-27

58. Increased long-term mortality after a high perioperative inspiratory oxygen fraction during abdominal surgery: follow-up of a randomized clinical trial / Meyhoff C.S [et al.] // Anesth. Analg. - 2012 - Vol.: 115(4) p.: 849-54

59. Avoidance of nitrous oxidefor patients undergoing major surgery: a randomized controlled trial. / Myles P.S. [et al.] // Anesthesiology. - 2007 - Vol.: 107(2) p.: 221-31

60. Hall J.E. Textbook of medical physiology. 12th edition. / Hall J.E., Guyton A.C., editors. // London: Elsevier Saunders; - 2011

61. Sessler D.I. Mild perioperative hypothermia. / Sessler D.I. // New Engl. J. Med. - 1997 - Vol.: 336(24) p.: 1730-7

62. Sessler D.I. Physiologic responses to mild perianesthetic hypothermia in humans. / Sessler D.I., Rubinstein E.H., Moayeri A. // Anesthesiology. - 1991 - Vol.: 75(4) p.: 594-610

63. The effects of mild perioperative hypothermia on blood loss and transfusion requirement. / Rajagopalan S. [et al.] // Anesthesiology. - 2008 - Vol.: 108(1) p.: 71-7

64. Mild hypothermia alters propofol Pharm acokinetics and increases the duration of action of atracurium. / Leslie K. [et al.] // Anesthes Analg. - 1995 - Vol.: 80(5) p.: 1007-14

65. The effects of local warming on surgical site infection / Whitney J.D. [et al.] // Surg. Infect. (Larchmt). - 2015 - Vol.: 16(5) p.: 595-603

66. Torossian A. Thermal management during anaesthesia and thermoregulation standards for the prevention of inadvertent perioperative hypothermia. / Torossian A. // Best Pract. Res Clin. Anaesthesiol. - 2008 - Vol.: 22(4) p.: 659-68

67. Kurz A. Perioperative normothermia to reduce the incidence of surgical-wound infection and shorten hospitalization. Study of Wound Infection and Temperature Group. Kurz A., Sessler D.I., Lenhardt R. New Engl. J. Med. - 1996 - Vol.: 334(19) p.: 1209-15

68. Effects of preoperative warming on the incidence of wound infection after clean surgery: a randomised controlled trial. / Melling A.C. [et al.] // Lancet. - 2001 Vol.: 358(9285) p.: 876-80

69. Perioperative cost-finding analysis of the routine use of intraoperative forced-air warming during general anesthesia. / Fleisher L.A. [et al.] // Anesthesiology. - 1998 Vol.: 88(5) p.: 1357-64

70. Mahoney C.B. Maintaining intraoperative normothermia: a metaanalysis of outcomes with costs. / Mahoney C.B., Odom J. // AANA J. - 1999 - Vol.: 67(2) p.: 155-63

71. Berry D. A clinical evaluation of the cost and time effectiveness of the ASPAN hypothermia guideline. / Berry D., Wick C., Magons P. // J. Perianesthes Nurs. - 2008 - Vol.: 23(1) p.: 24-35

72. Postoperative hyperglycemia and surgical site infection in general surgery patients /Ata A. [et al.] // Arch. Surg. - 2010 - Vol.: 145(9) p.: 858-64

73. Kao L.S. Glycemic control and prevention of surgical site infection. / Kao L.S., Phatak U.R. // Surg. Infect. (Larchmt). - 2013 - Vol.: 14(5) p.: 437-44

74. Perioperative hyperglycemia and risk of adverse events among patients with and without diabetes. /Kotagal M. [et al.] // Ann Surg. - 2015 - Vol.: 261(1) p.: 97-103

75. Stress hyperglycemia and surgical site infection in stable nondiabetic adults with orthopedic injuries / Richards J.E. [ et al.] // J. Trauma Acute Care Surg. - 2014 Vol.: 76(4) p.: 1070-5

76. Emam I.A. [et al.] //Our experience of controlling diabetes in the perioperative period of patients who underwent cardiac surgery. Diabetes Res. Clin. Pract. - 2010 - Vol.: 88(3) p.: 242-6

77. Does continuous insulin therapy reduce postoperative supraventricular tachycardia incidence after coronary artery bypass operations in diabetic patients? / Kirdemir P. [et al.] // J. Cardiothorac. Vasc. Anesth. - 2008 - Vol.: 22(3) p.: 383-7

78. Intensive versus conventional glycemic control in patients with diabetes during enteral nutrition after gastrectomy / Yuan J. [et al.] // J. Gastrointest. Surg. - 2015 19(8):1553-8

79. Effects of intravenous fluid restriction on postoperative complications: comparison of two perioperative fluid regimens: a randomized assessor-blinded multicenter trial. / Brandstrup B. [et al.] // Ann. Surg. - 2003 - Vol.: 238(5) p.: 641-8

80. Supplemental intravenous crystalloid administration does not reduce the risk of surgical wound infection. / Kabon B. [et al.] // Anesth Analg. - 2005 - Vol.: 101(5) p.: 1546-53

81. Randomised controlled trial assessing the impact of a nurse delivered, flow monitored protocol for optimisation of circulatory status after cardiac surgery / McKendry M. [et al.] // BMJ. 2004 - Vol.: 329(7460) p.: 258

82. Early goal-directed therapy after major surgery reduces complications and duration of hospital stay. A randomised, controlled trial [ISRCTN38797445]. / Pearse R. [et al.] // Crit Care. - 2005 - Vol.: 9(6) p.: R687-93

83. Intravenous fluid restriction after major abdominal surgery: a randomized blinded clinical trial. / Vermeulen H. [et al.] // Trials. - 2009 - Vol.: 10 p.: 50

84. Effect of intraoperative fluid management on outcome after intraabdominal surgery. / Nisanevich V. [et al.] // Anesthesiology. 2005 - Vol.: 103(1) p.:25-32

85. Ring drape do not protect against surgical site infections in colorectal surgery: a randomised controlled study / Baier P. [et al.] // Int. J. Colorectal. Dis. - 2012 Vol.: 27(9) p.: 1223-8

86. Multicenter double-blinded randomized controlled trial of standard abdominal wound edge protection with surgical dressings versus coverage with a sterile circular polyethylene drape for prevention of surgical site infections: a CHIRNet trial (BaFO; NCT01181206). /Mihaljevic A.L. [et al.]// Ann Surg. - 2014 - Vol.: 260(5) p.: 730-7; discussion 7-9

87. Impact of wound edge protection devices on surgical site infection after laparotomy: multicentre randomised controlled trial (ROSSINI Trial). / Pinkney T.D. [et al.] // BMJ. - 2013 - Vol.: 347 p.: f4305

88. Use of an impervious wound-edge protector to reduce the postoperative wound infection rate / Redmond H.P. [et al.] // Br. J. Surg. - 1994 - Vol.: 81(1811)

89. ALEXIS O-Ring wound retractor vs conventional wound protection for the prevention of surgical site infections in colorectal resections (1). / Cheng K.P. [et al.] // Colorectal Dis. - 2012 - Vol.: 14(6) p.: e346-51

90. Barrier wound protection decreases surgical site infection in open elective colorectal surgery: a randomized clinical trial. /Reid K. [et al.] // Dis Colon Rectum. - 2010 - Vol.: 53(10) p.: 1374-80

91. A prospective randomized study for evaluation of wound retractors in the prevention of incision site infections after cesarean section. / Theodoridis T.D. [et al.] // Clin Exper Obstet Gynecol. - 2011 - Vol.: 38(1) p.:57-9

92. Efficacy of dilute betadine solution irrigation in the prevention of postoperative infection of spinal surgery. / Cheng M.T. [et al.] // Spine. - 2005 - Vol.: 30(15) p.:1689-93

93. Can povidoneiodine solution be used safely in a spinal surgery? / Chang F.Y. [et al.] // Europ. Spine J. - 2006 - Vol.: 15(6) p.:1005-14

94. Rogers D.M. Povidoneiodine wound irrigation and wound sepsis. / Rogers D.M., Blouin G.S., O'Leary J.P. // Surg. Gynecol. Obstet. - 1983 - Vol.: 157(5) p.: 426-30

95. Combined topical povidone-iodine and systemic antibiotics in postappendicectomy wound sepsis. / Lau W.Y. [et al.] // Br. J. Surg. - 1986 - Vol.: 73(12) p.: 958-60

96. Intra-operative peritoneal lavage--who does it and why? /Whiteside O.J. [et al.] // Ann. R. Col. Surg. Engl. - 2005 - Vol.: 87(4) p.: 255-8

97. Measures to prevent surgical site infections: what surgeons (should) do. / Diana M. [et al.] // World J. Surg. - 2011 - Vol.: 35(2) p.: 280-8

98. Survey of intraoperative povidoneiodine application to prevent surgical site infection in a French region. / Pivot D. [et al.] // J. Hosp. Infection. - 2011 - Vol.: 77(4):363-4

99. Strategies to prevent surgical site infections in acute care hospitals: 2014 update. / Anderson D.J. [et al.] // Infect. Control Hosp. Epidemiol. - 2014 - Vol.: 35(6) p.: 605-27

100. Toxic effects of wound irrigation solutions on cultured tibiae and osteoblasts. / Kaysinger K.K. [et al.] // J. Orthop Trauma. - 1995 - Vol.: 9(4) p.: 303-11

101. Cellular and bacterial toxicities of topical antimicrobials. / Lineaweaver W. [et al.] // Plast. Reconstr. Surg. - 1985 - Vol.: 75(3) p.: 394-6

102. lister formation with negative pressure dressings after total knee arthroplasty. /Howell R.D. [et al.] // Curr. Orthop. Pract. - 2011 - Vol.: 22(2) p.: 176-9

103. Negative pressure wound therapy after severe open fractures: a prospective randomized study. / Stannard J.P. [et al.] // J. Orthop. Trauma. - 2009 - Vol.: 23(8) p.: 552-7

104. Negative pressure wound therapy for critically ill adults with open abdominal wounds: a systematic review. / Roberts D.J. [et al.] // J. Trauma Acute Care Surg. - 2012 - Vol.: 73(3) p.: 629-39

105. Prophylactic use of negative pressure wound therapy after cesarean delivery. / Echebiri N.C. [et al.] // Obstet. Gynecol. - 2015 - Vol.: 125(2) p.: 299-307

106. Cost of care using prophylactic negative pressure wound vacuum on closed laparotomy incisions. / Lewis L.S. [et al.] // GynecolOncol. - 2014 - Vol.: 132(3) p.: 684-9

107. ost-utility analysis of negative pressure wound therapy in high-risk cesarean section wounds. / Tuffaha H.W. [et al.] // J. Surg. Res. - 2015 - Vol.:195(2) p.: 612-22

108. Tanner J. Double gloving to reduce surgical cross-infection. / Tanner J, Parkinson H. // Cochrane Database Syst. Rev. - 2009 - Vol.: (4)

109. Influence of rescrubbing before laparotomy closure on abdominal wound infection after colorectal cancer surgery: results of a multicenter randomized clinical trial. / Ortiz H. [et al.] // Arch Surg. - 2012 - Vol.: 147(7) p.: 614-20

110. Surgical site infection rates following implementation of a colorectal closure bundle in elective colorectal surgeries. / Ghuman A. [et al.] // Dis. Colon Rectum. - 2015 - Vol.: 58(11) p.: 1078-82

111. The effect of triclosan-coated sutures in wound healing. A double blind randomised prospectivepilot study. / Deliaert A.E. [et al.] // J. Plast. Reconstr Aesth Surg. - 2009 - Vol.: 62(6) p.: 771-3

112. ussell A.D. Whither triclosan? / Russell A.D. // J. Antimicrob. Chemother. - 2004 - Vol.: 53(5) p.: 693-5

113. Molecular basis of triclosan activity. / Levy C.W. [et al.] // Nature. - 1999 - vol.: 398(6726) p.: 383-4

114. McMurry L.M. Triclosan targets lipid synthesis. / McMurry L.M., Oethinger M., Levy S.B. // Nature. - 1998 - vol.: 394(6693) p.: 531-2. 115.Study of the efficacy of coated Vicryl plus antibacterial suture in an animal model of orthopedic surgery. / Marco F. [et al.] // Surg. Infect. (Larchmt). 2007; - Vol.: 8(3) p.: 359-65

115. In vitro antimicrobial evaluation of coated VICRYL* Plus antibacterial suture (coated polyglactin 910 with triclosan) using zone of inhibition assays. / Rothenburger S. [et al.] // Surg. Infect. (Larchmt). - 2002 - Vol.: 3(Suppl. 1) p.: 79-87

116. Storch M.L., Rothenburger S.J., Jacinto G. Experimental efficacy study of coated VICRYL plus antibacterial suture in guinea pigs challenged with Staphylococcus aureus. / Storch M.L., Rothenburger S.J., Jacinto G. // Surg. Infect. (Larchmt). - 2004 - Vol.: 5(3) p.: 281-8

117. New anti-infective coatings of surgical sutures based on a combination of antiseptics and fatty acids. / Matl F.D. [et al.] // J. Biomat. Sci. - 2009 Vol.: 20(10) p.: 1439-49

118. Novel high efficient coatings for anti-microbial surgical sutures using chlorhexidine in fatty acid slow-release carrier systems. / Obermeier A. [et al.] // PloS One. - 2014 - Vol.: 9(7) p.: e101426

119. Galal I. Impact of using triclosan-antibacterial sutures on incidence of surgical site infection. / Galal I., El-Hindawy K. // Am. J. Surg. - 2011 - Vol.: 202(2) p.: 133-8

120. Triclosan-coated sutures reduce the incidence of wound infections and the costs after colorectal surgery: a randomized controlled trial. / Nakamura T. [et al.] // Surgery. - 2013 - Vol.: 153(4) p.: 576-83

121. Triclosan-coated sutures for the reduction of sternal wound infections: economic considerations. / Fleck T. [et al.] // Ann. Thorac. Surg. - 2007 - Vol.: 84(1) p.: 232-6

122. Prospective randomised comparison of single-dose versus multiple-dose cefuroxime for prophylaxis in coronary artery bypass grafting. / Nooyen S.M. [et al.] // Europ. J. Clin. Microbio.l Infect. Dis. - 1994 - Vol.: 13(12) p.: 1033-7

123. omparative study of single-dose and 24-hour multiple-dose antibiotic prophylaxis for cardiac surgery. / Tamayo E. [et al.] // J. Thorac. Cardiovasc. Surg. - 2008 - Vol.: 136(6) p.: 1522-7

124. Single-dose versus single-day antibiotic prophylaxis for orthognathic surgery: a prospective, randomized, double-blind clinical study. / Danda A.K. [et al.] // J. Oral Maxillofac. Surg. - 2010 - Vol.: 68(2) p.: 344-6

125. Antibiotic prophylaxis for bilateral sagittal split osteotomies: a randomized, double-blind clinical study. / Wahab P.U.A. [et al.] // Int. J. Oral Maxillofac. Surg. - 2013 - Vol.: 42(3) p.: 352-5

126. Prospective randomized study of efficacy of 1-day versus 3-day antibiotic prophylaxis for preventing surgical site infection after coronary artery bypass graft. / Lin M.H. [et al.] // J. Form Med. Assoc. - 2011 - Vol.: 110(10) p.: 619-26

127. Antibiotic prophylaxis for orthognathic surgery: a prospective, randomised clinical trial. / Baqain Z.H. [et al.] // The Br. J. Oral. Maxillofac. Surg. - 2004 - Vol.: 42(6) p.: 506-10

128. Value of prophylactic postoperative antibiotic therapy after bimaxillary orthognathic surgery: A clinical trial. / Eshghpour M. [et al.] // Iran J. Otorhinolaryngol. - 2014 - Vol.: 26(77) p.: 207-10

129. Fridrich K.L. Prospective analysis of antibiotic prophylaxis for orthognathic surgery. / Fridrich K.L., Partnoy B.E., Zeitler D.L. // Int. J. Adult Orthodon. Orthognath. Surg. 1994;9(2):129-31

130. Dickinson Jennings C. A prospective, randomized controlled trial comparing 3 dressing types following sternotomy. Dickinson Jennings C., Culver Clark R., Baker J.W. Ostomy Wound Manage. - 2015 - Vol.: 61(5) p.: 42-9

131. Vogt K.C. Moist wound healing compared with standard care of treatment of primary closed vascular surgical wounds: a prospective randomized controlled study. / Vogt K.C., Uhlyarik M., Schroeder T.V. // Wound Repair Regen. - 2007 - Vol.: 15(5) p.: 624-7

132. ffect of three wound dressings on infection, healing comfort, and cost in patients with sternotomy wounds: a randomized trial. /Wynne R. [et al.] // Chest. - 2004 - Vol.: 125(1) p.: 43-9

133. Michie D.D. Influence of occlusive and impregnated gauze dressings on incisional healing: a prospective, randomized, controlled study. / Michie D.D., Hugill J.V. // Ann. Plast. Surg. - 1994 - Vol.: 32(1) p.: 57-64

134. Galandiuk S. Postoperative irrigation-suction drainage after pelvic colonic surgery. A prospective randomized trial. Galandiuk S., Fazio V.W. Dis Colon Rectum. - 1991 - Vol.: 34(3) p.: 223-8

135. andomized trial of drainage of colorectal anastomosis. / Sagar P.M. [et al.] // Br. J. Surg. - 1993 - Vol.: 80(6) p.: 769-71

136. erliner S.D., Burson L.C., Lear P.E. Use and a buse of intraperitoneal drains in colon surgery. / Berliner S.D., Burson L.C., Lear P.E. // Arch Surg. -1964 - Vol.: 89 p.: 686-9

137. The effect of surgical drainage materials oncolonic healing. / Smith S.R. [et al.] // Br. J. Surg. - 1982 - Vol.: 69(3) p.:153-5