СОВРЕМЕННЫЕ ВОЗМОЖНОСТИ СНИЖЕНИЯ ИНТЕНСИВНОСТИ ГИПЕРМЕТАБОЛИЗМА ПРИ ТЯЖЕЛОЙ ТЕРМИЧЕСКОЙ ТРАВМЕ (ОБЗОР ЛИТЕРАТУРЫ)

В обзоре освещены ключевые аспекты комплексного подхода к модулированию гиперметаболического ответа, позволяющего улучшить результаты лечения пострадавших с тяжелой ожоговой травмой — фармакологические и нефармакологические методы,  раннее энтеральное  питание и дополнительное  назначение  микронутриентов, ранняя  реабилитация  пациентов, индивидуальная оценка потребностей больного в питательных веществах и контроль адекватности проводимой терапии.

1. Peck M.D. Epidemiology of burns throughout the world. Part I: Distribution and risk factors // Burns. – 2011. – Vol. 37, N. 7. – Р. 1087–1100.

2. Brusselaers N., Monstrey S., Vogelaers D., et al. Severe burn injury in Europe: a systematic review of the incidence, etiology, morbidity, and mortality // Crit. Care. – 2010. – Vol. 14, N. 5. – R188.

3. Wolf S. Critical Care in the Severely burned: organ support and management of complications // Total burn care / ed. D.N. Herndon. – 3rd ed. – London: Saunders Elsevier, 2007. – P. 454–476.

4. Смирнов С.В., Лященко Ю.Н., Спиридонова Т.Г., Рык А.А. Энтеральное и парентеральное питание пострадавших с термической травмой // Парентеральное и энтеральное питание: нац. руководство / под ред. М.Ш. Хубутия, Т.С. Поповой, А.И. Салтанова. – М.: ГЭОТАРМедиа, 2014. – С. 351–370.

5. Herndon D.N., Tompkins R.G. Support of the metabolic response to burn injury // Lancet. – 2004. – N. 363. – P. 1895–1902.

6. Герасимова Л.И. Термические ожоги // Искусственное питание в неотложной хирургии и травматологии / под ред. А.С. Ермолова, М.М. Абакумова. – М.: НИИ СП имени Н.В. Склифосовского, 2001. – С. 239–264.

7. Sheridan R.L. A great constitutional disturbance // N. Engl. J. Med. – 2001. – Vol. 345, N. 17. – P. 1271–1272.

8. Yu Y.M., Tompkins R.G., Ryan C.M., Young V.R. The metabolic basis of the increase in energy expenditure in severely burned patients // JPEN J. Parenter. Enteral. Nutr. – 1999. – Vol. 23, N. 3. – P. 160–168.

9. Demling R., Seigne P. Metabolic management of patients with severe burns // World J. Surg. – 2000. – Vol. 24, N. 6. – P. 673–680.

10. Newsome T., Mason A., Pruitt B. Weight loss following thermal injury // Ann. Surg. 1973. – Vol. 178, N. 2. – P. 215–217.

11. Wilmore D.W. Nutrition and metabolism following thermal injury // Clin. Plast. Surg. – 1974. – Vol. 1, N. 4. – P. 603–619.

12. Jeschke M.G., Mlcak R.P., Finnerty C.C., et al. Burn size determines the inflammatory and hypermetabolic response // Crit. Care. – 2007. – Vol. 11, N. 4. – R90.

13. Norbury W.B., Herndon D.N. Modulation of the hypermetabolic response after burn injury // Total burn care / ed. D.N. Herndon D.N. – 3rd ed. – New York: Saunders Elsevier, 2007. – P. 420–433.

14. Zawacki B.E., Spitzer K.W., Mason A.D. Jr., et al. Does increased evaporative water loss cause hypermetabolism in burned patients? // Ann. Surg. – 1970. – Vol. 171, N. 2. – P. 236–240.

15. Wilmore D.W., Mason A.D. Jr., Johnson D.W., Pruitt B.A. Effect of ambient temperature on heat production and heat loss in burn patients // J. Appl. Physiol. – 1975. – Vol. 38, N. 4. – P. 593–597.

16. Williams F.N., Jeschke M.G., Chinkes D.L., et al. Modulation of the hypermetabolic response to trauma: temperature, nutrition, and drugs // J. Am. Coll. Surg. – 2009. – Vol. 208, N. 4. – P. 489–502.

17. Munster A.M., Smith-Meek M., Sharkey P. The effect of early surgical intervention on mortality and cost-effectiveness in burn care, 1978–1991 // Burns. – 1994. – Vol. 20, N. 1. – P. 61–64.

18. Ramzy P.I., Barret J.P., Herndon D.N. Thermal injury // Crit. Care Clin. – 1999. – Vol. 15, N. 2. – P. 333–352, ix.

19. Hart D.W., Wolf S.E., Chinkes D.L., et al. Determinants of skeletal muscle catabolism after severe burn // Ann. Surg. – 2000. – Vol. 232, N. 4. – P. 455–465.

20. Cucuzzo N.A., Ferrando A., Herndon D.N. The effects of exercise programming vs traditional outpatient therapy in the rehabilitation of severely burned children // J. Burn Care Rehabil. – 2001. – Vol. 22, N. 3. – P. 214–220.

21. Murphy K.D., Lee J.O., Herndon D.N. Current pharmacotherapy for the treatment of severe burns // Expert Opin. Pharmacother. – 2003. – Vol. 4, N. 3. – P. 369–384.

22. Herndon D.N., Rodriguez N.A., Diaz E.C., et al. Long-term propranolol use in severely burned pediatric patients: a randomized controlled study // Ann. Surg. – 2012. – Vol. 256, N. 3. – P. 402–411.

23. Herndon D.N., Hart D.W., Wolf S.E., et al. Reversal of catabolism by beta-blockade after severe burns // N. Engl. J. Med. – 2001. – Vol. 345, N. 17. – P. 1223–1229.

24. Ali A., Herndon D.N., Mamachen A., et al. Propranolol attenuates hemorrhage and accelerates wound healing in severely burned adults // Crit. Care. – 2015. – N. 19. – P. 217.

25. Hart D.W., Wolf S.E., Ramzy P.I., et al. Anabolic effects of oxandrolone after severe burn // Ann. Surg. – 2001. – Vol. 233, N. 4. – P. 556–564.

26. Suman O.E., Thomas S.J., Wilkins J.P., et al. Effect of exogenous growth hormone and exercise on lean mass and muscle function in children with burns // J. Appl. Physiol. – 2003. – Vol. 94, N. 6. – P. 2273–2281.

27. Branski L.K., Herndon D.N., Barrow R.E., et al. Randomized controlled trial to determine the efficacy of long-term growth hormone treatment in severely burned children // Ann. Surg. – 2009. – Vol. 250, N. 4. – P. 514–523.

28. Takala J., Ruokonen E., Webster N.R., et al. Increased mortality associated with growth hormone treatment in critically ill adults // N. Engl. J. Med. – 1999. – Vol. 341, N. 11. – P. 785–792.

29. Moller S., Jensen M., Svensson P., Skakkebaek N.E. Insulin-like growth factor 1 (IGF-1) in burn patients // Burns. – 1991. – Vol. 17, N. 4. – P. 279–281.

30. Langouche L., Van den Berghe G. Glucose metabolism and insulin therapy // Crit. Care Clin. – 2006. – Vol. 22, N. 1. – P. 119–129.

31. Gauglitz G.G., Herndon D.N., Kulp G.A., et al. Abnormal insulin sensitivity persists up to three years in pediatric patients post-burn // J. Clin. Endocrinol. Metab. – 2009. – Vol. 94, N. 5. – P. 1656–1664.

32. Gornik I., Vujaklija-Brajkovic A., Renar I.P., et al. A prospective observational study of the relationship of critical illness associated hyperglycaemia in medical ICU patients and subsequent development of type 2 diabetes // Crit. Care. – 2010. – Vol. 14, N. 4. – R130.

33. Pidcoke H.F., Wade C.E., Wolf S.E. Insulin and the burned patient // Crit. Care Med. – 2007. – Vol. 35, N. 9. – Suppl. – S524–S530.

34. Jeschke M.G., Klein D., Herndon D.N. Insulin treatment improves the systemic inflammatory reaction to severe trauma // Ann. Surg. – 2004. – Vol. 239, N. 4. – P. 553–560.

35. Ferrando A.A., Chinkes D.L., Wolf S.E., et al. A submaximal dose of insulin promotes net skeletal muscle protein synthesis in patients with severe burns // Ann. Surg. – 1999. – Vol. 229. – P. 11–18.

36. Dellinger R.P., Levy M.M., Rhodes A., et al. Surviving sepsis campaign: international guidelines for management of severe sepsis and septic shock: 2012 // Crit. Care Med. – 2013. – Vol. 41., N. 2. – P. 580–637.

37. Gore D.C., Wolf S.E., Herndon D.N., et al. Metformin blunts stressinduced hyperglycemia after thermal injury // J. Trauma. – 2003. Vol. 54, N. 3. – P. 555–561.

38. Gore D.C., Herndon D.N., Wolfe R.R. Comparison of peripheral metabolic effects of insulin and metformin following severe burn injury // J. Trauma. – 2005. – Vol. 59, N. 2. – P. 316–322.

39. Luft D., Schmulling R.M., Eggstein M. Lactic acidosis in biguanide treated diabetics: a review of 330 cases // Diabetologia. – 1978. – Vol. 14, N. 2. – P. 75–87.

40. Bailey C.J., Turner R.C. Metformin // N. Engl. J. Med. – 1996. – Vol. 334, N. 9. – P. 574–579.

41. Williams F.N., Branski L.K., Jeschke M.G., et al. What, How, and How Much Should Patients with Burns be Fed? // Surg. Clin. North Am. – 2011. – Vol. 91, N. 3. – P. 609–629.

42. СмирновС.В., Лященко Ю.Н., Рык А.А., Хватов В.Б. Современные подходы к питательной поддержке в интенсивной терапии пациентов с термической травмой в стационаре скорой помощи // Скорая медицинская помощь. – 2010. – № 1. – С. 25–38.

43. Rousseau A.F., Losser M.R., Ichai C., Berger M.M. ESPEN endorsed recommendations: nutritional therapy in major burns // Clin. Nutr. – 2013. – Vol. 32, N. 4. – P. 497–502.

44. Deitch E.A. Intestinal permeability is increased in burn patients shortly after injury // Surgery. – 1990. – Vol. 107, N. 4. – P. 411–416.

45. Mochizuki H., Trocki O., Dominioni L., et al. Mechanism of prevention of postburn hypermetabolism an catabolism by early enteral feeding // Ann. Surg. – 1984. – Vol. 200, N. 3. – P. 297–310.

46. Chiarelli A., Enzi G., Casadei A., et al. Very early nutrition supplementation in burned patients // Am. J. Clin. Nutr. – 1990. – Vol. 51, N. 6. – P. 1035–1039.

47. McDonald W.S., Sharp C.W. Jr. Deitch E.A. Immediate enteral feeding in burn patients is safe and effective // Ann. Surg. – 1991. – Vol. 213, N. 2. – P. 177–183.

48. Venter M., Rode H., Sive A., Visser M. Enteral resuscitation and early enteral feeding in children with major burns-effect on McFarlane response to stress // Burns. – 2007. – Vol. 33, N. 4. – P. 464–471.

49. Barton R., Craft W., Mone M.C., Saffle J. Chemical paralysis reduces energy expenditure in mechanically ventilated trauma patients // J. Burn Care Rehabil. – 1997. – Vol. 18, N. 5. – P. 461–468.

50. Saffle J., Medina E., Raymond J., et al. Use of indirect calorimetry in the nutritional management of burn patients // J. Trauma. – 1985. – Vol. 25, N. 1. – P. 32–39.

51. Swinamer D., Phang P., Jones R., et al. Twenty-four hour energy expenditure in critically ill patient // Crit. Care Med. – 1987. – Vol. 15, N. 7. – P. 637–641.

52. Shaw-Delanty S., Elwyn D., Askanazi J., et al. Resting energy expenditure in injured, septic, and malnourished adult patients on intravenous diets // Clin. Nutr. – 1990. – Vol. 9, N. 6. – P. 305–312.

53. Hester D., Lawson K. Suggested guidelines for use by dietitians in the interpretation of indirect calorimetry data // J. Amer. Diet. Assoc. – 1989. – Vol. 89, N. 1. – P. 100–101.

54. Rimdeika R., Gudaviciene D., Adamonis K., et al. The effectiveness of caloric value of enteral nutrition in patients with major burns // Burns. – 2006. – Vol. 32, N. 1. – P. 83–86.

55. Berger M.M., Revelly J.P., Wasserfallen J.B., et al. Impact of a computerized information system on quality of nutritional support in the ICU // Nutrition. – 2006. – Vol. 22, N. 3. – P. 221–229.

56. Masters B., Aarabi S., Sidhwa F., Wood F. High-carbohydrate, high-protein, low-fat versus low-carbohydrate, high-protein, high-fat enteral feeds for burns // Cochrane Database Syst Rev. – 2012. – Vol. 1. – CD006122.

57. Gibson B.R., Galiatsatos P., Rabiee A., et al. Intensive insulin therapy confers a similar survival benefit in the burn intensive care unit to the surgical intensive care unit // Surgery. – 2009. – Vol. 146, N. 5. – P. 922–930.

58. Pham T.N., Warren A.J., Phan H.H., et al. Impact of tight glycemic control in severely burned children // J. Trauma. – 2005. – Vol. 59, N. 5. – P. 1148–1154.

59. Pidcoke H.F., Wanek S.M., Rohleder L.S., et al. Glucose variability is associated with high mortality after severe burn // J. Trauma. – 2009. – Vol. 67, N. 5. – P. 990–995.

60. Jeschke M.G., Kulp G.A., Kraft R., et al. Intensive insulin therapy in severely burned pediatric patients: a prospective randomized trial // Am. J. Respir. Crit. Care Med. – 2010. –– Vol. 182, N. 3. – P. 351–359.

61. van Zanten A.R., Dhaliwal R., Garrel D., et al. Enteral glutamine supplementation in critically ill patients: a systematic review and metaanalysis // Crit. Care. – 2015. – Vol. 19. – P. 294.

62. Coudray-Lucas C., LeBever H., Cynober L., et al. Ornithine aketoglutarate improves wound healing in severe burn patients: a prospective randomized double-blind trial versus isonitrogenous controls // Crit. Care Med. – 2000. – Vol. 28, N. 6. – P. 1772–1776.

63. Yan H., Peng X., Huang Y., et al. Effects of early enteral arginine supplementation on resuscitation of severe burn patients // Burns. – 2007. – Vol. 33, N. 2. – P. 179–184.

64. Gamliel Z., DeBiasse M., Demling R. Essential microminerals and their response to burn injury // J. Burn Care Rehabil. – 1996. – Vol. 17, N. 3. – P. 264–272.

65. Gottschlich M., Warden G. Vitamin supplementation in the patient with burns // J. Burn Care Rehabil. – 1990. – Vol. 11, N. 3. – P. 275–279.

66. Mayes T., Gottschlich M., Warden G. Clinical nutrition protocols for continuous quality improvement in the outcomes of patients with burns // J. Burn Care Rehabil. – 1997. –Vol. 18, N. 4. – P. 365–368.

67. Barbosa E., Faintuch J., Machado Moreira E.A., et al. Supplementation of vitamin E, vitamin C, and zinc attenuates oxidative stress in burned children: a randomized, double-blind, placebo-controlled pilot study // J. Burn Care Res. – 2009. – Vol. 30, N. 5. – P. 859–866.

68. Tanaka H., Matsuda T., Miyagantani Y., et al. Reduction of resuscitation fluid volumes in severely burned patients using ascorbic acid administration // Arch. Surg. – 2000. –Vol. 135, N. 3. – P. 326–331.

69. Falder S., Silla R., Phillips M., et al. Thiamine supplementation increases serum thiamine and reduces pyruvate and lactate levels in burn patients // Burns. – 2010. – Vol. 36, N. 2. – P. 261–269.

70. Klein G.L., Herndon D.N., Chen T.C., et al. Standard multivitamin supplementation does not improve vitamin D insufficiency after burns // J. Bone Miner. Metab. – 2009. – Vol. 27, N. 4. – P. 502–506.

71. Berger M.M., Baines M., Raffoul W., et al. Trace element supplements after major burns modulate antioxidant status andclinical course by way of increased tissue trace element concentration // Am. J. Clin. Nutr. – 2007. – Vol. 85, N. 5. – P. 1293–300.

72. Magnotti L., Deitch E. Burns, bacterial translocation, gut barrier function, and failure // J. Burn Care Rehabil. – 2005. – Vol. 26, N. 5. – P. 383–391.

73. Fong Y., Marano M., Barber E., et al. Total parenteral nutrition and bowel rest modify the metabolic response to endotoxin in humans // Ann. Surg. – 1989. – Vol. 210, N. 4. – P. 449–454.

74. Barret J.P., Jeschke M.G., Herndon D.N. Fatty infiltration of the liver in severely burned pediatric patients: autopsy findings and clinical implications // J. Trauma. – 2001. – Vol. 51, N. 4. – P. 736–739.

75. Andel H., Rab M., Andel D., et al. Impact of duodenal feeding on the oxygen balance of the splanchnic region during different phases of severe burn injury // Burns. – 2002. – Vol. 28, N. 1. – P. 60–64.

76. Saito H., Trocki O., Alexander J., et al. The effect of route of nutrient administration on the nutritional state, catabolic hormone secretion and gut mucosal integrity after burn injury // JPEN. – 1987. – Vol. 11, N. 1. – P. 1–7.

77. Stroud M., Duncan H., Nightingale J., et al. Guidelines for enteral feeding in adult hospital patients // Gut. – 2003. – Vol. 52. – Suppl 7. – vii1– vii12.

78. Kowal-Vern A., McGill V., Gamelli R. Ischemic necrotic bowel disease in thermal injury // Arch Surg. – 1997. –– Vol. 132, N. 4. – P. 440–443.

79. Markell K.W., Renz E.M., White C.E., et al. Abdominal complications after severe burns // J. Am. Coll. Surg. – 2009. –Vol. 208, N. 5. – P. 940–947.

80. Eisenberg P. Causes of diarrhea in tube-fed patients: a comprehensive approach to diagnosis and management // Nutr. Clin. Pract. – 1993. – Vol. 8, N. 3. – P. 119–123.

81. Kealey G., Aguillar J., Lewis R., et al. Cadaver skin allografts and transmission of human cytomegalovirus to burn patients // J. Am. Coll. Surg. – 1996. – Vol. 182, N. 3. – P. 201–205.

82. Grube B.J., Heimbach D.M., Marvin J.A. Clostridium difficile diarrhea in critically ill burned patients // Arch. Surg. – 1987. – Vol. 122, N. 6. – P. 655–661.

83. Gottschlich M., Warden G., Michel M., et al. Diarrhea in tube-fed burn patients: incidence, etiology, nutritional impact, and prevention // JPEN. – 1988. – Vol. 12, N. 4. – P. 338–345.

84. Whelan K., Schneider S.M. Mechanisms, prevention, and management of diarrhea in enteral nutrition // Curr Opin. Gastroenterol. – 2011. – Vol. 27, N. 2. – P. 152–159.

85. Scaife C.L., Saffle J.R., Morris S.E. Intestinal obstruction secondary to enteral feedings in burn trauma patients // J. Trauma. – 1999. – Vol. 47, N. 5. – P. 859–863.

86. Gump F., Kinney J. Energy balance and weight loss in burned patients // Arch. Surg. – 1971. – Vol. 103, N. 4. –P. 442–448.

87. Zdolsek H.J., Lindahl O.A., Angquist K.A., Sjöberg F. Non-invasive assessment of intercompartmental fluid shifts in burn victims // Burns. – 1998. – Vol. 24, N. 3. – P. 233–240.

88. Streat S., Beddoe A., Hill G. Aggressive nutritional support does not prevent protein loss despite fat gain in septic intensive care patients // J. Trauma. – 1987. – Vol. 27, N. 3. – P. 262–266.

89. Hart D.W., Wolf S.E., Herndon D.N., et al. Energy expenditure and caloric balance after burn: Increased feeding leads to fat rather than lean mass accretion // Ann. Surg. – 2002. – Vol. 235, N. 1. – P. 152–161.

90. Graves C., Saffle J., Morris S. Comparison of urine urea nitrogen collection times in critically ill patients // Nutr. Clin. Pract. – 2005. – Vol. 20. – N. 2. – P. 271–275.

91. Konstantinides F., Radmer W., Becker W., et al. Inaccuracy of nitrogen balance determinations in thermal injury with calculated total urinary nitrogen // J. Burn Care Rehabil. – 1992. – Vol. 13, N. 2. – Pt. 1. – P. 254–260.

92. LeBlanc A., Gogia P., Schneider V., et al. Calf muscle area and strength changes after five weeks of horizontal bed rest // Am. J. Sports Med. – 1988. – Vol. 16, N. 6. – P. 624–629.

93. Greenhalgh D.G., Housinger T.A., Kagan R.J., et al. Maintenance of serum albumin levels in pediatric burn patients: a prospective, randomized trial // J. Trauma. – 1995. – Vol. 39, N. 1. – P. 67–73.

94. Sheridan R.L., Prelack K., Cunningham J.J. Physiologic hypoalbuminemia is well tolerated by severely burned children // J. Trauma. – 1997. – Vol. 43, N. 3. – P. 448–452.

95. Rettmer R., Williamson J., Labbe R., et al. Laboratory monitoring of nutrition status in burn patients // Clin. Chem. – 1992. – Vol. 38, N. 3. – P. 334–337.

96. Cynober L., Prugnaud O., Lioret H., et al. Serum transtyretin levels in patients with burn injury // Surgery. – 1991. – Vol. 109, N. 5. – P. 640–644.

97. Manelli J., Abdetii C., Botti G., et al. A reference standard for plasma proteins is required for nutritional assessment of adult burn patients // Burns. – 1998. – Vol. 24, N. 4. – P. 337–345.

98. Saffrey J.R., Graves C., Cochran A. Nutritional support of the burned patient // Total burn care / ed. D.N. Herndon. – 4th ed. – New York: Saunders Elsevier, 2012. – P. 348–349.

99. Kyle U.G., Nicod L., Raguso C., et al. Fat-free mass change to weight change ratio during refeeding following lung transplantation // Acta Diabetol. – 2003. – Vol. 40, Suppl. 1. – S165–S167.

100. Bachrach L.K. Dual energy X-ray absorptiometry (DEXA) measurements of bone density and body composition: promise and pitfalls // J. Pediatr. Endocrinol. Metab. – 2000. – Vol. 13, Suppl. 2. – S983–S988.