La quemadura repercute en prácticamente todos los dominios del estado de salud al desencadenar una dramática respuesta a la agresión que puede conducir a la sepsis, la falla múltiple de órganos y la muerte. Los supervivientes pueden exhibir secuelas que requerirán tratamientos quirúrgicos especializados dilatados en el tiempo. El apoyo nutricional es indispensable en todo momento para asegurar la mejor respuesta del huésped a la agresión y la reducción del riesgo de complicaciones junto al acortamiento de la estadía hospitalaria; a la vez que el arraigo de los injertos de piel y el sostén de la reparación y cicatrización tisulares. Debe reconocerse el hipermetabolismo que acompaña a la quemadura. Se requiere evaluar continuamente la capacidad del huésped de sostener el estado nutricional del uso de la vía oral y de utilizar adecuadamente los nutrientes aportados. El apoyo nutricional debe iniciarse tan pronto culmine la resucitación y la reanimación del quemado, y se asegure la estabilidad hemodinámica y la perfusión tisular. Si bien la vía oral debería preferirse para alimentar al paciente, la colocación de sondas nasoenterales podría ser necesaria en muchos de ellos para evitar baches en la provisión de nutrientes. La prescripción dietética podría complementarse con nutrientes enterales de alta densidad energética en aras de satisfacer los elevados requerimientos nutricionales constatados en el quemado. Se han descrito dietas de inmunomodulación que incorporan antioxidantes, glutamina y nucleótidos para uso en el
apoyo nutricional del quemado, pero los resultados obtenidos con su administración han sido mixtos. La implementación de esquemas de nutrición parenteral obligaría a discutir sobre las mejores (posibles) vías de acceso en un enfermo que puede mostrar lesiones corporales extensas. Las complicaciones que se originen de la implementación y conducción de las terapias nutricionales deben ser identificadas tempranamente, corregidas adecuadamente, y prevenidas en última instancia. La complejidad clínico-metabólica de la quemadura justifica el diseño,
implementación y gestión de un programa de intervención alimentaria, nutrimental y metabólica
en el Servicio de Quemados que provea a los grupos básicos con pautas y normas de actuación en
cada momento de la evolución del paciente.

Quemadura; Apoyo nutricional; Nutrición artificial; Metabolismo; Nutrición enteral; Nutrición parenteral

Muller MJ, Herndon DN. The challenge of burns. The Lancet 1994;343(8891):216-20.

Pruitt BA, Mason A. Epidemiological, demographic, and outcome characteristics of burn injury. En: Total Burn Care [Editor: Herndon D]. Saunders Co: 1996. Volumen 13.

Tredget EE, Yu YM. The metabolic effects of thermal injury. World J Surg 1992;16:68-79.

Klein MB, Goverman J, Hayden DL, Fagan SP, McDonald-Smith GP, Alexander AK; et al. Benchmarking

outcomes in the critically injured burn patient. Annals Surg 2014;259:833.

Anzarut A, Chen M, Shankowsky H, Tredget EE. Quality-of-life and outcome predictors following massive burn

injury. Plastic Reconstruc Surg 2005;116:791-7.

Muller MJ, Pegg SP, Rule MR. Determinants of death following burn injury. Brit J Surg 2001;88:583-7.

Dylewski ML, Prelack K, Weber JM, Keaney T, Ryan CM, Sheridan RL, Fagan SP. Malnutrition among pediatric

burn patients: A consequence of delayed admissions. Burns 2010;36:1185-9.

Duke JM, Rea S, Boyd JH, Randall SM, Wood FM. Mortality after burn injury in children: A 33-year population-based study. Pediatrics 2015;135(4):e903-e910.

Herndon DN, Tompkins RG. Support of the metabolic response to burn injury. The Lancet 2004;363(9424):1895-1902.

Arnold M, Barbul A. Nutrition and wound healing. Plastic Reconstruc Surg 2006;117(7 Suppl),S42-S58.

Stechmiller JK. Understanding the role of nutrition and wound healing. Nutr Clin Pract 2010;25:61-8.

Graves C, Saffle J, Cochran A. Actual burn nutrition care practices: An update. J Burn Care Res 2009;30:77-82.

Kasten KR, Makley AT, Kagan RJ. Update on the critical care management of severe burns. J Intensive Care Med

;26:223-36.

Mazón Viañez C, Miquet Romero LM, González Reyes H, Benjamín Ricardo M, Rodríguez Arrechea R, Rodríguez Garcell R. Rol del personal de Enfermería en la intervención nutricional del paciente quemado. RCAN Rev

Cubana Aliment Nutr 2010;20:102-12.

Grupo de Trabajo de Abordaje Nutricional en el Paciente Crítico. AANEP Asociación Argentina de

Nutrición Enteral y Parenteral. Comité de Soporte Nutricional y Metabolismo. SATI Sociedad Argentina de Terapia Intensiva. Soporte nutricional en el paciente adulto críticamente enfermo. Un consenso de práctica clínica. RCAN Rev Cubana Aliment Nutr 2016; 26(1 Supl 1):S1-S82.

McClave SA, Martindale RG, Vanek VW, McCarthy M, Roberts P, Taylor B; et al; for the American College of

Critical Care Medicine. Guidelines for the provision and assessment of nutrition support therapy in the adult critically ill patient: Society of Critical Care Medicine (SCCM) and American Society for Parenteral and Enteral Nutrition

(ASPEN). JPEN J Parenter Enteral Nutr 2009;33:277-316.

Enkhbaatar P, Traber DL. Pathophysiology of acute lung injury in combined burn and smoke inhalation injury. Clin Sci [London] 2004;107:137-43.

Wolf SE, Sterling JP, Hunt JL, Arnoldo BD. The year in burns 2010. Burns 2011; 37:1275-87.

Schwartz R, Chirino C, Saenz SV, Rodríguez T. Algunos aspectos del manejo del paciente quemado en un servicio de cirugía infantil. A propósito de 47 pacientes pediátricos. Rev Argent Dermatol 2008;89:98-103.

Anuario Estadístico de Salud. MINSAP Ministerio de Salud Pública. La Habana: 2016.

Cuthbertson DP. The disturbance of metabolism produced by bony and nonbony injury with notes on certain

abnormal conditions of bone. Biochem J 1930;24:1244-63.

Cuthberson DP. Post-shock metabolic response. Lancet 1942;i:433-7.

Long CL, Schaffel N, Geiger JW, Schiller WR, Blakemore WS. Metabolic response to injury and illness: Estimation of energy and protein needs from indirect calorimetry and nitrogen balance. JPEN J Parenter Enter Nutr 1979;3:452-6.

Newsome T, Mason A, Pruitt B. Weight loss following thermal injury. Ann Surg 1973;178: 215-7.

Wilmore DW, Long JM, Mason Jr AD, Skreen RW, Pruitt Jr BA. Catecholamines: Mediator of the hypermetabolic response to thermal injury. Ann Surg 1974;180:653-8.

Wilmore DW. Nutrition and metabolism following thermal injury. Clin Plast Surg 1974;1:603-19.

Swinamer D, Phang P, Jones R; et al. Twenty-four hour energy expenditure in critically ill patients. Crit Care Med

;15:637-41.

Biolo G, Toigo G, Ciocchi B, Situlin R, Iscra F, Gullo A, Guarnieri G. Metabolic response to injury and sepsis: Changes in protein metabolism. Nutrition 1997;13:52-7.

Jahoor F, Desai M, Herndon DN, Wolfe RR. Dynamics of the protein metabolic response to burn injury. Metabolism

;37:330-7.

Şimşek T, Şimşek HU, Cantürk NZ. Response to trauma and metabolic changes: Posttraumatic metabolism. Turkish J Surg 2014;30:153.

Jeschke MG, Chinkes DL, Finnerty CC, Kulp G, Suman OE, Norbury WB; et al. The pathophysiologic response to severe burn injury. Ann Surg 2008;248:387.

Harl DW, Wolf SE, Chinkes DL; et al. Determinants of skeletal muscle catabolism after severe burn. Ann Surg

;232(4):455-65.

Besscy P, Jiang Z, Johnson D; et al. Posttraumatic skeletal muscle proteolysis: The role of the hormonal environment. World J Surg1989;13:465-70.

Long C, Kinney J, Geiger C. Nonsuppressibility of gluconeogenesis by glucose in septic patients. Metabolism

;25:193.

Hart DW, Wolf SE, Ramzy PI, Chinkes DL, Beauford RB, Ferrando AA; et al. Anabolic effects of oxandrolone after

severe burn. Ann Surg 2001;233:556-64.

Breederveld RS, Tuinebreijer WE. Recombinant human growth hormone for treating burns and donor sites. The

Cochrane Database of Systematic Reviews 2014(9):CD008990. Disponible en: http://onlinelibrary.wiley.com/doi/10.1002/14651858.CD008990.pub3/pdf. Fecha de última visita: 23 de Febrero del 2016.

Lal SO, Wolf SE, Herndon DN. Growth hormone, burns and tissue healing. Growth Horm IGF Res 2000;10(Suppl):S39-S43.

Jarrar D, Wolf SE, Jeschke MG, Ramirez RJ, DebRoy M, Ogle CK; et al. Growth hormone attenuates the acute-phase

response to thermal injury. Arch Surg 1997;132:1171-6.

Ferrando AA, Sheffield-Moore M, Wolf SE, Herndon DN, Wolfe RR. Testosterone administration in severe burns ameliorates muscle catabolism. Crit Care Med 2001;29:1936-42.

Demling R, Signe P. Metabolic management of patients with severe burns. World J Surg 2000;24:673-80.

Hildreth M, Herndon D, Desai M; et al. Current treatment reduced calories required to maintain weight in pediatric patients with burns. J Burn Care Rehabil 1990;11:405-9.

Rutan T, Herndon D, YanOsten T; et al. Metabolic rate alterations in early excision and grafting versus conservative

treatment. J Trauma 1986;26:140-6.

Barton R, Craft W, Saffle J. Chemical paralysis reduces energy expenditure in mechanically ventilated trauma patient. J Burn Care Rehabil 1997;18:461-8.

Demling RH. The incidence and impact of pre-existing protein energy malnutrition on outcome in the elderly burn patient population. J Burn Care Rehabil 2005;26:94-100.

Demling RH. The burn edema process: Current concepts. J Burn Care Res 2005; 26:207-27.

Raguso CA, Dupertuis YM, Pichard C. The role of visceral proteins in the nutritional assessment of intensive care unit patients. Cur Op Clin Nutr Metab Care 2003;6:211-6.

Fuhrman MP, Charney P, Mueller CM. Hepatic proteins and nutrition assessment. J Am Diet Assoc 2004;104:1258-64.

Torres Amaro A, Jiménez García R. Influencia del estado nutricional sobre indicadores de efectividad del servicio de Quemados de un hospital pediátrico de

La Habana. RCAN Rev Cubana Aliment Nutr 2010;20:254-64.

Przkora R, Barrow RE, Jeschke MG, Suman OE, Celis M, Sanford AP; et al. Body composition changes with time in

pediatric burn patients. J Trauma Acute Care Surg 2006;60: 968-71.

Martinuzzi ALN, Alcántara S, Corbal A, Di Leo ME, Guillot A, Palaoro A, Ferraresi Zarranz EM, Feller C, Santana

Porbén S. Nitrógeno ureico urinario como indicador del metabolismo proteico en el paciente crítico. RCAN Rev Cubana Aliment Nutr 2011;21:223-34.

Miquet Romero LM, Salanic Colop JI, Rodríguez Garcell R, Hernández Collado MC, González Reyes H. Comportamiento del nitrógeno ureico urinario en el quemado. RCAN Rev Cubana Aliment Nutr 2015;25:76-91.

Saffle J, Medina E, Raymond J; et al. Use of indirect calorimetry in the nutritional management of burn patients.

J Trauma 1985;25:32-9.

Weir JB. New methods for calculating metabolic rate with special reference to protein metabolism. J Physiol 1949;109:1-9.

Ireton-Jones CS, Turner WW Jr. The use of respiratory quotient to determine the efficacy of nutrition support regimens. J Am Diet Assoc 1987;87:1880-3.

Suman OE, Mlcak RP, Chinkes DL, Herndon DN. Resting energy expenditure in severely burned children:

Analysis of agreement between indirect calorimetry and prediction equations using the Bland–Altman method. Burns 2006;32:335-42.

da Rocha EEM, Alves VGF, Silva MHN, Chiesa CA, da Fonseca RBV. Can measured resting energy expenditure be

estimated by formulae in daily clinical nutrition practice? Cur Op Clin Nutr Metab Care 2005;8:319-28.

Dickerson RN, Gervasio JM, Riley MI; et al. Accuracy of predictive methods to estimate resting energy expenditure of thermally injured patients. JPEN J Parenter Enter Nutr 2002; 26:17-29.

Guttormsen AB, Pichard C. Determining energy requirements in the ICU. Cur Op Clin Nutr Metab Care 2014;17:171-6.

Machado NM, Gragnani A, Ferreira LM. Burns, metabolism and nutritional requirements. Nutrición Hospitalaria [España] 2011;26:692-700.

Stapleton RD, Jones N, Heyland DK. Feeding critically ill patients: What is the optimal amount of energy? Crit Care

Med 2007;35(9 Supl):S535-S540.

Calder PC. Long-chain n-3 fatty acids and inflammation: Potential application in surgical and trauma patients. Braz J

Med Biol Res 2003;36:433-46.

Dickerson RN, Pitts SL, Maish III GO, Schroeppel TJ, Magnotti LJ, Croce MA; et al. A reappraisal of nitrogen

requirements for patients with critical illness and trauma. J Trauma Acute Care Surg 2012;73:549-57.

Felig P, Pozefsk T, Marlis E, Cahill GF. Alanine: Key role in gluconeogenesis. Science 1970;167(3920):1003-4.

Vacanti NM, Divakaruni AS, Green CR, Parker SJ, Henry RR, Ciaraldi TP; et al. Regulation of substrate utilization by the mitochondrial pyruvate carrier. Mol Cell 2014;56:425-35.

Foitzik T, Kruschewski M, Kroesen AJ, Hotz HG, Eibl G, Buhr HJ. Does glutamine reduce bacterial translocation? A study in two animal models with impaired gut barrier. Int J Colorectal Dis 1999;14:143-9.

Amores-Sánchez MI, Medina MA. Glutamine, as a precursor of glutathione, and oxidative stress. Mol Genet Metab 1999;67:100-5.

Wischmeyer PE. Glutamine: Mode of action in critical illness. Crit Care Med 2007;35(9 Suppl):S541-S544.

Biolo G, Fleming RD, Maggi SP, Nguyen TT, Herndon DN, Wolfe RR. Inhibition of muscle glutamine formation

in hypercatabolic patients. Clin Sci 2000;99:189-94.

Bronte V, Zanovello P. Regulation of immune responses by L-arginine metabolism. Nature Rev Immunol 2005;

:641-54.

Guoyao WU, Morris SM. Arginine metabolism: nitric oxide and beyond. Biochem J 1998;336:1-17.

Harper AE, Miller RH, Block KP. Branched-chain amino acid metabolism. Annu Rev Nutr 1984;4:409-54.

Suryawan A, Hawes JW, Harris RA, Shimomura Y, Jenkins AE, Hutson SM. A molecular model of human branched chain amino acid metabolism. Am J Clin

Nutr 1998;68:72-81.

Berger MM, Shenkin A. Vitamins and trace elements: Practical aspects of supplementation. Nutrition 2006;22:

-5.

Rock CL, Dechert RE, Khilnani R, Parker RS, Rodriguez JL. Carotenoids and antioxidant vitamins in patients after

burn injury. J Burn Care Res 1997;18:268-78.

Klein GL, Langman CB, Herndon DN. Vitamin D depletion following burn injury in children: A possible factor in post-burn osteopenia. J Trauma Acute Care Surg 2002;52:346-50.

Voruganti VS, Klein GL, Lu HX, Thomas S, Freeland-Graves JH, Herndon DN. Impaired zinc and copper status in

children with burn injuries: Need to reassess nutritional requirements. Burns 2005;31:711-6.

Berger MM. Antioxidant micronutrients in major trauma and burns: Evidence and practice. Nutr Clin Pract 2006;21:

-49.

Heyland DK, Dhaliwal R, Suchner U, Berger MM. Antioxidant nutrients: A systematic review of trace elements and vitamins in the critically ill patient. Intens Care Med 2005;31:327-37.

Preiser JC, van Zanten AR, Berger MM, Biolo G, Casaer MP, Doig GS; et al. Metabolic and nutritional support of critically ill patients: Consensus and controversies. Crit Care 2015;19:35.

McClave SA, Martindale RG, Rice TW, Heyland DK. Feeding the critically ill patient. Crit Care Med 2014;42:2600-10.

MacKay DJ, Miller AL. Nutritional support for wound healing. Alternat Med Rev 2003;8: 359-78.

Allred CRG, Voss AC, Finn SC, McCamish MA. Malnutrition and clinical outcomes: The case for medical

nutrition therapy. J Am Diet Assoc 1996;96:361-9.

Latenser BA. Critical care of the burn patient: The first 48 hours. Crit Care Med 2009;37:2819-26.

Ferraresi Zarranz EM. Accesos endovenosos utilizados para la Nutrición Parenteral. RCAN Rev Cubana Aliment

Nutr 2009;19:293-309.

Arabi YM, Aldawood AS, Haddad SH, Al-Dorzi HM, Tamim HM, Jones G; et al. Permissive underfeeding or standard enteral feeding in critically ill adults. N Engl J Med 2015;372: 2398-2408.

Jeejeebhoy KN. Permissive underfeeding of the critically ill patient. Nutr Clin Pract 2004;19:477-80.

Hart DW, Wolf SE, Chinkes DL, Beauford RB, Mlcak RP, Heggers JP; et al. Effects of early excision and aggressive enteral feeding on hypermetabolism, catabolism, and sepsis after severe burn. J Trauma Acute Care Surg 2003;54:755-64.

Shulman RJ, Phillips S. Parenteral nutrition in infants and children. J Pediatr Gastroenterol Nutr 2003;36:587-607.

Heidegger CP, Darmon P, Pichard C. Enteral vs. parenteral nutrition for the critically ill patient: A combined support should be preferred. Cur Op Crit Care 2008;14:408-14.

McClave SA, Heyland DK. The physiologic response and associated clinical benefits from provision of early

enteral nutrition. Nutr Clin Pract 2009;24:305-15.

Wasiak J, Cleland H, Jeffery R. Early versus late enteral nutritional support in adults with burn injury: A systematic

review. J Human Nutr Diet 2007;20:75-83.

Harvey SE, Parrott F, Harrison DA, Bear DE, Segaran E, Beale R; et al. Trial of the route of early nutritional support in

critically ill adults. N Engl J Med 2014;371:1673-84.

Heyland DK, Drover JW, MacDonald S, Novak F, Lam M. Effect of postpyloric feeding on gastroesophageal

regurgitation and pulmonary microaspiration: Results of a randomized controlled trial. Crit Care Med 2001;29:1495-1501.

Mirtallo J, Canada T, Johnson D, Kumpf V, Petersen C, Sacks G; et al. Safe practices for parenteral nutrition. JPEN J

Parenter Enter Nutr 2004;28(6 Suppl):S39-S70.

Santana Porbén S, Barreto Penié J, Martínez González C, Borrás Espinosa A. Diseño e implementación de un

esquema intrahospitalario de Nutrición Parenteral. I. Nutrición Parenteral Periférica. RCAN Rev Cubana Aliment

Nutr 2007;17:186-208.

Santana Porbén S, Barreto Penié J, Martínez González C, Borrás Espinosa A. Diseño e implementación de un

esquema intrahospitalario de Nutrición Parenteral. II. Nutrición Parenteral Central. RCAN Rev Cubana Aliment

Nutr 2008;18:94-126.

Martinuzzi A, Kliger G. Nutrición parenteral en los pacientes críticos. En: Terapia Intensiva [Editora: Estenssoro E]. SATI Sociedad Argentina de Terapia

Intensiva. Quinta Edición. Capítulo XIII-2. Editorial Médica Panamericana SA. Buenos Aires: 2013. pp.1212-1219.

Hecker M, Mayer K. Intravenous lipids in adult intensive care unit patients. Intravenous Lipid Emulsions 2014;112:

-6.

Santana Porbén S, Alfonso Novo A, Álvarez Rodríguez A, Guerra Hidalgo M. Los lípidos en la Nutrición parenteral.

Mitos y evidencias. La experiencia cubana [Resúmenes de un Simposio: Santiago de Cuba’ 2009]. RCAN Rev

Cubana Aliment Nutr 2010;20(1 Supl 2):S1-S28.

Pradelli L, Mayer K, Muscaritoli M, Heller AR. n-3 fatty acid-enriched parenteral nutrition regimens in elective

surgical and ICU patients: A metaanalysis. Critical Care 2012; 16(5):R184. Corrigendum: Critical Care 2013;

(1):405.

Martinuzzi A. Emulsiones lipídicas de aceite de pescado por vía intravenosa en pacientes críticamente enfermos: Una revisión sistemática actualizada y metaanálisis [Resumen y comentario]. Medicina Intensiva 2016;33(3):154-7.

Wischmeyer PE, Dhaliwal R, McCall M, Ziegler TR, Heyland DK. Parenteral glutamine supplementation in critical illness: A systematic review. Critical Care 2014;18(2 Suppl):R76.

Martínez González C, Santana Porbén S. Diseño e implementación de un esquema intrahospitalario de

Nutrición enteral. RCAN Rev Cubana Aliment Nutr 2001;15:130-8.

Martinuzzi A, Ferraresi E. Inmunonutrición y trauma. RCAN Rev Cubana Aliment Nutr 2011;21:129-46.

Kurmis R, Parker A, Greenwood J. The use of immunonutrition in burn injury care: Where are we? J Burn Care Res 2010;31:677-91.

Suchner U, Kuhn KS, Fürst P. The scientific basis of immunonutrition. Proc Nutr Soc 2000;59:553-63.

De-Souza DA, Greene LJ. Pharmacological nutrition after burn injury. J Nutr 1998; 128:797-803.

Stroster JA, Uranues S, Latifi R. Nutritional controversies in critical care: Revisiting enteral glutamine during critical illness and injury. Cur Op Crit Care 2015;21:527-30.

Zhou YP, Jiang ZM, Sun YH, He GZ, Shu H. The effects of supplemental glutamine dipeptide on gut integrity and

clinical outcome after major escharectomy in severe burns: A randomized, double-blind, controlled clinical trial. Clin Nutr Suppl 2004;1(1):S55-S60.

Zhou YP, Jiang ZM, Sun YH, Wang XR, Ma EL, Wilmore D. The effect of supplemental enteral glutamine on

plasma levels, gut function, and outcome in severe burns: A randomized, double blind, controlled clinical trial. JPEN J

Parenter Enter Nutr 2003;27:241-5.

Miquet Romero LM, Rodríguez Garcell R, Barreto Penié J, Santana Porbén S. Estado de la provisión de cuidados nutricionales al paciente quemado. Auditoría de procesos en un servicio de Quemados de un hospital terciario Nutrición Hospitalaria [España] 2008;23:354-6.

Masters B, Wood F. Nutrition support in burns- Is there consistency in practice? J Burn Care Res 2008;29:561-71.

De Jonghe B, Appere-De-Vechi C, Fournier M, Tran B, Merrer J, Melchior JC, Outin H. A prospective survey of

nutritional support practices in intensive care unit patients: What is prescribed? What is delivered? Crit Care Med 2001;

:8-12.

Miquet Romero LM, Vázquez Mendoza CL, Rodríguez Garcell R, Tamargo Barbeito TO. Comportamiento del peso corporal durante la atención del paciente en una Unidad de Quemados. RCAN Rev Cubana Aliment Nutr 2013;23:82-102.

Cotton BA, Guy JS, Morris Jr JA, Abumrad NN. The cellular, metabolic, and systemic consequences of aggressive fluid resuscitation strategies. Shock 2006;26:115-21.

Wong Martínez JS, Bécquer González C, Casanova González MP, Santana Porbén S, Vázquez Vigoa A,

Vázquez Cruz A. Sepsis, mortalidad y antropometría del brazo en el quemado. RCAN Rev Cubana Aliment Nutr 2009;19:73-86.

Hart DW, Wolf SE, Herndon DN, Chinkes DL, Lal SO, Obeng MK; et al. Energy expenditure and caloric balance

after burn: increased feeding leads to fat rather than lean mass accretion. Ann Surg 2002;235:152-61.

Martinuzzi ALN, Ferraresi Zarranz EM, Santana Porbén S, Alcántara S, Alonso M. Diarrea en el paciente crítico. Su actualidad. RCAN Rev Cubana Aliment Nutr 2012;22:120-134.

Scaife CL, Saffle JR, Morris SE. Intestinal obstruction secondary to enteral feedings in burn trauma patients. J Trauma Acute Care Surg 1999;47:859.

Gore DC, Chinkes D, Heggers J, Herndon DN, Wolf SE, Desai M. Association of hyperglycemia with increased mortality after severe burn injury. J Trauma Acute Care Surg 2001;51:540-4.

Prelack K, Dylewski M, Sheridan RL. Practical guidelines for nutritional management of burn injury and

recovery. Burns 2007;33:14-24.

Barr J, Hecht M, Flavin KE; et al. Outcomes in critically ill patients before and after the implementation of an

evidence-based nutritional management protocol. Chest 2004;125:1446-57.

Martinuzzi A, Preedy V, Ferraresi E, Borrajo V. Educational, recording and organizational interventions regarding critical care nutritional support. En: Diet and Nutrition in Critical Care [Editor: Preedy V]. Springer Science + Business Media. New York: 2014. Pp 1-15. Disponible en:

http://www.springerreference.com/index/chapterdbid/439303. Fecha de última visita: 24 de Febrero del 2016.

Martinuzzi A, Kesckes C. Síndrome de realimentación. Medicina Intensiva 2016;32:62-4.

Mehta NM, Bechard LJ, Dolan M, Ariagno K, Jiang H, Duggan C. Energy imbalance and the risk of overfeeding in

critically ill children. Pediatr Crit Care Med 2011;12:398-405.