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Abstract

The metabolic consequences of excessive nutrition support in patients have been increasingly recognized in recent years. Time-dependent optimal nutrition support is desired for an early and uncomplicated recovery after severe injury or illness. Metabolic effects of adding balanced amino acids to glucose infusion during total parenteral nutrition were investigated in 18 patients after major trauma (injury severity score 32 ± 2). Two studies were conducted on each subject, one in the early "flow" phase of injury (40-60 hours postinjury) in the basal state without any dietary intake and then after 4 to 6 days of intravenous nutrition provided solely as glucose (24 ± 2 kcal/kg per day, 80% resting energy expenditure, n = 8) or isocaloric glucose (28 ± 3 kcal/kg per day) with amino acids (275 ± 28 mg of nitrogen per kilogram per day, n = 10). Whole-body fuel substrate kinetics were studied for energy metabolism (indirect calorimetry), protein kinetics (primed-constant infusion of ¹⁵N glycine), and lipid mobilization (two-stage infusion of 10% glycerol). Injury-induced hypoaminoacidemia was equally modulated whether the glucose-based nutrition had amino acids or not. The negative nitrogen balance is reduced similarly in both groups. Protein breakdown rate is significantly (p = .025) decreased in both groups and it is more so (30% us 18%) in patients receiving total parenteral nutrition. Intravenous nutrition could not stimulate protein synthesis. Whole-body lipolysis rate as well as net fat oxidation rate are suppressed more when glucose alone is given, and this also results in less reesterification. Provision of intravenous glucose alone, not to exceed the resting energy expenditure, seems to be superior to isocaloric glucose with amino acids during this early catabolic flow phase of injury because the injured body could not assimilate this exogenous amino acid. (Journal of Parenteral and Enteral Nutrition 16:511-520, 1992)

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References

Lusk G. : The Elements of the Science of Nutrition, 4th ed. WB Saunders, Philadelphia , 1928

Cuthbertson DP : The physiology of convalescence after injury . Br Med Bull 3:96-102, 1945

Gamble JL : Physiological information gained from studies on the life raft ration . Harvey Lect 247-273, 1946

Long CL , Kinney JM , Geiger JW : Nonsuppressability of gluconeogenesis by glucose in septic patients . Metabolism 25:193-201, 1976

Elwyn DH , Kinney JM , Jeevanandam M. , et al: Influence of increasing carbohydrate intake on glucose kinetics in injured patients. Ann Surg 190:117-127, 1979

Askanazi J. , Carpentier YA , Elwyn DH , et al: Influence of total parenteral nutrition on fuel utilization in injury and sepsis. Ann Surg 191:40-46, 1980

Stoner HB , Little RA , Frayn KN , et al: The effect of sepsis on the oxidation of carbohydrate and fat . Br J Surg 70:30-35, 1983

Giovannini I. , Boldvini G. , Castegneto M. , et al: Respiratory quotient and patterns of substrate utilization in human sepsis and trauma . JPEN 7:226-230, 1983

Shenkin A. , Neuhauser M. , Bergstrom J. , et al: Biochemical changes associated with severe trauma. Am J Clin Nutr 33:2119-2127, 1980

10.

Jeevanandam M. , Young DH , Schiller WR : Influence of parenteral nutrition on rates of net substrate oxidation in severe trauma patients. Crit Care Med 18:467-473, 1990

11.

Jeevanandam M. , Leland D. , Shamos RF , et al: Glucose infusion improved endogenous protein synthesis efficiency in multiple trauma victims . Metabolism 40:1199-1206, 1991

12.

Harris JA , Benedict FG : A biometric study of basal metabolism in man. Publication No. 279. Carnegie Institute of Washington, Washington, DC, 1919

13.

Carpentier YA , Jeevananadam M. , Robin AP , et al: Measurement of glycerol turnover by infusion of non-isotopic glycerol in normal and injured subjects. Am J Physiol 247:E405-E411, 1984

14.

Elia M. , Zed C. , Neale G. , et al: The energy cost of triglyceride-fatty acid recycling in non-obese subjects after an overnight fast and four days of starvation. Metabolism 30:251-255, 1987

15.

Jeevanandam M. , Brennan MF , Horowitz GD , et al: Tracer priming in human protein turnover studies with 15N glycine. Biochem Med 34:214-225, 1985

16.

Levinson MR , Groeger JS , Jeevanandam M. , et al: Fatty acid turnover and lipolysis in septic mechanically ventilated cancer-bearing humans. Metabolism 37:618-625, 1988

17.

Waterlow JC , Garlick PJ , Millward DJ (eds): Protein Turnover in Mammalian Tissues and in the Whole Body. North Holland Publishing Company, Amsterdam , 1978

18.

Waterlow JC : Protein turnover with special reference to man. Q J Exp Physiol 69:409-438, 1984

19.

Fern EB , Garlick PJ , McNurlan MA , et al: The excretion of isotope in urea and ammonia for estimating protein turnover in man with 15N glycine. Clin Sci 61:217-228, 1981

20.

Fern EB , Garlick PJ , Waterlow JC : Apparent compartmentalization of body proteins in one human subject: Its consequence in measuring the rate of whole-body protein synthesis with 15N. Clin Sci 68:271-282, 1985

21.

Galloway DH , Odell ACF , Margen S. : Sweat and miscellaneous nitrogen losses in human balance studies. J Nutr 101:775-786, 1987

22.

Snedecor GW , Cochran WG : Statistical Methods, 7th ed. Iowa State University Press, Ames, 1971

23.

Jeevanadam M. , Grote-Holman A. , Chikenji T. , et al: Effects of glucose on fuel utilization and glycerol turnover in normal and injured man. Crit Care Med 18:125-135, 1990

24.

Carpentier YA , Askanazi J. , Elwyn DH et al: Effects of hypercaloric glucose infusion on lipid metabolism in injury and sepsis. J Trauma 19:649-654, 1979

25.

Jeevanandam M. , Young DH , Schiller WR : Glucose turnover, oxidation and indices of recycling in severely traumatized patients. J Trauma 30:582-589, 1990

26.

Askanazi J. , Rosenbaum SH , Hyman AI , et al: Respiratory changes induced by the large glucose loads of total parenteral nutrition. JAMA 243:1444-1447, 1980

27.

Westphal SA , Gannon MC , Nuttall FQ : Metabolic responses to glucose ingested with various amounts of protein . Am J Clin Nutr 52:267-272, 1990

28.

Wannemacher RW Jr , Dinterman RE , Rayfield EJ , et al: Effect of glucose infusion on the concentration of individual serum free amino acids during sandfly fever in man. Am J Clin Nutr 30:573-578, 1977

29.

Tracey KJ , Legaspi A. , Albert JD , et al: Protein and substrate metabolism during starvation and parenteral refeeding. Clin Sci 74:123-132, 1988

30.

Stein TP : Nutrition and protein turnover. JPEN 6:444-454, 1982

31.

Legaspi A. : Adjunctive therapy for nutritional support in hospitalized patients . NCP 4:95-100, 1989

32.

Duke JH , Jorgensen SB , Broell JR , et al: Contribution of protein to calorie expenditure following injury . Surgery 68:168-174, 1970

33.

Greig PD , Elwyn DH , Askanazi J. , et al: Parenteral nutrition in septic patients: Effect of increasing nitrogen intake. Am J Clin Nutr 46:1040-1047, 1987

34.

Lonnqvist F. , Neyberg B. , Wahrenberg H. , et al: Catecholamine-induced lipolysis in adipose tissue of the elderly. J Clin Invest 85:1614-1621, 1990

35.

Thorburn AW , Gumbiner B. , Brechtel G. , et al: Effect of hyperinsulinemia and hyperglycemia on intracellular glucose and fat metabolism in healthy subjects . Diabetes 39:22-30, 1990

Substrate Efficacy in Early Nutrition Support of Critically Ill Multiple Trauma Victims

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