Bibliografía

1. Stratakis CA, Chrousus GP: Neuroendocrinology

and pathophysiology of the stress system. Ann NY

Acad Sci 771:1–18, 1995.

2. Goldstein DS, Kopin IJ: Evolution of the concepts

of stress. Stress 10:109–120, 2007.

3. Pacak K, Palkovits M, Yadid G, et al: Heterogeneous

neurochemical responses to different stressors: A

test of Selye’s doctrine of nonspecificity. Am J

Physiol 275:R1247–R1255, 1998.

4. Chrousos GP, Gold PW. The concepts of stress and

stress system disorders: Overview of physical and

behavioral homeostasis. JAMA 267:1244–1252,

1992.

5. VanItalie TB: Stress: A risk factor for serious illness.

Metabolism 51(Suppl 1)40–45, 2002.

6. Sterling P, Eyer J: Allostasis: a new paradigm to

explain arousal pathology. In Fisher J, Reason J

(eds): Handbook of Life Stress, Cognition and

Health. New York, John Wiley & Sons, 1988, pp

629–649.

7. Goldstein DS, McEwen B: Allostasis, homeostats,

and the nature of stress. Stress 5:55–58, 2002.

8. Giannoudis PV, Dinopoulos H, Chalidis B, Hall

GM: Surgical stress response. Injury 37S:S3–S9,

2006.

9. Tschoke Sk, Hellmuth M, Hostmann A, et al: The

early second hit in trauma management augments

the proinflammatory immune response to multiple

injuries. J Trauma 62:1396–1403, 2007.

10. Pape HC, van Griensven M, Rice J, et al: Major

secondary surgery in blunt trauma patients and

perioperative cytokine liberation: determination of

the clinical relevance of biochemical markers. J

Trauma 50:989–1000, 2001.

11. Hopkins SJ: Central nervous system recognition of

peripheral inflammation: a neural, hormonal colla-

boration. Acta Biomed 78(Suppl 1)231–247, 2007.

12. Sanchez-Alavez M, Tabarean IV, Behrens M, Bartfai

T. Ceramide mediates the rapid phase of febrile res-

ponse to IL-1B. Proc Natl Acad Sci U S A 103:2904–

2908, 2006.

13. Dinarello CA: Infection, fever and exogenous and

endogenous pyrogens: some concepts have changed.

J Endogenous Res 10:201–222, 2004.

14. Mastrakos G, Karoutsou EI, Mizamtsidi M: Corti-

cotropin releasing hormone and the immune/infla-

mmatory response. Eur J Endocrinol 155:S77–S84,

2006.

15. Otte C, Hart S, Neylan TC, et al: A meta-analysis of

cortisol response to challenge in human ageing:

importance of gender. Psychoneuroendocrinology

30:80–91, 2005.

16. Gogenur I, Ocak U, Altunpinar O, et al: Disturban-

ces in melatonin, cortisol and core body tempera-

ture rhythms after major surgery. World J Surg

31:290–298, 2007.

17. Treschan TA, Peters J: The vasopressin system.

Anesthesiology 105:599–612, 2006.

18. Sutherland AM, Gordon AC, Russell JA. Are vaso-

pressin levels increased or decreased in septic

shock? Crit Care Med 34:542–543, 2006.

19. Hussain MA, Schmitz O, Mengel A, et al: Insulin-

like grown factor 1 stimulates lipid oxidation,

reduces protein oxidation and enhances insulin

sensitivity in humans. J Clin Invest 92:2249–2256,

1993.

20. Melarvie S, Jeevanandam M, Holaday NJ, et al: Pul-

satile nature of growth hormone levels in critically

trauma victims. Surgery 117:402–408, 1995.

21. Jeschke MG, Barrow RE, Mlcak RP, Herndon DN:

Endogenous anabolic hormones and hypermetabo-

lism: Effect of trauma and hypermetabolism. Ann

Surg 241:759–768, 2005.

22. Molina PE: Neurobiology of the stress response:

Contribution of the sympathetic nervous system to

the neuroimmune axis in traumatic injury. Shock

24:3–10, 2005.

23. Whorwood CB, Donovan SJ, Wood PJ, Phillips

DIW: Regulation of glucocorticoid receptor a and b

isoforms and type I 11b-hydroxysteroid dehydroge-

nase expression in human skeletal muscle cells: a

key role in the pathogenesis of insulin resistance? J

Clin Endocrinol Metab 86:2296–2308, 2001.

24. Fryberg DA, Gelfand RA, Jahn LA, et al: Effects of

epinephrine on human muscle glucose and protein

metabolism. Am J Physiol 268:E55–E59, 1995.

25. Matthews DE, Pesola G, Campbell RG: Effects of

epinephrine on amino acid and energy metabolism

in humans. Am J Physiol 258:E948–E956, 1990.

26. Arafah BM: Review: hypothalamic pituitary adrenal

function during critical illness: limitation of current

assessment methods. J Clin Endocrinol Metab

91:3725–3745, 2006.

27. Tayek JA, Katz J: Glucose production, recycling,

Cori cycle, and gluconeogenesis in humans: rela-

tionship to serum cortisol. Am J Physiol 273:E476–

E484, 1997.

28. Dandona P, Aljada A, Garg R, Mohanty P: Increase

in plasma interleukin 1- following hydrocortisone

injection. J Clin Endocrinol Metab 84:1141–1144,

1999.

29. van den Berghe G: Dynamic neuroendocrine res-

ponses to critical illness. Front Neuroendocrin

23:370–391, 2002.

30. Le Roux CW, Chapman GA, Kong WM, et al: Free

cortisol index is better than serum total cortisol in

determining hypothalamic-pituitary-adrenal status

in patients undergoing surgery. J Clin Endocrinol

Metab 88:2045–2048, 2003.

31. Christ-Crain M, Jutla S, Widmer I, et al: Measure-

ment of serum free cortisol shows discordant res-

ponsivity to stress and dynamic evaluation. J Clin

Endocrinol Metab 92:1729–1735, 2007.

32. Vogeser M, Felbinger TW, Kilger E, et al: Corticos-

teroid-binding globulin and free cortisol in the

early postoperative period after cardiac surgery.

Clin Biochem 32:213–216, 1999.

33. Bhathena SJ: Relationship between fatty acids and

the endocrine and neuroendocrine system. Nutr

Neurosci 9:1–10, 2006.

34. Shamoon H, Hendler R, Sherwin RS: Synergistic

interactions among anti-insulin hormones in the

pathogenesis of stress hyperglycemia in humans. J

Clin Endocrinol Metab 52:1235–1241, 1981.

35. Papi A: Investigating the steroids and long acting

b

2-agonists combination: why do we need more?

Eur Respir J 23:501–502, 2004.

36. Amar D, Fleisher M, Pantuck CB, et al: Persistent

alterations of the autonomic nervous system after

noncardiac surgery. Anesthesiology 89:30–42,

1998.

37. Chrousos GP, Torpy DJ, Gold PW: Interactions

between the hypothalamic-pituitary-adrenal axis

and the female reproductive system: clinical impli-

cations. Ann Intern Med 129:229–240, 1998.

38. van den Berghe G: Dynamic neuroendocrine res-

ponses to critical illness. Front Neuroendocrin

23:370–391, 2002.

39. McDaniel DO, Hamilton J, Brock M, et al: Molecu-

lar analysis of inflammatory markers in trauma

patients at risk of postinjury complications. J

Trauma 63:147–158, 2007.

40. Cryssikopoulos A: The relationship between the

immune and endocrine systems. Ann NY Acad Sci

816:83–93, 1997.

41. Di Vita G, Patti R, Vetri G, et al: Production of cyto-

kines at the operation site. G Chir 26:241–245,

2005.

42. Bjornsson T, Horsteinson L, Gudmundsson KO, et

al: Inflammatory cytokines in relation to adrenal

response following total hip replacement. Scand J

Immunol 65:99–105, 2007.

43. Rose-John S, Waetzig GH, Scheller J, et al: The IL-6/

sIL6R complex as a novel target for therapeutic

approaches. Expert Opin Ther Targets 11:613–624,

2007.

44. Cross A, Moots RJ, Edwards SW: The dual effects of

TNF(alpha) on neutrophil apoptosis are mediated

via differential effects on expression of Mcl-1 and

Bfl-1. Blood 111:878–884, 2008.

45. Mohan AK, Cote TR, Block JA, et al: Tuberculosis

following the use of entercept, a tumor necrosis

factor inhibitor. Clin Infect Dis 39:295–299,

2004.

46. Schneider C, von Aulock S, Zedler S, et al: Periope-

rative recombinant human granulocyte colony-sti-

mulating factor (Filgastim) treatment prevents

immunoinflammatory dysfunction associated with

major surgery. Ann Surg 239:75–81, 2004.

47. Ishiguro A, Suzuki Y, Mito M, et al: Elevation of

serum thrombopoietin preceded thrombocytosis in

acute infections. Br J Haematol 116:612–618, 2002.

48. Choi G, Schultz MJ, Levi M, van der Poll T: The

relationship between inflammation and the coagu-

lation system. Swiss Med Wkly 136:139–144,

2006.

49. Dhainaut JF, Marin N, Mignon A, Vinsonneau C:

Hepatic response to sepsis: interaction between

coagulation and inflammatory processes. Crit Care

Med 29(Suppl)S42–S47, 2001.

50. van der Poll, Levi M, Dentener M, et al: Epinephrine

exerts anticoagulant effects during human endo-

toxemia. J Exp Med 185:1143–1148, 1997.

51. DeJong F, Friederich PW, Vlasuk GP, et al: Activa-

tion of coagulation by administration of recombi-

nant factor VIIa elicits interleukin-6 (IL-6) and IL-8

release in healthy human subjects. Clin Diag Lab

Immunol 10:495–497, 2003.

52. Emery PW: Metabolic changes in malnutrition. Eye

19:1029–1034, 2005.

53. Hojlund K, Wildner-Christensen M, Eshoj O, et al:

Reference intervals for glucose.

b

-cell polypeptides

and counterregulatory factors during prolonged

fasting. Am J Physiol Endocrinol Metab 280:E50–

E58, 2001.

54. Chandramouli V, Ekberg K, Shumann WC, et al:

Quantifying gluconeogenesis during fasting. Am J

Physiol 273:E1209–E1215, 1997.

55. Cahill GF: Fuel metabolism in starvation. Annu Rev

Nutr 16:1–22, 2006.

56. Naslund E, Schmidt PT, Hellstrom PM: Gut peptide

hormones: importance for food intake. Scand J Gas-

troenterol 40:250–258, 2005.

57. Ogawa A, Nosaka N, Kasai M, et al: Dietary

medium- and long-chain triacylglycerols accelerate

diet-induced thermogenesis in humans. J Oleo Sci

56:283–287, 2007.

Nutrición y control metabólico

2719

85

Sección VII

Cuidados críticos

© ELSEVIER. Fotocopiar sin autorización es un delito