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Cytokine changes in the postoperative period

Published online by Cambridge University Press:  28 February 2007

Alan Shenkin
Alan Shenkin
Affiliation:
Department of Clinical Chemistry, University of Liverpool, PO Box 147, Liverpool L69 3BX
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Abstract

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Type
Symposium on ‘Nutritional aspects of recovery from severe illness and surgery’
Information
Proceedings of the Nutrition Society , Volume 53 , Issue 1 , March 1994 , pp. 159 - 167
Copyright
Copyright © The Nutrition Society 1994

References

Baigrie, R. J., Lamont, P. M., Kwiatkowski, D., Dallman, M. J. & Morris, P. J. (1992 a). Systemic cytokine response after major surgery. British Journal of Surgery 79, 757760.CrossRefGoogle ScholarPubMed
Baigrie, R. J., Lewis, C. E., Lamont, P. M., Morris, P. J. & McGee, J. O. D. (1992 b). Effect of major surgery on the release of interferon gamma by peripheral blood mononuclear cells: an investigation at the single cell level using the reverse hemolytic plaque assay. Cytokine 4, 6365.CrossRefGoogle Scholar
Berkenbosch, F., Van Oers, J., del Rey, A., Tilders, F. & Besedovsky, H. (1987). Corticotrophin releasing factor producing neurons in the rat – activation by interleukin 1β. Science 238, 524528.Google Scholar
Billiau, A. & Matthys, P. (1992). Interferon γ, more of a cachectin than tumour necrosis factor. Cytokine 4, 259263.CrossRefGoogle Scholar
Cabie, A., Fitting, C., Farkas, J.-C., Laurian, C., Cormier, J.-M., Carlet, J. & Cavaillon, J.-M. (1992). Influence of surgery on in-vitro cytokine production by human monocytes. Cytokine 4, 576580.CrossRefGoogle ScholarPubMed
Calandra, T., Baumgartner, J.-D., Grau, G. E., Wu, M.-M., Lambert, P.-H., Schellekens, J., Verhoef, J., Glauser, M. P. & the Swiss–Dutch JS Immunoglobulin Study Group (1990). Prognostic value of tumour necrosis factor/cachectin, interleukin 1, interferon α, and interferon γ in the serum of patients with septic shock. Journal of Infectious Disease 161, 982987.Google Scholar
Cruickshank, A. M., Burns, H. J. G. & Shenkin, A. (1990 a). Serum IL-6 as a prognostic indicator in surgical patients. Clinical Nutrition 9, Suppl., 4.Google Scholar
Cruickshank, A. M., Fraser, W. D., Burns, H. J. G., Van Damme, J. & Shenkin, A. (1990 b). Response of serum interleukin 6 in patients undergoing elective surgery of varying severity. Clinical Science 79, 161165.Google Scholar
Cruickshank, A. M., Hansell, D. T., Burns, H. J. G. & Shenkin, A. (1989). Effect of nutritional status on acute phase protein response to elective surgery. British Journal of Surgery 76, 165168.Google Scholar
Curtis, G. E., McAtear, C., Formela, L., Walsh, A. & Shenkin, A. (1993). The effect of nutritional status on interleukin-6 response to elective surgery. Proceedings of the Nutrition Society 52, 232A.Google Scholar
Cuthbertson, D. P. & Tilstone, W. J. (1968). Nutrition of the injured. American Journal of Clinical Nutrition 21, 911922.CrossRefGoogle ScholarPubMed
Damas, P., Ledoux, D., Nys, M., Vrindts, Y., de Groote, D. & Franchimont, P. (1992). Cytokine serum level during severe sepsis in humans: IL-6 as a marker of severity. Annals of Surgery 215, 356362.CrossRefGoogle ScholarPubMed
Debets, J. M. H., Kampmeijer, R., Van der Linden, M., Buurman, W. A. & Van der Linden, C. J. (1989). Plasma tumour necrosis factor and mortality in critically ill septic patients. Critical Care Medicine 17, 489494.Google Scholar
Dinarello, C. A. (1984). Interleukin 1. Review of Infectious Diseases 6, 5195.CrossRefGoogle ScholarPubMed
Dinarello, C. A. (1989). Interleukin 1 and its related cytokines. In Cytokines, vol. 1, pp. 105154 [Sorg, C. editor]. Basel: Karger.Google Scholar
Dinarello, C. A. & Thompson, R. C. (1991). Blocking IL-1: interleukin 1 receptor antagonist in vivo and in vitro. Immunology Today 12, 404410.CrossRefGoogle ScholarPubMed
Di Padova, F., Pozzi, C., Tondre, M. J. & Tritapepe, R. (1991). Selective and early increase of IL-1 inhibitors, IL-6 and cortisol after elective surgery. Clinical and Experimental Immunology 85, 137142.Google Scholar
Engleberts, I., Stephens, S., Srancot, G. J. M., Van der Linden, C. J. & Buurman, W. A. (1991). Evidence for different effects of soluble TNF receptors on various TNF measurements in human biological fluids. Lancet 338, 515516.Google Scholar
Fong, Y., Moldawer, L. L., Marano, M., Wei, H., Barber, A., Manogue, K., Tracey, K. J., Kuo, G., Fischman, D. A., Cerami, A. & Lowry, S. F. (1989). Cachectin/TNF or IL1α induces cachexia with redistribution of body proteins. American Journal of Physiology 256, R659R665.Google ScholarPubMed
Fraker, D. L., Stovroff, M. C., Merino, M. & Norton, J. A. (1988). Tolerance to tumour necrosis factor in rats and the relationship to endotoxin tolerance and toxicity. Journal of Experimental Medicine 168, 95105.CrossRefGoogle ScholarPubMed
Gauldie, J., Northemann, W. & Fey, G. H. (1990). IL-6 functions as an exocrine hormone in inflammation. Hepatocytes undergoing acute phase responses require exogenous IL-6. Journal of Immunology 144, 38043808.Google Scholar
Girardin, E., Gran, G. E., Dayer, J.-M., Roux-Lombard, P. & Lambet, P.-H. (1988). Tumour necrosis factor and interleukin-1 in the serum of children with severe infectious purpura. New England Journal of Medicine 319, 397400.CrossRefGoogle ScholarPubMed
Hoffman-Goetz, L. & Kluger, M. J. (1979). Protein deprivation: its effect on fever and plasma iron during bacterial infection in rabbits. Journal of Physiology 295, 419430.CrossRefGoogle ScholarPubMed
Jakeways, M. S. R., Mitchell, V., Hashim, I. A., Chadwick, S. J. D., Shenkin, A., Green, C. J. & Carli, F. (1994). Metabolic and inflammatory responses after open or laparoscopic cholecystectomy. British Journal of Surgery 81, 127131.CrossRefGoogle ScholarPubMed
Jennings, G., Cruickshank, A. M., Shenkin, A., Wight, D. G. & Elia, M. (1992). Effect of aseptic abscesses in protein deficient rats on the relationship between interleukin-6 and the acute phase protein, α2 macroglobulin. Clinical Science 83, 731735.Google Scholar
Kalinkovich, A., Engelmann, H., Harpaz, N., Burstein, R., Barak, V., Kalickman, I., Wallach, D. & Bentwich, Z. (1992). Elevated serum levels of soluble tumour necrosis factor receptors (sTNF-R) in patients with HIV infection. Clinical and Experimental Immunology 89, 351355.CrossRefGoogle ScholarPubMed
Keenan, R. A., Moldawer, L. L., Yang, R. D., Kawamura, I., Blackburn, G. L. & Bistrian, B. (1982). An altered response by peripheral leucocytes to synthesise or release leucocyte endogenous mediator in critically ill protein-malnourished patients. Journal of Laboratory and Clinical Medicine 100, 844857.Google Scholar
Kinney, J. M., Long, C. L. & Duke, J. H. (1970). Carbohydrate and nitrogen metabolism after injury. Ciba Foundation Symposium. Energy Metabolism in Trauma, pp. 103126 [Porter, R. and Knight, J. editors]. London: Churchill.Google Scholar
Lowry, S. F. (1992). Modulating the metabolic response to injury and infection. Proceedings of the Nutrition Society 51, 267277.Google Scholar
Marano, M. A., Fong, Y., Moldawer, L. L., Wei, H., Calvano, S. E., Tracey, K. J., Barie, P. S., Manogue, K., Cerami, A., Shires, G. T. & Lowry, S. F. (1990). Serum cachectin, tumour necrosis factor in critically ill patients with burns, correlates with infection and mortality. Surgery, Gynaecology and Obstetrics 170, 3238.Google Scholar
Michie, H. R., Manogue, K. R., Spriggs, D. R., Revhaug, A., O'Dwyer, S., Dinarello, C. A., Cerami, A., Wolff, S. M. & Wilmore, D. W. (1988). Detection of circulating tumour necrosis factor after endotoxin administration. New England Journal of Medicine 318, 14811486.CrossRefGoogle ScholarPubMed
Michie, H. R., Sherman, M. L., Spriggs, D. R., Rounds, J., Christie, M. & Wilmore, D. W. (1989). Chronic TNF infusion causes anorexia but not accelerated nitrogen loss. Annals of Surgery 209, 1924.CrossRefGoogle Scholar
Oliff, A., Defeo-Jones, D., Boyer, M., Martinez, D., Kiefer, D., Vuocolo, G., Wolfe, A. & Socher, S. H. (1989). Tumours secreting human TNF cachectin induce cachexia in mice. Cell 50, 555563.Google Scholar
Rothwell, N. J. (1989). CRF is involved in the pyrogenic and thermogenic effects of Interleukin-1β in the rat. American Journal of Physiology 256, E111E115.Google Scholar
Rothwell, N. J. (1992). Autonomic and central control of thermogenesis. In Obesity and Cachexia, pp. 1332 [Rothwell, N. J. and Stock, M. J. editors]. Chichester: John Wiley & Sons.Google Scholar
Sapolsky, R. M., Rivier, C., Yamamoto, G., Plotsky, G. & Vale, W. (1987). Interleukin-1 stimulates the secretion of hypothalamic corticotrophin releasing factor. Science 238, 522524.CrossRefGoogle Scholar
Spinas, G. A., Keller, U. & Brockhaus, M. (1992). Release of soluble receptors for tumour necrosis factor (TNF) in relation to circulating TNF during experimental endotoxaemia. Journal of Clinical Investigation 90, 533536.CrossRefGoogle Scholar
Tracey, K. J., Vlassara, H. & Cerami, A. (1989). Cachectin/tumour necrosis factor. Lancet i, 11221125.Google Scholar
Tracey, K. J., Wei, H., Manogue, K. R., Fong, Y., Hesse, D. G., Nguyen, H., Kuo, G. C., Beutler, B., Cotran, R. S., Cerami, A. & Lowry, S. F. (1988). Cachectin/tumour necrosis factor induces cachexia, anaemia, and inflammation. Journal of Experimental Medicine 167, 12111227.CrossRefGoogle ScholarPubMed
Uehara, A., Sekiya, C., Takasugi, Y., Namiki, M. & Arimura, A. (1989). Anorexia induced by interleukin 1: involvement of corticotrophin releasing factor. American Journal of Physiology 257, R613R617.Google Scholar
Van Dam, A. M., Brouns, M., Louisse, S. & Berkenbosch, F. (1992). Appearance of interleukin-1 in macrophages and in ramified microglia in the brain of endotoxin treated rats: a pathway for the induction of non-specific symptoms of sickness? Brain Research 588, 291296.Google Scholar
Wilmore, D. W. (1986). Are the metabolic alterations associated with critical illness related to the hormonal environment? Clinical Nutrition 5, 919.CrossRefGoogle Scholar
York, D. A. (1991). Neuroendocrine and metabolic derangements in animal models of obesity. In Obesity and Cachexia, pp. 103118 [Rothwell, N. J. and Stock, M. J. editors]. Chichester: John Wiley & Sons.Google Scholar