Summary
Soon after the discovery of insulin, the importance of insulin sensitivity assessment was recognised. Recently, the role of insulin resistance in cardiovascular morbidity and mortality has been widely accepted and many methods for in vivo assessment of insulin resistance have been developed. They may be classified as ‘closed-loop’ techniques (in which insulin and glucose concentrations are allowed to interact freely), ‘open-loop’ techniques (in which insulin and/or glucose levels are fixed) and ‘model methods’ (which use a mathematical model to analyse the interactions between insulin secretion patterns and glucose disposal). Although there is no ideal method available to date, open-loop techniques avoid many of the difficulties involved in the interpretation of closed-loop or model methods, and are preferred by most investigators. The glucose clamp technique is recognised as the ‘gold standard’ for assessment of insulin sensitivity; however, the insulin suppression test is adequate in most circumstances and is much simpler to perform.
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References
Akinmokun A, Selby PL, Ramaiya K, Alberti KG. The short insulin tolerance test for determination of insulin sensitivity: a comparison with the euglycemic clamp. Diabetes Medicine 9: 432–437, 1992
Alexander RW, Forsham PH, Grodsky GM. Early insulin response to intravenous glucose in steroid-induced diabetes. Metabolism 18: 248–251, 1969
Andres R, Swerdloff R, Pozefsky T, Coleman D. Manual feedback technique for the control of blood glucose concentration. In Skeggs LT (Ed.) Automation in analytical chemistry, pp. 486–491, Madiad, New York, 1966
Bergman RN. Towards physiological understanding of glucose tolerance. Diabetes 38: 1512–1527, 1989
Bergman RN, Finegood DT, Ader M. Assessment of insulin sensitivity in vivo. Endocrine Reviews 6: 45–86, 1985
Bergman RN, Ider Yz, Bowden CR, Cobelli C. Quantitative estimation of insulin sensitivity American Journal of Physiology 236: E667–E677, 1979
Bergman RN, Prager R, Volund A, Olefsky JM. Equivalence of the insulin sensitivity index in man derived by the Minimal Model method and the euglycemic glucose clamp. Journal of Clinical Investigation 79: 790–800, 1987
Bonora E, Moghetti P, Zancanaro C, Cigolini M, Querena M, et al. Estimates of in vivo insulin action in man: comparison of insulin tolerance tests with the euglycemic and hyperglycemic clamp studies. Journal of Clinical Endocrinology and Metabolism 68: 374–378, 1989
Gerich JE, Charles MA, Grodsky GM. Regulation of pancreatic insulin and glucagon secretion Annual Reviews of Physiology 38: 353, 1976
Himsworth HP. Diabetes mellitus: its differentiation into insulin-sensitive and insulin-insensitive types Lancet 1: 127, 1936
Hollenbeck C, Reaven GM. Variations in insulin-stimulated glucose uptake in healthy individuals with normal glucose balance. Journal of Clinical Endocrinology and Metabolism 64: 1169–1173, 1987
Hosker JP, Mathiews DR, Rudenski AS, Burnett MA, Darling P, et al. Continuous infusion of glucose with model assessment: measurement of insulin resistance and β-cell function in man. Diabetologia 28: 401–411, 1985
Martinez FJ, Rizza RA, Romero JC. High fructose feeding elicits insulin resistance and hypertension in normal mongrel dogs. Hypertension, in press, 1993
Mathiews DR, Hosker JP, Rudenski AS, Naylor BA, Treacher DF, et al. Homeostasis model assessment: insulin resistance and β-cell function from fasting plasma glucose and insulin concentrations in man. Diabetologia 28: 412–419, 1985
Reaven GM. The role of insulin resistance in human pathology. Diabetes 37: 1595–1607, 1988
Shen SW, Reaven GM, Farquhar JW. Comparison of impedance to insulin-mediated glucose uptake in normal subjects and in subjects with latent diabetes. Journal of Clinical Investigation 49: 2151–2160, 1970
Yalow RS, Berson SA. Immunoassay of endogenous plasma insulin in man. Journal of Clinical Investigation 39: 1157–1175, 1960
Ziel FH, Venkatesan N, Davidson MB. Glucose transport is rate-limiting for skeletal muscle glucose metabolism in normal and streptozotocin-induced diabetic rats. Diabetes 37: 885–890, 1988
Zierler KL. Theory of the use of arterio venous concentration differences for measuring metabolism in steady and nonsteady states. Journal of Clinical Investigation 40: 2111–2125, 1961
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Martínez, F.J., Villa, E., Serrano, J. et al. Diagnosis of Insulin Resistance. Drugs 46 (Suppl 2), 165–171 (1993). https://doi.org/10.2165/00003495-199300462-00026
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DOI: https://doi.org/10.2165/00003495-199300462-00026