Abstract
The rates of storage and release of carbohydrate by the liver are deterined by the plasma concentrations of several bloodborne signals; most important are the concentrations of glucose, and the hormones insulin and glucagon. To understand the complex control relationships of these three signals as they affect the liver, their individual dynamic influences have been determined experimentally, and they have been integrated by means of a computer simulation of the pathways of hepatic glycogen metabolism. The simulation studies have led to specific hypotheses about the biochemical effects of glucose and insulin on the liver. The simulation studies have also led to the conclusion that glucose exerts a rapid moment-to-moment influence on the rate of uptake of glucose by the liver. Insulin, however, by exerting a slower influence on the sensitivity of the liver to glucose, is very effective in “optimizing” the amount of glucogen with the liver stores during food intake. Thus, integrated experimental and simulation studies can lead to a view of a physiological regulating system which does not emerge from either approach used alone.
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Supported by NIH Grant AM-17236. Trainee of the NIH, Grant GM-01724
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Bergman, R.N., Refai, M.E. Dynamic control of hepatic glucose metabolism: Studies by experiment and computer simulation. Ann Biomed Eng 3, 411–432 (1975). https://doi.org/10.1007/BF02409326
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DOI: https://doi.org/10.1007/BF02409326