Cobelli C, Bettini F, Caumo A, Quon M J
Department of Electronics and Informatics, University of Padova, 35131 Padova, Italy.
Am J Physiol. 1998 Dec;275(6):E1031-6. doi: 10.1152/ajpendo.1998.275.6.E1031.
Glucose effectiveness is an important determinant of glucose tolerance that can be derived from minimal model analysis of an intravenous glucose tolerance test (IVGTT). However, recent evidence suggests that glucose effectiveness is overestimated by minimal model analysis. Here we compare a new model-independent estimate of glucose effectiveness with the minimal model estimate by reanalyzing published data in which insulin-dependent diabetic subjects were each given IVGTTs under two conditions (Quon, M. J., C. Cochran, S. I. Taylor, and R. C. Eastman. Diabetes 43: 890-896, 1994). In one case, a basal insulin level was maintained (BI-IVGTT). In the second case, a dynamic insulin response was recreated (DI-IVGTT). Our results show that minimal model glucose effectiveness is very similar to the model-independent measurement during a BI-IVGTT but is three times higher during a DI-IVGTT. To investigate the causes of minimal model overestimation in the presence of a dynamic insulin response, Monte Carlo simulation studies on a two-compartment model of glucose kinetics with various insulin response patterns were performed. Results suggest that minimal model overestimation is due to single-compartment representation of glucose kinetics that results in a critical oversimplification in the presence of increasingly dynamic insulin secretion patterns.
葡萄糖效能是葡萄糖耐量的一个重要决定因素,可通过静脉葡萄糖耐量试验(IVGTT)的最小模型分析得出。然而,最近的证据表明,最小模型分析高估了葡萄糖效能。在此,我们通过重新分析已发表的数据,比较了一种新的与模型无关的葡萄糖效能估计值和最小模型估计值,这些数据中胰岛素依赖型糖尿病受试者在两种条件下分别接受了IVGTT(Quon, M. J., C. Cochran, S. I. Taylor, and R. C. Eastman. Diabetes 43: 890 - 896, 1994)。在一种情况下,维持基础胰岛素水平(BI-IVGTT)。在第二种情况下,重现动态胰岛素反应(DI-IVGTT)。我们的结果表明,在BI-IVGTT期间,最小模型葡萄糖效能与独立于模型的测量值非常相似,但在DI-IVGTT期间则高出三倍。为了研究在存在动态胰岛素反应时最小模型高估的原因,我们对具有各种胰岛素反应模式的葡萄糖动力学两室模型进行了蒙特卡罗模拟研究。结果表明,最小模型的高估是由于葡萄糖动力学的单室表示,这在胰岛素分泌模式日益动态化的情况下导致了严重的过度简化。
