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Simple empirical assessment of Beta-cell function by a constant infusion of glucose test in normal and Type 2 (non-insulin-dependent) diabetic subjects (1991)

Levy, J. C. ; Rudenski, A. ; Burnett, M. ; [et al.]

Springer

Diabetologia 34 (1991), S. 488-499

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ISSN: 1432-0428

Keywords: Type 2 (non-insulin-dependent) diabetes mellitus ; insulin secretion ; Beta-cell function ; glucose tolerance test ; insulin resistance ; obesity ; hyperglycaemic clamp ; euglycaemic clamp ; plasma insulin ; plasma C-peptide

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The plasma insulin or C-peptide response to a 90-min constant glucose infusion 5 mg · kg ideal body weight−1·min−1 provides Beta-cell assessment comparable to more intensive methods. In 14 diet-treated Type 2 (non-insulin-dependent) diabetic subjects and 12 non-diabetic subjects, plasma insulin and C-peptide concentrations gave near linear plots against simultaneous glucose values. The ‘glucose-insulin and glucose-C-peptide vectors’ (G-I and G-C vectors), could be extrapolated to predict insulin and C-peptide levels during a 12 mmol/l hyperglycaemic clamp. Predicted concentrations correlated with clamp concentrations, r = 0.94 and r = 0.98 respectively, p〈0.001, validating the vectors as empirical glucose dose-response curves. The vector slopes correlated highly with % Beta, a mathematical model-derived measure of Beta-cell function using constant infusion of glucose model assessment, Spearman r = 0.95 and 0.93 for insulin and C-peptide, respectively. G-I vector slopes in 21 diet-treated Type 2 diabetic subjects with fasting glucose (mean +1 SD) 7.5±2,3 mmol/1, were lower than in 28 non-diabetic subjects, (geometric mean, 1 SD range, 8.4 pmol/mmol (3.3–21.0) and 25.1 pmol/mmol (14.3–44.1), p〈0.001, respectively), indicating an impaired Beta-cell response. The G-I vector slopes correlated with obesity in both groups (r = 0.54 p〈0.02 and 0.72, p〈0.001 respectively), and, in 15 non-diabetic subjects, correlated inversely with insulin sensitivity as measured by a euglycaemic clamp (r = −0.66, p〈0.01).Thus,Beta-cell function needs to be interpreted in relation to obesity/insulin resistance and, taking obesity into account, only 4 of 21 diabetic patients had Betacell function (G-I vector slope) in the non-diabetic range. The fasting plasma glucose in the diabetic subjects correlated inversely with the obesity-corrected G-I and G-C vector slopes (partial r = −0.57, p 〈0.01 and −0.86, p〈0.001, respectively). The insulin or C-peptide response to the glucose infusion provides a direct empirical measure of the Beta-cell function, which can be interpreted in relation to obesity or to insulin resistance to assess underlying pancreatic responsiveness.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00403285

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No glucotoxicity after 53 hours of 6.0 mmol/l hyperglycaemia in normal man (1991)

Flax, H. ; Matthews, D. R. ; Levy, J. C. ; [et al.]

Springer

Diabetologia 34 (1991), S. 570-575

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ISSN: 1432-0428

Keywords: Insulin ; glucose ; insulin resistance ; man ; glucotoxicity

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In vitro and in vivo studies have suggested that metabolic deterioration can be induced by hyperglycaemia per se. The effect of 53 h of 2.2 mg glucose · kg ideal body weight−1· min−1 was examined in four normal male subjects. This produced overnight hyperglycaemia of 6.0 mmol/l on the two nights of the study compared with 4.7 mmol/l on the control night (p〈0.05). In response there was a sustained, two-fold increase in basal plasma insulin (p〈0.005) and C-peptide (p〈0.05) levels. After two days of hyperglycaemia an increased Beta-cell response was demonstrated in response to an additional glucose infusion stimulus (estimated Beta-cell function median of 84% on the control day to 100% after two days glucose infusion). Plasma insulin and C-peptide responses to a 10.0 mmol/l hyperglycaemic clamp increased over the two days of the study (insulin from median 48 mU/l to 73 mU/l and C-peptide from median 2.0 pmol/ml to 2.6 pmol/ml). Glucose tolerance to the additional glucose infusion stimulus improved, suggesting that the increased insulin response during hyperglycaemia was enhancing peripheral glucose uptake. The calculated peripheral insulin sensitivity was unchanged during the hyperglycaemic clamp. Thus, in response to the two days of basal hyperglycaemia, both the basal and stimulated Beta-cell responses were enhanced and there was no evidence for ‘glucose toxicity’ to the Beta-cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00400275

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Loss of regular oscillatory insulin secretion in islet cell antibody positive non-diabetic subjects (1992)

Bingley, P. J. ; Matthews, D. R. ; Williams, A. J. K. ; [et al.]

Springer

Diabetologia 35 (1992), S. 32-38

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ISSN: 1432-0428

Keywords: Type 1 (insulin-dependent) diabetes mellitus ; islet-cell antibodies ; insulin secretion

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Basal insulin secretion was compared in nine islet-cell antibody positive, non-diabetic first-degree relatives of children with Type 1 (insulin-dependent) diabetes mellitus and nine normal control subjects matched for age, sex and weight. Acute insulin responses to a 25 g intravenous glucose tolerance test were similar in the two groups (243 (198–229) vs 329 (285–380) mU·l−1·10min−1, mean (±SE), p=0.25). Fasting plasma insulin was assayed in venous samples taken at one min intervals for 2 h. Time series analysis was used to demonstrate oscillatory patterns in plasma insulin. Autocorrelation showed that regular oscillatory activity was generally absent in the islet-cell antibody positive group, whereas a regular 13 min cycle was shown in control subjects (p〈 0.0001). Fourier transformation did, however, show a 13 min spectral peak in the islet-cell antibody positive group, consistent with intermittent pulsatility. We conclude that overall oscillatory patters of basal insulin secretion are altered in islet-cell antibody positive subjects even when the acute insulin response is within the normal range.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00400849

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Homeostasis model assessment: insulin resistance and β-cell function from fasting plasma glucose and insulin concentrations in man (1985)

Matthews, D. R. ; Hosker, J. P. ; Rudenski, A. S. ; [et al.]

Springer

Diabetologia 28 (1985), S. 412-419

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ISSN: 1432-0428

Keywords: β-cell function ; insulin resistance ; mathematical model ; intravenous glucose tolerance test ; glucose clamp ; insulin receptors ; Type 2 diabetes ; insulin ; glucose

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The steady-state basal plasma glucose and insulin concentrations are determined by their interaction in a feedback loop. A computer-solved model has been used to predict the homeostatic concentrations which arise from varying degrees of β-cell deficiency and insulin resistance. Comparison of a patient's fasting values with the model's predictions allows a quantitative assessment of the contributions of insulin resistance and deficient β-cell function to the fasting hyperglycaemia (homeostasis model assessment, HOMA). The accuracy and precision of the estimate have been determined by comparison with independent measures of insulin resistance and β-cell function using hyperglycaemic and euglycaemic clamps and an intravenous glucose tolerance test. The estimate of insulin resistance obtained by homeostasis model assessment correlated with estimates obtained by use of the euglycaemic clamp (Rs = 0.88, p 〈 0.0001), the fasting insulin concentration (Rs = 0.81, p 〈 0.0001), and the hyperglycaemic clamp, (Rs = 0.69, p 〈 0.01). There was no correlation with any aspect of insulin-receptor binding. The estimate of deficient β-cell function obtained by homeostasis model assessment correlated with that derived using the hyperglycaemic clamp (Rs = 0.61, p 〈 0.01) and with the estimate from the intravenous glucose tolerance test (Rs = 0.64, p 〈 0.05). The low precision of the estimates from the model (coefficients of variation: 31% for insulin resistance and 32% for β-cell deficit) limits its use, but the correlation of the model's estimates with patient data accords with the hypothesis that basal glucose and insulin interactions are largely determined by a simple feed back loop.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00280883

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