Improvement of glucose homeostasis in insulin-dependent diabetics using a miniature insulin infusion pump with a fixed profile

Kølendorf, K; Bojsen, J.; Lørup, B.

doi:10.1007/bf00290491

Cited by 8 publications

(3 citation statements)

References 19 publications

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“…1 Continuous intravenous infusion of insulin can diminish the magnitude and duration of this rise by allowing a sharp increase in the rate of insulin infusion when blood glucose levels tend to rise. 2 ' 3 Continuous intravenous infusion of insulin is not practical for the routine management of diabetes mellitus and hence an alternative method of achieving a rapid rise in plasma insulin at meal times is required.…”

mentioning

confidence: 99%

Plasma Free Insulin Profiles After Administration of Insulin by Jet and Conventional Syringe Injection

Taylor¹,

Home²,

Alberti³

1981

Diabetes Care

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Plasma free insulin profiles in insulin-dependent diabetic subjects were compared after jet and syringe injection of insulin. Jet injection of insulin resulted in a shift of the free insulin profile to the left. Thus higher plasma free insulin levels were found over the first 30 min after injection (P less than 0.05), while after 240 min plasma free insulin levels were lower than those seen following syringe injection (P less than 0.05). Significant differences in the response of blood glucose and 3-hydroxybutyrate levels reflected the differences in plasma free insulin levels. Jet administration results in more rapid absorption of insulin and could be useful in providing a more physiologic postprandial insulin profile than that seen after conventional injection.

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mentioning

confidence: 99%

Plasma Free Insulin Profiles After Administration of Insulin by Jet and Conventional Syringe Injection

Taylor¹,

Home²,

Alberti³

1981

Diabetes Care

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“…An alternative solution to multiple daily injections (MDI) is the use of insulin pumps that, by delivering insulin in smaller amounts but more frequently throughout the day, approximate physiological insulin secretion patterns, thereby achieving better glucose control than episodic insulin injections. There is evidence supporting the idea that normoglycemia prevents later complications to diabetes, and studies have shown a better control of blood glucose levels with continuous subcutaneous insulin infusion (CSII) over MDI 3,4. Improved blood glucose control has been observed in patients under CSII for periods as short as 5 weeks to periods longer than 12 months 5-8.…”

Section: Introductionmentioning

confidence: 99%

“…There is evidence supporting the idea that normoglycemia prevents later complications to diabetes, and studies have shown a better control of blood glucose levels with continuous subcutaneous insulin infusion (CSII) over MDI. 3,4 Improved blood glucose control has been observed in patients under CSII for periods as short as 5 weeks to periods longer than 12 months. [5][6][7][8] A decreased rate of severe hypoglycemia, lower hemoglobin A1c, and no change in diabetic ketoacidosis usually follow insulin pump therapy, whether regular or lispro insulin was used.…”

Section: Introductionmentioning

confidence: 99%

Effects of Pulsatile Subcutaneous Injections of Insulin Lispro on Plasma Insulin Concentration Levels

Chan

Breton

Kovatchev

2008

J Diabetes Sci Technol

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Modeling absorption kinetics of subcutaneous injected soluble insulin

Mosekilde

Jensen

Binder³

et al. 1989

Journal of Pharmacokinetics and Biopharmaceutics

124

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Absorption of subcutaneously injected soluble insulin deviates markedly from simple first-order kinetics and depends both on the volume and concentration of the injected solution. This paper presents a model of the absorption process in which insulin is presumed to be present in subcutis in a low molecular weight form, a high molecular weight form, and an immobile form where the molecules are bound to the tissue. The model describes how diffusion and absorption gradually reduce the insulin concentrations in the subcutaneous depot and thereby shift the balance between the three forms in accordance with usual laws of chemical kinetics. By presuming that primarily low molecular weight insulin penetrates the capillary walls, the model can account for experimentally observed variations in the absorption rate over a wide range of volumes and of concentrations. The model is used to determine the effective diffusion constant D for insulin in subcutis, the absorption rate constant B for low molecular weight insulin, the equilibrium constant Q between high and low molecular weight insulin, the binding capacity C for insulin in the tissue, and the average life time T for insulin in its bound state. Typical values for a bolus injection in the thigh of fasting type I diabetic patients are D = 0.9 x 10(-4) cm2/min, B = 1.3 X 10(-2)/min, and Q = 0.13 (ml/IU)2. Binding of insulin in the tissue is significant only at small concentrations. The binding capacity is of the order of C = 0.05 IU/cm3 with a typical average life time in the bound state of T = 80.0 min. Combined with a simplified model for distribution and degradation of insulin in the body, the absorption model is used to simulate variations in plasma free insulin concentrations with different delivery schedules, i.e., bolus injection and dosage by means of an infusion pump. The simulations show that a pump repetition frequency of 1-2 per hr is sufficient to secure an almost constant plasma insulin concentration.

show abstract

Improvement of glucose homeostasis in insulin-dependent diabetics using a miniature insulin infusion pump with a fixed profile

Cited by 8 publications

References 19 publications

Plasma Free Insulin Profiles After Administration of Insulin by Jet and Conventional Syringe Injection

Plasma Free Insulin Profiles After Administration of Insulin by Jet and Conventional Syringe Injection

Effects of Pulsatile Subcutaneous Injections of Insulin Lispro on Plasma Insulin Concentration Levels

Modeling absorption kinetics of subcutaneous injected soluble insulin

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