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Abstract

Aim

The present study explores new signals (capillary 3βhydroxybutyrate - 3 βOHB) for improving the safety of a closed loop insulin infusion system (external wearable artificial pancreas).

Methods

Data collected during a clinical trial on diabetic subjects including a period of insulin deprivation were interpreted through mathematical models to simulate the effect of monitoring ketone bodies (capillary 3βOHB, KB) compared to blood glucose in subjects on Continuous Subcutaneous Insulin Infusion (CSII) treatment.

Results

The estimation of model coefficients satisfactorily fits experimental data. The evaluation of dynamic changes of capillary 3βOHB levels showed a more rapid response than blood glucose.

Conclusions

The effect of the combination of monitoring of glucose and ketone bodies can consistently improve the safety and efficacy of the use of a closed loop system for glycemic control in dangerous situations like ketoacidosis. If a subcutaneous glucose-ketone bodies sensor were to become available in the near future it would be a key component of an external artificial pancreas.

Keywords

Mathematical model Artificial pancreas Ketone bodies 3betahydroxybutirate Type 1 diabetes mellitus

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References

Byrne

H.A.

, Tieszen

K.L.

, Hollis

, Dornana

T.L.

, New

J.P.

Evaluation of an electrochemical sensor for measuring blood ketones. Diabetes Care 2000; 23: 500–3.

Chiu

R.W.K.

, Ho

C.S.

, Tong

S.F.

, Ng

K.F.

, Lam

C.W.

Evaluation of a new handheld biosensor for point-of-care testing of whole blood beta-hydroxybutyrate concentration. Hong Kong Med J 2002; 8: 172–6.

Cembrowski

, Apple

F.S.

, Ricchiutt

, Velazquez

, Christenson

, Johnson

, Bernstein

, Schwatz

Multicenter evaluation of a meter for blood glucose and ketone monitoring. Diabetes 1999; 48(suppl 1): P0265.

Schartmann

, Larbig

, Schone

, Unger

, Lemke

, Henrichs

H.R.

3-Hydroxybutyrate monitoring by means of a hand-held device after interruption of insulin pump therapy. EASD 2000 (Abstract 797).

Khan

A.S.A.

, Talbot

, Tieszen

, Harris

, Siddals

K.W.

, Kaushal

, Gibson

J.M.

, New

J.P.

Accuracy of blood ketone sensor despite changes in pH and intermediary metabolites. Diabet Med 2003; 20(suppl 2); S85 (Abstract P229).

Laffel

, Brink

, Kaufman

, Bergenstal

, Fineberg

S.E.

, Jenkins

Frequency of elevations in blood B-hydroxybutyrate during home monitoring and association with glycaemia in insulin-treated children and adults. Diabetes 2000; 49(suppl 1); S92 (Abstract P369).

Schierloh

, Beaufort

Does morning ketonemia identify nocturnal hypo- or hyperglycemia? (Abstract 25). Meeting of the International Society of Pediatric and Adoloscent Diabetes; Siena, Italy, 2001.

Matthews

, Benbow

, Cavan

, Cradock

, Dale

, Greene

, Jones

, Rayman

, Wallace

Blood ketone monitoring advice for people with type 1 diabetes. Diabet Med 2003; 20(suppl 2); S110 (Abstract P298).

Orsini Federici

, Akwe Akwi

, Canonico

, Celleno

, Ferolla

, Timi

, Brunetti

, Massi Benedetti

Clinical evaluation of a hand-held meter for self monitoring of blood 3betahydroxybutirate (3BOH) during interruption of continuous subcutaneous insulin infusion (CSII) in Type 1 diabetics. Diabetologia 2003; 46: (suppl 2): S310 (896).

10.

Cobelli

, Toffolo

, Ferrannini

A model of glucose kinetics and their control by insulin, compartmental and non-compartmental approaches. Math Biosci 1984; 72: 291–316.

11.

Fabietti

P.G.

, Canonico

, Orsini Federici

, Massi Benedetti

, Sarti

Control oriented model of insulin and glucose dynamics in type 1 diabetics. Med Biol Eng Comput 2006; 44: 69–78.

12.

Canonico

, Fabietti

P.G.

, Ferolla

, Iorio

, Massi Benedetti

, Orsini Federici

, Sarti

Clinical assessment of a control oriented model of type I diabetics on real patients. Acta Diabetol 2003; 40: 42.

13.

Heinemann

, Chantelau

E.A.

, Starke

A.A.

Pharmacokinetics and pharmacodynamics of subcutaneously administered U40 and U100 formulations of regular human insulin. Diabete Metab 1992; 18: 21–4.

14.

Hoffman

, Ziv

Pharmacokinetic considerations of new insulin formulations and routes of administration. Clin Pharmacokinet 1997; 33: 285–301.

15.

Lindholm

, Jacobsen

L.V.

Clinical pharmacokinetics and pharmacodynamics of insulin aspart. Clin Pharmacokinet 2001; 40: 641–59.

16.

American Diabetes Association. Standards of medical care in diabetes. Diabetes Care 2005; 28(suppl 1): S4–36.

Model Based Study on Monitoring Ketone Bodies to Improve Safety in Intensive Insulin Therapy

Abstract

Aim

Methods

Results

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Keywords

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References