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Items: 1 to 20 of 112

1.

Towards continuous glucose monitoring: in vivo evaluation of a miniaturized glucose sensor implanted for several days in rat subcutaneous tissue.

Moatti-Sirat D, Capron F, Poitout V, Reach G, Bindra DS, Zhang Y, Wilson GS, Thévenot DR.

Diabetologia. 1992 Mar;35(3):224-30.

PMID:
1373393
2.

A subcutaneous glucose sensor with improved longevity, dynamic range, and stability of calibration.

Updike SJ, Shults MC, Gilligan BJ, Rhodes RK.

Diabetes Care. 2000 Feb;23(2):208-14.

3.

Continuous glucose monitoring in interstitial fluid using glucose oxidase-based sensor compared to established blood glucose measurement in rats.

Woderer S, Henninger N, Garthe CD, Kloetzer HM, Hajnsek M, Kamecke U, Gretz N, Kraenzlin B, Pill J.

Anal Chim Acta. 2007 Jan 2;581(1):7-12. Epub 2006 Aug 18.

PMID:
17386418
4.

In vivo evaluation of an electroenzymatic glucose sensor implanted in subcutaneous tissue.

Johnson KW, Mastrototaro JJ, Howey DC, Brunelle RL, Burden-Brady PL, Bryan NA, Andrew CC, Rowe HM, Allen DJ, Noffke BW, et al.

Biosens Bioelectron. 1992;7(10):709-14.

PMID:
1292518
5.

Biocompatibility of an enzyme-based, electrochemical glucose sensor for short-term implantation in the subcutis.

Kvist PH, Iburg T, Aalbaek B, Gerstenberg M, Schoier C, Kaastrup P, Buch-Rasmussen T, Hasselager E, Jensen HE.

Diabetes Technol Ther. 2006 Oct;8(5):546-59.

PMID:
17037969
6.
7.

Responses and calibration of amperometric glucose sensors implanted in the subcutaneous tissue of man.

Pickup JC, Claremont DJ, Shaw GW.

Acta Diabetol. 1993;30(3):143-8.

PMID:
8111074
8.

Strategies for calibrating a subcutaneous glucose sensor.

Velho G, Froguel P, Thevenot DR, Reach G.

Biomed Biochim Acta. 1989;48(11-12):957-64.

PMID:
2700068
9.
12.

Enzymatic glucose sensors. Improved long-term performance in vitro and in vivo.

Updike SJ, Shults MC, Rhodes RK, Gilligan BJ, Luebow JO, von Heimburg D.

ASAIO J. 1994 Apr-Jun;40(2):157-63.

PMID:
8003752
13.

Continuous monitoring of glucose in subcutaneous tissue using microfabricated differential affinity sensors.

Huang X, Leduc C, Ravussin Y, Li S, Davis E, Song B, Wang Q, Accili D, Leibel R, Lin Q.

J Diabetes Sci Technol. 2012 Nov 1;6(6):1436-44.

14.

Evaluation of subcutaneously-implanted glucose sensors for continuous glucose measurements in hyperglycemic pigs.

Kvist PH, Bielecki M, Gerstenberg M, Rossmeisl C, Jensen HE, Rolin B, Hasselager E.

In Vivo. 2006 Mar-Apr;20(2):195-203.

15.
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17.

A user-friendly method for calibrating a subcutaneous glucose sensor-based hypoglycaemic alarm.

Aussedat B, Thomé-Duret V, Reach G, Lemmonier F, Klein JC, Hu Y, Wilson GS.

Biosens Bioelectron. 1997;12(11):1061-71.

PMID:
9451795
18.

Lifespan of subcutaneous glucose sensors and their performances during dynamic glycaemia changes in rats.

Bobbioni-Harsch E, Rohner-Jeanrenaud F, Koudelka M, de Rooij N, Jeanrenaud B.

J Biomed Eng. 1993 Nov;15(6):457-63.

PMID:
8277748
19.
20.

Reduction of acetaminophen interference in glucose sensors by a composite Nafion membrane: demonstration in rats and man.

Moatti-Sirat D, Poitout V, Thomé V, Gangnerau MN, Zhang Y, Hu Y, Wilson GS, Lemonnier F, Klein JC, Reach G.

Diabetologia. 1994 Jun;37(6):610-6.

PMID:
7926347

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