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本文引用的文献

1
Continuous measurement of blood glucose: validation of a new intravascular sensor.连续血糖监测:新型血管内传感器的验证。
Anesthesiology. 2011 Jan;114(1):120-5. doi: 10.1097/ALN.0b013e3181ff4187.
2
Essential elements of the native glucoregulatory system, which, if appreciated, may help improve the function of glucose controllers in the intensive care unit setting.天然葡萄糖调节系统的基本要素,如果能够被认识到,可能有助于改善重症监护病房环境中葡萄糖控制器的功能。
J Diabetes Sci Technol. 2010 Jan 1;4(1):190-8. doi: 10.1177/193229681000400124.
3
Mathematical modeling research to support the development of automated insulin-delivery systems.支持自动胰岛素输送系统开发的数学建模研究。
J Diabetes Sci Technol. 2009 Mar 1;3(2):388-95. doi: 10.1177/193229680900300223.
4
Pulsatility of insulin release--a clinically important phenomenon.胰岛素分泌的脉动性——一个具有临床重要意义的现象。
Ups J Med Sci. 2009;114(4):193-205. doi: 10.3109/03009730903366075.
5
Measurement of pulsatile insulin secretion in the rat: direct sampling from the hepatic portal vein.大鼠搏动性胰岛素分泌的测量:经肝门静脉直接采样。
Am J Physiol Endocrinol Metab. 2008 Sep;295(3):E569-74. doi: 10.1152/ajpendo.90335.2008. Epub 2008 Jun 24.
6
Intensive insulin therapy in the medical ICU.医学重症监护病房中的强化胰岛素治疗。
N Engl J Med. 2006 Feb 2;354(5):449-61. doi: 10.1056/NEJMoa052521.
7
Continuous glucose monitoring and closed-loop systems.持续葡萄糖监测与闭环系统。
Diabet Med. 2006 Jan;23(1):1-12. doi: 10.1111/j.1464-5491.2005.01672.x.
8
Effect of an intensive glucose management protocol on the mortality of critically ill adult patients.强化血糖管理方案对成年危重症患者死亡率的影响。
Mayo Clin Proc. 2004 Aug;79(8):992-1000. doi: 10.4065/79.8.992.
9
Pharmacokinetic-pharmacodynamic modelling of insulin: comparison of indirect pharmacodynamic response with effect-compartment link models.胰岛素的药代动力学-药效学建模:间接药效学反应与效应室连接模型的比较
J Pharm Pharmacol. 2002 Jun;54(6):791-800. doi: 10.1211/0022357021779131.
10
Intensive insulin therapy in critically ill patients.危重症患者的强化胰岛素治疗
N Engl J Med. 2001 Nov 8;345(19):1359-67. doi: 10.1056/NEJMoa011300.

静脉内胰岛素给药的药理学:对通过静脉/静脉途径进行未来闭环血糖控制的影响。

Pharmacology of intravenous insulin administration: implications for future closed-loop glycemic control by the intravenous/intravenous route.

机构信息

Department of Circulation and Medical Imaging, Norwegian University of Science and Technology, Trondheim, Norway.

出版信息

Diabetes Technol Ther. 2012 Jan;14(1):23-9. doi: 10.1089/dia.2011.0118. Epub 2011 Jul 13.

DOI:10.1089/dia.2011.0118
PMID:21751892
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3249623/
Abstract

BACKGROUND

Our group is attempting to construct an artificial pancreas based on intravenous glucose monitoring and intravenous insulin delivery. To do so, the pharmacology of intravenous insulin administration must be studied. We used a pig model to determine the inherent lag time in the insulin/blood glucose system. The goal was to suggest a method that reduces the blood glucose level in a rapid and yet predictable manner.

METHODS

Six pigs received continuous intravenous insulin infusions at 0.04, 0.08, or 0.4 IU/kg/h for 60 min. Two pigs received short-term intravenous infusions at 0.4 IU/kg/h for 2 min, repeated five times at 60-min intervals. Four animals received five intravenous insulin bolus injections at 60-min intervals, two at 0.01 IU/kg and two 0.02 IU/kg, with a final dose of 0.04 IU/kg. The blood glucose level was measured every 1-5 min.

RESULTS

A high rate of intravenous insulin infusion led to rapid declines in blood glucose levels. The same rapid decline was achieved when the infusion was halted after 2 min. Using the latter method and with intravenous insulin boluses, blood glucose levels started to rise again after approximately 15-20 min. Insulin boluses led to a first detectable decrease in blood glucose level after 2-6 min and to a maximum rate of decrease shortly thereafter.

CONCLUSIONS

We found that intravenous bolus injections of insulin lowered blood glucose levels rapidly and predictably. Repetitive small intravenous insulin boluses together with an accurate and fast-responding intravascular continuous glucose monitor should be studied as a method of closed-loop glycemic control.

摘要

背景

我们的团队正试图基于静脉血糖监测和静脉胰岛素输注构建人工胰腺。为此,必须研究静脉内给予胰岛素的药理学。我们使用猪模型确定胰岛素/血糖系统中的固有滞后时间。目标是提出一种能够快速且可预测地降低血糖水平的方法。

方法

6 头猪连续 60 分钟接受 0.04、0.08 或 0.4IU/kg/h 的静脉胰岛素输注。2 头猪接受 0.4IU/kg/h 的短期静脉输注,每 60 分钟重复 5 次。4 只动物在 60 分钟间隔内接受 5 次静脉胰岛素推注,2 次 0.01IU/kg,2 次 0.02IU/kg,最后剂量为 0.04IU/kg。每 1-5 分钟测量血糖水平。

结果

高剂量静脉胰岛素输注导致血糖水平迅速下降。输注停止 2 分钟后也会出现同样的快速下降。使用后一种方法并给予静脉胰岛素推注,大约 15-20 分钟后血糖水平开始再次升高。胰岛素推注后 2-6 分钟血糖水平开始首次可检测到下降,并在此后不久达到最大下降速度。

结论

我们发现静脉推注胰岛素可快速且可预测地降低血糖水平。重复小剂量静脉胰岛素推注加上准确且快速响应的血管内连续血糖监测,应作为闭环血糖控制的方法进行研究。