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Development of a dual-function glucose sensing and hormone delivery catheter for

$292,552R43FY2013DKNIH

Embedrf, Llc, Portland OR

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Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): Type 1 diabetes often leads to short-term and long-term complications which impair quality of life. Many research groups, including ours, are developing an artificial endocrine pancreas (AP), which combines continuous glucose sensing with automated hormone delivery. However, the complexity of current AP systems which require at least one hormone delivery catheter and at least one glucose sensor precludes current systems from commercial viability or acceptance by patients. In addition, bacterial colonization and infection at insertion sites is not unusual further emphasizing the need for reducing the number of devices that must be inserted into the patient's body. For this reason, a reduction in the number of sensing and infusion sites is desirable. In this project, we propose to create a novel artificial pancreas technology that consists of a flexible polymer-based catheter into which a continuous amperometric sensor will be integrated. In other words, this proposed device is an insulin delivery catheter that also monitors glucose continuously. This miniaturized device will allow more freedom of movement and increase patient comfort and acceptance. Because of its lower risk for catheter dislodgement, the subcutaneous location has an advantage over the intradermal location. We also believe that an amperometric sensing method is preferred over a micro-dialysis method due to the lack of a need for fluid compartments for perfusion and waste. Using advanced techniques in solid state design and micro-fabrication, we will fabricate a flat amperometric sensing array on a flexible polyimide substrate that will be wrapped around a polyimide catheter tube. A subtraction system, using active and inactivated glucose oxidase, will be developed to avoid the effects of compounds that interfere with the continuous glucose assay. The flat sheet on which the sensing elements are placed will be automatically wrapped around a central tube to create the sensing catheter. Multichannel amplifiers will be built for laboratory testing of the sensors. A miniaturized electronic module will be developed in order to test the device in anesthetized swine. In the swine, glucose sensing accuracy from sensing catheters through which insulin is delivered will be compared to sensing catheters through which saline is delivered.

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Development of a dual-function glucose sensing and hormone delivery catheter for · GrantIndex