Analyte sensors and methods for making and using them
First Claim
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1. An analyte sensor apparatus for implantation within a mammal, the analyte sensor apparatus comprising:
- a base layer;
a conductive layer disposed upon the base layer wherein the conductive layer includes a working electrode;
an analyte sensing layer disposed on the conductive layer, wherein the analyte sensing layer detectably alters the electrical current at the working electrode in the conductive layer in the presence of an analyte; and
an analyte modulating layer disposed on the analyte sensing layer,wherein;
the analyte modulating layer modulates the diffusion of the analyte therethrough;
the analyte modulating layer comprising a hydrophilic comb-copolymer having a central chain and a plurality of side chains coupled to the central chain;
the hydrophilic comb-copolymer comprises a polydimethyl siloxane monomethacrylate, methyl methacrylate; and
methoxy poly(ethylene oxide)monomethacrylate comb-copolymer;
the analyte modulating layer exhibits a glucose diffusion coefficient of between 2.3×
10−
9 cm2/s and 140×
10−
9 cm2/s; and
the analyte modulating layer comprises;
30-50 wt % polydimethyl siloxane monomethacrylate;
30-55 wt % methyl methacrylate; and
15-25 wt % methoxy poly(ethylene oxide)monomethacrylate,such that the comb-copolymer exhibits a molecular weight from 139 kg/mol to 196 kg/mol.
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Abstract
Embodiments of the invention provide analyte sensors having elements designed to modulate their chemical reactions as well as methods for making and using such sensors. In certain embodiments of the invention, the sensor includes a hydrophilic comb-copolymer having a central chain and a plurality of side chains coupled to the central chain, wherein at least one side chain comprises a silicone moiety.
113 Citations
7 Claims
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1. An analyte sensor apparatus for implantation within a mammal, the analyte sensor apparatus comprising:
-
a base layer; a conductive layer disposed upon the base layer wherein the conductive layer includes a working electrode; an analyte sensing layer disposed on the conductive layer, wherein the analyte sensing layer detectably alters the electrical current at the working electrode in the conductive layer in the presence of an analyte; and an analyte modulating layer disposed on the analyte sensing layer, wherein; the analyte modulating layer modulates the diffusion of the analyte therethrough; the analyte modulating layer comprising a hydrophilic comb-copolymer having a central chain and a plurality of side chains coupled to the central chain; the hydrophilic comb-copolymer comprises a polydimethyl siloxane monomethacrylate, methyl methacrylate; and
methoxy poly(ethylene oxide)monomethacrylate comb-copolymer;the analyte modulating layer exhibits a glucose diffusion coefficient of between 2.3×
10−
9 cm2/s and 140×
10−
9 cm2/s; andthe analyte modulating layer comprises; 30-50 wt % polydimethyl siloxane monomethacrylate; 30-55 wt % methyl methacrylate; and 15-25 wt % methoxy poly(ethylene oxide)monomethacrylate, such that the comb-copolymer exhibits a molecular weight from 139 kg/mol to 196 kg/mol. - View Dependent Claims (2, 3)
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4. An analyte sensor apparatus for implantation within a mammal, the analyte sensor apparatus comprising:
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a base layer; a conductive layer disposed upon the base layer wherein the conductive layer includes a working electrode; an analyte sensing layer disposed on the conductive layer, wherein the analyte sensing layer detectably alters the electrical current at the working electrode in the conductive layer in the presence of an analyte; and an analyte modulating layer disposed on the analyte sensing layer, wherein; the analyte modulating layer modulates the diffusion of the analyte therethrough;
the analyte modulating layer comprising a hydrophilic comb-copolymer having a central chain and a plurality of side chains coupled to the central chain; andthe analyte modulating layer exhibits; (a) a glucose diffusion coefficient of between 2.3×
10−
9 cm2/s and 140×
10−
9 cm2/s;(b) a oxygen diffusion coefficient (Doxygen) to glucose diffusion coefficient (Dglucose) ratio (Doxygen/Dglucose) of from 5 to 2000; and
a water uptake between 20% and 40%; and(c) the analyte modulating layer comprises; 30-50 wt % polydimethyl siloxane monomethacrylate; 30-55 wt % methyl methacrylate; and 15-25 wt % methoxy poly(ethylene oxide)monomethacrylate, such that the comb-copolymer exhibits a molecular weight from 139 kg/mol to 196 kg/mol. - View Dependent Claims (5, 6, 7)
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Current AssigneeMedtronic Minimed Incorporated (Medtronic Plc)
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Original AssigneeMedtronic Minimed Incorporated (Medtronic Plc)
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InventorsWang, Yunbing, Hoss, Udo, Shah, Rajiv, Wang, Jenn-Hann Larry, Van Antwerp, William P., Cochran, Brooks B.
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Primary Examiner(s)Kahelin, Michael
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Assistant Examiner(s)Alter, Mitchell E
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Application NumberUS11/492,273Publication NumberTime in Patent Office3,465 DaysField of Search600/345, 600/347, 436/63US Class Current1/1CPC Class CodesA61B 5/14532 for measuring glucose, e.g....A61B 5/14546 for measuring analytes not ...A61B 5/14865 invasive, e.g. introduced i...C12Q 1/006 for glucoseY10T 29/49002 Electrical device making
