Cellulosic-based resistance domain for an analyte sensor
First Claim
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1. A method for forming a transcutaneous analyte sensor for measuring an analyte in a host, the method comprising:
- forming a membrane system on an electroactive surface of the transcutaneous analyte sensor, wherein the transcutaneous analyte sensor comprises an in vivo portion and an ex vivo portion, wherein the in vivo portion is configured to be exposed to interstitial fluid, wherein the membrane system comprises a resistance domain configured to control a flux of the analyte therethrough and an enzyme configured to catalyze a reaction of the analyte and oxygen from the interstitial fluid surrounding the membrane system, wherein the resistance domain is formed to comprise a hydrophilic portion and a hydrophobic portion, wherein the resistance domain is formed with an oxygen to glucose permeability ratio of less than about 400;
1, and wherein the membrane system is formed of a material that provides substantially constant signal output when the transcutaneous analyte sensor is at an analyte concentration of 400 mg/dL glucose while oxygen concentration is dropped from 0.6 mg/L to 0.25 mg/L;
forming an oxygen conduit portion extending from the ex vivo portion of the transcutaneous analyte sensor to the in vivo portion of the transcutaneous analyte sensor;
crosslinking at least a portion of the membrane system;
conducting a test of the transcutaneous analyte sensor to confirm that the transcutaneous analyte sensor demonstrates substantial linearity up to an analyte concentration of at least 400 mg/dL, wherein substantial linearity is associated with a R2 correlation that meets a predetermined criteria;
conducting a test of the transcutaneous analyte sensor by monitoring for a substantially constant signal output from the transcutaneous analyte sensor as an oxygen concentration level surrounding the sensor is decreased to a predetermined level;
measuring a sensitivity of the sensor;
determining that the sensitivity is a functional sensitivity;
inserting the transcutaneous analyte sensor into a package, whereby the package holds a plurality of transcutaneous analyte sensors; and
sterilizing the plurality of transcutaneous analyte sensors in the package simultaneously.
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Abstract
The present invention relates generally to devices for measuring an analyte in a host. More particularly, the present invention relates to devices for measurement of glucose in a host that incorporate a cellulosic-based resistance domain.
663 Citations
14 Claims
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1. A method for forming a transcutaneous analyte sensor for measuring an analyte in a host, the method comprising:
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forming a membrane system on an electroactive surface of the transcutaneous analyte sensor, wherein the transcutaneous analyte sensor comprises an in vivo portion and an ex vivo portion, wherein the in vivo portion is configured to be exposed to interstitial fluid, wherein the membrane system comprises a resistance domain configured to control a flux of the analyte therethrough and an enzyme configured to catalyze a reaction of the analyte and oxygen from the interstitial fluid surrounding the membrane system, wherein the resistance domain is formed to comprise a hydrophilic portion and a hydrophobic portion, wherein the resistance domain is formed with an oxygen to glucose permeability ratio of less than about 400;
1, and wherein the membrane system is formed of a material that provides substantially constant signal output when the transcutaneous analyte sensor is at an analyte concentration of 400 mg/dL glucose while oxygen concentration is dropped from 0.6 mg/L to 0.25 mg/L;forming an oxygen conduit portion extending from the ex vivo portion of the transcutaneous analyte sensor to the in vivo portion of the transcutaneous analyte sensor; crosslinking at least a portion of the membrane system; conducting a test of the transcutaneous analyte sensor to confirm that the transcutaneous analyte sensor demonstrates substantial linearity up to an analyte concentration of at least 400 mg/dL, wherein substantial linearity is associated with a R2 correlation that meets a predetermined criteria; conducting a test of the transcutaneous analyte sensor by monitoring for a substantially constant signal output from the transcutaneous analyte sensor as an oxygen concentration level surrounding the sensor is decreased to a predetermined level; measuring a sensitivity of the sensor; determining that the sensitivity is a functional sensitivity; inserting the transcutaneous analyte sensor into a package, whereby the package holds a plurality of transcutaneous analyte sensors; and sterilizing the plurality of transcutaneous analyte sensors in the package simultaneously. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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Specification