MEMS affinity sensor for continuous monitoring of analytes
First Claim
1. An implantable monitor for monitoring a target analyte in interstitial fluid of a subject, comprising a microdevice coupled with a wireless interface;
- wherein the microdevice comprises;
a semi-permeable membrane structure;
a substrate; and
a first microchamber and a second microchamber, each formed between the semi-permeable membrane structure and the substrate, each of the first and second microchambers comprising a suspended element positioned to be spaced apart from the substrate;
wherein the suspended element in each of the first and second microchambers comprises a perforated top electrode and the substrate comprises a bottom electrode;
wherein the first microchamber is adapted to receive a solution including a polymer capable of binding the target analyte;
wherein the second microchamber is adapted to receive a reference solution for screening effects not caused by the target analyte;
wherein perforations in the top electrode in the first microchamber are configured to allow the solution to fill a gap between the top electrode in the first microchamber and the bottom electrode;
wherein perforations in the top electrode in the second microchamber are configured to allow the reference solution to fill a gap between the top electrode in the second microchamber and the bottom electrode;
wherein the semi-permeable membrane structure is permeable to the target analyte and impermeable to the polymer, thereby when the sample is placed in contact with the semi-permeable membrane structure, the target analyte, if present in the sample, permeates the semi-permeable membrane structure and enters the first microchamber and the second microchamber, respectively, and the polymer is prevented from escaping from the first microchamber through the semi-permeable membrane structure.
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Abstract
Techniques for monitoring a target analyte in a sample using a polymer capable of binding to the target analyte are disclosed. An implantable monitor useful for the disclosed techniques includes a microdevice coupled with a wireless interface. The wireless interface can comprise a capacitance digital converter coupled with the microdevice and can be adapted to produce a digital signal representing a measurement of the target analyte. A microcontroller can be coupled with the capacitance digital converter and a transponder can be coupled with the microcontroller to transmit the digital signal received from the capacitance digital converter to an external reader.
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Citations
5 Claims
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1. An implantable monitor for monitoring a target analyte in interstitial fluid of a subject, comprising a microdevice coupled with a wireless interface;
wherein the microdevice comprises; a semi-permeable membrane structure; a substrate; and a first microchamber and a second microchamber, each formed between the semi-permeable membrane structure and the substrate, each of the first and second microchambers comprising a suspended element positioned to be spaced apart from the substrate; wherein the suspended element in each of the first and second microchambers comprises a perforated top electrode and the substrate comprises a bottom electrode; wherein the first microchamber is adapted to receive a solution including a polymer capable of binding the target analyte; wherein the second microchamber is adapted to receive a reference solution for screening effects not caused by the target analyte; wherein perforations in the top electrode in the first microchamber are configured to allow the solution to fill a gap between the top electrode in the first microchamber and the bottom electrode; wherein perforations in the top electrode in the second microchamber are configured to allow the reference solution to fill a gap between the top electrode in the second microchamber and the bottom electrode; wherein the semi-permeable membrane structure is permeable to the target analyte and impermeable to the polymer, thereby when the sample is placed in contact with the semi-permeable membrane structure, the target analyte, if present in the sample, permeates the semi-permeable membrane structure and enters the first microchamber and the second microchamber, respectively, and the polymer is prevented from escaping from the first microchamber through the semi-permeable membrane structure. - View Dependent Claims (2, 3, 4, 5)
Specification