Methods for detecting and quantifying analytes using gas species diffusion

US 10,386,351 B2
Filed: 12/07/2016
Issued: 08/20/2019
Est. Priority Date: 12/07/2015
Status: Active Grant

First Claim

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1. A method of determining the presence of an analyte in a test sample, the method comprising the steps of:

(a) exposing a gas sensor, derivatized with analyte binders capable of interacting specifically with the analyte, to a first gas sample comprising a known interrogator gas species and lacking the analyte;

(b) stopping sensor exposure to the first gas sample;

(c) determining a first gas sensor response profile from a selected time prior to initiating sensor exposure to the first gas sample to a selected time after stopping sensor exposure to the first gas sample and during diffusion of the known interrogator gas species to and from the sensor and through the analyte binders;

(d) exposing the sensor to the test sample, under conditions effective for formation of binder-analyte complexes;

(e) terminating exposure of the sensor to the test sample;

(f) after terminating exposure of the sensor to the test sample,i) exposing the sensor to a second gas sample, the second gas sample comprising the known interrogator gas species,ii) stopping sensor exposure to the second gas sample, andiii) determining a second gas sensor response profile from a selected time prior to initiating sensor exposure to the second gas sample to a selected time after stopping sensor exposure to the second gas sample and during diffusion of the known interrogator gas to and from the sensor; and

(g) indicating a presence of the analyte in the test sample if the first and second gas sensor response profiles indicate that diffusion of the known interrogator gas species to and from the sensor and through the analyte binders is different from diffusion of the known interrogator gas species to and from the sensor after terminating exposure of the gas sensor to the test sample.

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Abstract

Methods and sensors for detection and quantification of one or more analyte in a test sample are described. A response profile of a gas sensor to a control sample of a known interrogator gas is determined. The gas sensor is exposed to a test sample then to a second sample comprising the known interrogator gas, and a test sample response profile of the gas sensor is determined. One or more test sample sensor response profiles are compared with one or more control sensor response profiles for detecting, identifying, and quantifying one or more analytes in the test sample.

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17 Claims

1. A method of determining the presence of an analyte in a test sample, the method comprising the steps of:
- (a) exposing a gas sensor, derivatized with analyte binders capable of interacting specifically with the analyte, to a first gas sample comprising a known interrogator gas species and lacking the analyte;
  
  (b) stopping sensor exposure to the first gas sample;
  
  (c) determining a first gas sensor response profile from a selected time prior to initiating sensor exposure to the first gas sample to a selected time after stopping sensor exposure to the first gas sample and during diffusion of the known interrogator gas species to and from the sensor and through the analyte binders;
  
  (d) exposing the sensor to the test sample, under conditions effective for formation of binder-analyte complexes;
  
  (e) terminating exposure of the sensor to the test sample;
  
  (f) after terminating exposure of the sensor to the test sample,i) exposing the sensor to a second gas sample, the second gas sample comprising the known interrogator gas species,ii) stopping sensor exposure to the second gas sample, andiii) determining a second gas sensor response profile from a selected time prior to initiating sensor exposure to the second gas sample to a selected time after stopping sensor exposure to the second gas sample and during diffusion of the known interrogator gas to and from the sensor; and
  
  (g) indicating a presence of the analyte in the test sample if the first and second gas sensor response profiles indicate that diffusion of the known interrogator gas species to and from the sensor and through the analyte binders is different from diffusion of the known interrogator gas species to and from the sensor after terminating exposure of the gas sensor to the test sample.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. The method of claim 1 wherein the first and second gas samples each comprise a plurality of known interrogator gas species and wherein the known interrogator gas species are the same in the first and second gas samples.
  - 3. The method of claim 1 further comprising comparing the first and second gas sensor response profiles by performing a ratiometric comparison of the profiles.
  - 4. The method of claim 1 wherein the analyte binders are biomolecules.
  - 5. The method of claim 1 wherein the analyte is a biomolecule.
  - 6. The method of claim 5 wherein the test sample comprises a biological sample.
  - 7. The method of claim 1 wherein the gas sensor is in a sensor array.
  - 8. The method of claim 1 wherein the gas sensor is a conductometric semiconducting metal oxide sensor.
  - 9. The method of claim 8 wherein the gas sensor comprises a plurality of nanotraces made by nanoimprint lithography.
  - 10. The method of claim 9 wherein two or more nanotraces have different widths.
  - 11. The method of claim 1 wherein the analyte binders are attached to the gas sensor with linkers.
  - 12. The method of claim 1 wherein the analyte binders are coupled to a porous matrix.
  - 13. The method of claim 1 further comprising quantifying the analyte.

14. A method of detecting the presence of a plurality of different selected analytes in a test sample, the method comprising:
- (a) exposing at least a first gas sensor and a second gas sensor to a first gas sample comprising a known interrogator gas species and lacking at least a first analyte and a second analyte, wherein the first gas sensor is derivatized with selected first analyte binders capable of interacting specifically with the first analyte and the second gas sensor is derivatized with selected second analyte binders capable of interacting specifically with the second analyte;
  
  (b) stopping exposure of the first and second gas sensors to the first gas sample;
  
  (c) determining a first gas sensor response profile from a selected time prior to initiating exposure of the first gas sensor to the first gas sample to a selected time after stopping exposure of the first gas sensor to the first gas sample and during diffusion of the known interrogator gas species to and from the first gas sensor and through the selected first analyte binders;
  
  (d) determining a second gas sensor response profile from a selected time prior to initiating exposure of the second gas sensor to the first gas sample to a selected time after stopping exposure of the second gas sensor to the first gas sample and during diffusion of the known interrogator gas species to and from the second gas sensor and through the selected second analyte binders;
  
  (e) exposing the first gas sensor to the test sample under conditions effective for formation of first binder-analyte complexes comprising the first analyte and the selected first analyte binders and, exposing the second gas sensor to the test sample under conditions effective for formation of second binder-analyte complexes comprising the second analyte and the selected second analyte binders;
  
  (f) terminating exposure of the first and second gas sensors to the test sample;
  
  (g) after terminating exposure of the first and second gas sensors to the test sample,i) exposing the first and second gas sensors to a second gas sample, the second gas sample comprising the known interrogator gas species,ii) stopping exposure of the first and second gas sensors to the second gas sample,iii) determining a third gas sensor response profile from a selected time prior to initiating exposure of the first gas sensor to the second gas sample to a selected time after stopping exposure of the first gas sensor to the second gas sample and during diffusion of the known interrogator gas species to and from the first gas sensor; and
  
  iv) determining a fourth gas sensor response profile from a selected time prior to initiating exposure of the second gas sensor to the second gas sample to a selected time after stopping exposure of the second gas sensor to the second gas sample and during diffusion of the known interrogator gas to and from the second gas sensor;
  
  (h) indicating a presence of the first analyte in the test sample if the first and third gas sensor response profiles indicate that diffusion of the known interrogator gas species to and from the first gas sensor and through the selected first analyte binders is different from diffusion of the known interrogator gas species to and from the first gas sensor after terminating exposure of the first gas sensor to the test sample; and
  
  (i) indicating a presence of the second analyte in the test sample if the second and fourth gas sensor response profiles indicate that diffusion of the known interrogator gas species to and from the second gas sensor and through the selected second analyte binders is different from diffusion of the known interrogator gas species to and from the second gas sensor after terminating exposure of the second gas sensor to the test sample.
- View Dependent Claims (15, 16, 17)
- - 15. The method of claim 14 wherein the first, second, third, and fourth gas sensor response profiles are stored in a database.
  - 16. The method of claim 15 further comprising determining the quantities of the at least first and second analytes in the test sample.
  - 17. The method of claim 15 further comprising comparing the first and third gas sensor response profiles and comparing the second and fourth gas sensor response profiles using read-out integrated circuits and implementing data analysis deconvolution algorithms.

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Current Assignee
Nanohmics, Inc.
Original Assignee
Nanohmics, Inc.
Inventors
Savoy, Steve M., Hoover, Kyle W., Mitchell, Daniel R., John, Jeremy J., Mann, Chris W., Greis, Alexander P.
Primary Examiner(s)
Brown, Melanie

Application Number

US15/372,248
Publication Number

US 20170160250A1
Time in Patent Office

986 Days
Field of Search
US Class Current
CPC Class Codes

G01N 27/125 Composition of the body, e....

G01N 33/0036 specially adapted to detect...

Methods for detecting and quantifying analytes using gas species diffusion

First Claim

1 Assignment

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Abstract

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17 Claims

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Methods for detecting and quantifying analytes using gas species diffusion

First Claim

1 Assignment

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Accused Products

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Abstract

Citations

17 Claims

Specification

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Solutions

Use Cases

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