RU2417365C2 - Method and system for simultaneous measurement of multiple biological or chemical analytes in liquid - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: system includes a sensor array with a controlled sample container which has a device for delivering liquid and multiple optical sensor elements for simultaneous detection of the presence and general concentrations of multiple analytes in the processing system. Apparatus for delivering the measured amount of the liquid sample into the sensor array are provided. Image identification algorithms are provided for identifying analytes based on image intensity, colour structure, position and so forth.

EFFECT: methods include algorithms for multi-parametre optimisation for analysing response of multiple sensors, which yields analytical results which are usually difficult to obtain without complete compensation for the entire system or variables.

21 cl, 44 dwg, 7 tbl

Description

The text of the description is given in facsimile form.

Claims (21)

1. A method for simultaneously measuring a variety of biological or chemical analytes in a liquid, comprising the steps of:
providing a substrate containing a plurality of sensor elements, wherein each said sensor element is responsive to at least one of said many analytes;
providing at least one light source for directing light to said sensor elements;
delivering metered amounts of said liquid to each said sensor element;
detecting a response from said sensor elements;
recording said response in the form of a digital recording;
processing said digital recording; and
using said digital record to determine the concentration of each said analyte in said liquid,
wherein said delivery step includes providing a delivery device comprising a plurality of containers communicating with said sensor elements, said delivery device further comprising a sample inlet and a plurality of hydrophilic fluid channels that are connected between said containers and said inlet, to transfer a controlled volume of said liquid between said inlet and said containers, said devices the delivery further comprises a cover layer attached to said delivery device, said cover layer contains a plurality of substantially hydrophobic ventilation openings located above said containers, said cover layer further comprises a substantially hydrophilic bottom surface to provide a hydrophilic cap over said containers in order to facilitate the transfer of said liquid into said containers. 2. The method according to claim 1, wherein said substrate is a single molded structure comprising a plurality of containers, an inlet for a sample and a plurality of fluid channels connecting the inlet to said containers, said method further comprising the step of providing a coating layer, adapted to close said containers, wherein said sensor elements are placed inside said containers or on the lower surface of said coating layer. 3. The method according to claim 1, further comprising the step of removing said substrate from said delivery device after said delivery stage. 4. The method according to claim 1, further comprising the step of removing excess liquid from said delivery device after said delivery stage, said substrate being a DVD, CD, super audio CD, a dual layer disc or a blu-ray disc. 5. The method according to claim 1, wherein said delivery device further comprises an o-ring operatively associated with said inlet, said o-ring adapted to absorb excess liquid that spills over said delivery device. 6. The method according to claim 1, further comprising the step of providing a disc box for enclosing said substrate, wherein said substrate is a DVD, CD, super-audio CD, dual layer disc or blu-ray disc. 7. The method according to claim 4, further comprising the step of providing a blotting layer to remove excess fluid from said substrate. 8. The method according to claim 1, wherein said channels are capillary channels adapted to transfer said measured amounts of said liquid from said inlet to said containers due to capillary force without using impregnating materials or pumps. 9. The method according to claim 1, wherein said delivery stage includes delivering said liquid to said sensor elements via electroosmotic flow, electro-wetting, thermocapillary pumping, magnetic fields, surface-directed flow, electrochemical control, mechanical devices, centripetal force, gradients surface energy or combinations thereof. 10. The method according to claim 1, wherein said delivery step includes providing a delivery device mounted on said substrate, said delivery device comprising a plurality of containers communicating with said sensor elements, said containers adapted to receive a sample volume of said liquid, when said device is immersed in said liquid, said containers are adapted to hold said sample volume in said containers due to surface tension when the crumpled device is removed from said liquid. 11. A system for simultaneously measuring a variety of biological or chemical analytes in a liquid, comprising:
a substrate containing a plurality of sensor elements, each said sensor element being responsive to at least one of said many analytes;
at least one light source for directing light to said sensor elements;
detector means for detecting a response from said sensor elements, said detector means being adapted to convert said response into a digital recording;
an image identification algorithm for identifying said at least one analyte based on said digital recording;
software-based optimization algorithm for using said digital recording in order to obtain an analysis result; and
a delivery means for delivering measured quantities of said liquid to each said sensor element,
wherein said delivery means comprises a delivery device comprising a plurality of containers communicating with said sensor elements, said delivery device further comprising a sample inlet and a plurality of hydrophilic fluid channels that are connected between said containers and said inlet in order to carry a controlled the volume of said liquid between said inlet and said containers, said delivery device comprises a cover layer attached to said delivery device, said cover layer contains a plurality of substantially hydrophobic ventilation holes located above said containers, said cover layer further comprises a substantially hydrophilic bottom surface to provide a hydrophilic lid portion above said containers for facilitating the transfer of said liquid to said containers. 12. The system of claim 11, wherein said substrate is a single molded structure comprising a plurality of containers, an inlet for a sample and a plurality of fluid channels connecting the inlet to said containers, said system further comprising a coating layer adapted to cover said containers wherein said sensor elements are placed inside said containers or on the lower surface of said coating layer. 13. The system of claim 11, wherein said delivery device is permanently bonded to said substrate. 14. The system of claim 11, wherein said delivery device is removably adhered to said substrate. 15. The system of claim 11, wherein said delivery device further comprises an o-ring operably coupled to said inlet, said o-ring being adapted to absorb excess fluid that spills over said delivery device. 16. The system of claim 11, wherein said substrate is a DVD, CD, super audio CD, dual layer disc or blu-ray disc. 17. The system of clause 16, further comprising an optical drive for quantifying said response, wherein said delivery means comprises a disk box for enclosing said substrate. 18. The system of claim 17, further comprising a blotter layer to remove excess fluid from said substrate. 19. The system of claim 11, wherein said channels are capillary channels adapted to transfer said measured amounts of said liquid from said inlet to said containers due to capillary force without using impregnating materials or pumps. 20. The system of claim 11, wherein said delivery means comprises means for delivering said liquid to said sensor elements via electroosmotic flow, electro-wetting, thermocapillary pumping, magnetic fields, surface-directed flow, electrochemical control, mechanical devices, centripetal force, gradients surface energy or combinations thereof. 21. The system of claim 11, wherein said delivery means comprises a delivery device mounted on said substrate, said delivery device comprising a plurality of containers communicating with said sensor elements, said containers adapted to receive a sample volume of said liquid when said device immersed in said liquid, said containers are adapted to hold said sample volume in said containers due to surface tension when said device GUSTs removed from said fluid.

Images