JPWO2020041766A5 - - Google Patents

Description

In some embodiments, the fill marks include the shape of circles, squares, triangles, polygons, or combinations thereof.
[Invention 1001]
First plate, second plate, hinge and separation sheet
An apparatus for sample analysis facilitated by said separation sheet comprising:
(a) the first plate and the second plate are movable to different configurations relative to each other, the different configurations including an initial configuration, an open configuration, or a closed configuration;
(i) each plate includes an inner surface having a sample contact area for contacting a sample disposed between said plates;
(ii) at least one of said plates has a thickness of 300um or less;
(iii) in the initial configuration one of the plates has all its edges, except the edge connected to the hinge, inside the edge of the other plate;
(b) the hinge such that the hinge is connected to the first plate and the second plate to allow the first plate and the second plate to rotate about the hinge to different configurations; is configured and
(c) the separation sheet has a thickness of 250um or less;
In the initial configuration,
the separation sheet is sandwiched between and in contact with the two plates;
the separation sheet has an extension not covered by any of the plates;
wherein the extension of the separation sheet is configured to facilitate separation of the two plates;
In the open configuration,
said first plate and said second plate are partially or wholly separated;
the sample is placed in the sample contact area on one or both of the plates;
the separation sheet is removed from any contact with one or both of the plates;
In the closed configuration, at least a portion of the placed sample is compressed into a thin layer by the two plates.
said device.
[Invention 1002]
a first plate, a second plate, a hinge, at least one reagent, and a separation sheet
An apparatus for sample analysis facilitated by said separation sheet comprising:
(a) the first plate and the second plate are movable relative to each other into different configurations, the different configurations comprising an initial configuration, an open configuration, or a closed configuration;
(i) each plate includes an inner surface having a sample contact area for contacting a sample disposed between said plates;
(ii) the second plate has a thickness of 300um or less;
(b) the hinge such that the hinge is connected to the first plate and the second plate to allow the first plate and the second plate to rotate about the hinge to different configurations; is configured and
(c) in said initial configuration, said at least one reagent is coated onto said sample contacting area of at least one of said plates;
(d) the separation sheet has a thickness of 250um or less;
In the initial configuration,
the separation sheet is sandwiched between and in contact with the two plates;
In the initial configuration, the separation sheet is configured to reduce or prevent the at least one reagent on one plate from contacting the other plate;
In the open configuration,
said first plate and said second plate are partially or wholly separated;
the sample is placed in the sample contact area on one or both of the plates;
the separation sheet is removed from any contact with one or both of the plates;
In the closed configuration, at least a portion of the deposited sample is compressed by the two plates into a sample layer of very uniform thickness.
said device.
[Invention 1003]
said initial configuration further comprising at least one reagent coated on said sample contacting area of at least one of said plates;
in the initial configuration, the separation sheet reduces or prevents the at least one reagent from contacting the other plate;
Apparatus of any prior invention.
[Invention 1004]
In the initial configuration, at least one reagent coated onto the sample contacting area of one of the plates and at least one other reagent coated onto the sample contacting area of the other plate at a corresponding position of the sample contacting area. further includes
In the initial configuration, the separation sheet reduces or prevents contact of the at least one reagent with the at least one other reagent on the corresponding location of the sample contact area of the other plate. ,
Apparatus of any prior invention.
[Invention 1005]
a spacer affixed to the inner surface of at least one of said plates and within said sample contact area of one or both of said plates
so that in said closed configuration said uniform thickness of said layer is limited by said inner surface of said plate and adjusted by said plate and said spacer, said thickness of said layer being between 0.01 and A device of any preceding invention that is 200 μm.
[Invention 1006]
The device of any preceding invention, wherein said at least one reagent coated on at least one of said plates is coated on both plates.
[Invention 1007]
The device of any preceding invention, wherein said separation sheet maintains the shelf life of said at least one reagent, or maintains the chemical integrity of said at least one reagent, or both.
[Invention 1008]
The device of any preceding invention, wherein the separation sheet is configured to prevent the at least one reagent on one plate from contacting the other plate.
[Invention 1009]
The apparatus of any preceding invention, wherein said separation sheet facilitates physical separation of said first plate and said second plate from said initial configuration to said open configuration.
[Invention 1010]
The device of any preceding invention, wherein said separating sheet is made from a non-porous material selected from sheets, fibrous sheets, polymers, polymer-coated papers, or combinations thereof.
[Invention 1011]
The device of any preceding invention, wherein said separation sheet is a material selected from polystyrene, PMMA, PC, COC, COP, or combinations thereof.
[Invention 1012]
The hinge is configured to substantially maintain a dihedral angle of 0 to 180 degrees between the first plate and the second plate before and after an external force is applied to the plates (0 degrees). The apparatus of any preceding invention,
[Invention 1013]
In the initial configuration, the second plate has all but one edge connected to the hinge inside the corresponding edge of the first plate. Device.
[Invention 1014]
Any preceding invention wherein, in said initial configuration, said second plate has at least one edge inside a corresponding edge of said first plate, except for one edge connected to said hinge. device.
[Invention 1015]
In said initial configuration, said separation sheet has at least one edge, said at least one edge extending beyond corresponding edges of said first plate and said second plate; Apparatus of the preceding invention.
[Invention 1016]
In the initial configuration, the separation sheet has at least one edge, the at least one edge extending beyond corresponding edges of the first plate and the second plate;
opening or separating the first plate and the second plate, wherein the size of the separating sheet is from the initial configuration having a dihedral angle of about 0 degrees to the open configuration having a dihedral angle greater than about 0 degrees; configured to facilitate
Apparatus of any prior invention.
[Invention 1017]
A method for using a device for sample analysis facilitated by a separation sheet, comprising:
(i) obtaining a device of any prior invention having said separation sheet;
(ii) removing the separation sheet from the space between the first plate and the second plate;
(iii) placing a sample for analysis when the device is in the open configuration;
(iv) after (iii), closing the two plates into a closed configuration, wherein at least a portion of the sample is disposed in the open configuration;
(v) applying a compressive force by pressing the two plates together to form a layer of very uniform thickness bounded by the inner surfaces of the plates;
The above method, comprising
[Invention 1018]
The method of any preceding invention further comprising step (vi) of analyzing said sample.
[Invention 1019]
Analyze the samples by enzyme-linked immunosorbent assay (ELISA), radioimmunoassay (RIA), immunoblot analysis, immunofluorescence assay (IFA), immunohistochemistry, immunoelectron microscopy (IEM), or immunoluminescence. The method of any preceding invention further comprising step (vi).
[Invention 1020]
The method of any preceding invention, wherein the sample comprises biomarkers selected from proteins, small molecules, cells, particles, nucleic acids, or combinations thereof.
[Invention 1021]
further comprising step (v) removing said compressive force;
In step (v), the hinge maintains a dihedral angle between the first plate and the second plate, the dihedral angle being reduced from the dihedral angle before the compressive force is removed by: The method of any preceding invention from 1 to 30 degrees, including any intermediate values and ranges.
[Invention 1022]
The apparatus of any preceding invention, wherein said first plate and said second plate comprise rectangular planar members.
[Invention 1023]
The apparatus of any preceding invention, wherein said first plate and said second plate comprise transparent planar members.
[Invention 1024]
The apparatus of any preceding invention, wherein said first plate and said second plate include a uniform gap or void therebetween when in said closed configuration.
[Invention 1025]
The device of any preceding invention, wherein said sample contact area is disposed on said inner surface of said first plate.
[Invention 1026]
The apparatus of any preceding invention, wherein said sample contacting area comprises a predetermined area configured to be brought into contact with a sample and confining said sample to said predetermined area.
[Invention 1027]
Any prior art document, wherein the separation sheet comprises a flexible planar member comprising a non-porous material configured to prevent liquids, reagents, debris, or combinations thereof from penetrating the separation sheet. Inventive device.
[Invention 1028]
the separation sheet is removably affixable to the inner surface of at least the first plate or the second plate, the separation sheet configured to protect and enclose the sample contact area; Apparatus of any prior invention.
[Invention 1029]
The device of any preceding invention, wherein said separation sheet comprises an adhesive for removably attaching to at least one of said first plate and said second plate.
[Invention 1030]
The device of any preceding invention, wherein said separating sheet comprises a pressure sensitive adhesive or a pressure activated adhesive.
[Invention 1031]
The device of any preceding invention, wherein said adhesive comprises an elastomeric compound.
[Invention 1032]
Any preceding wherein the adhesive comprises an elastomeric compound selected from the group consisting of acrylics, bio-based acrylics, butyl rubber, ethylene vinyl acetate (EVA), styrene block copolymers (SBC), or combinations thereof. Apparatus of the invention.
[Invention 1033]
The device of any preceding invention, wherein said separation sheet is soluble in water, or soluble in water associated with a sample, or soluble in said sample placed in said device.
[Invention 1034]
Any preceding wherein the separating sheet is soluble in water or soluble in the water of the sample in the device when activated by a change in temperature, light, or a combination thereof. Apparatus of the invention.
[Invention 1035]
The device of any preceding invention, wherein said separating sheet is transparent.
[Invention 1036]
The device of any preceding invention, wherein said separating sheet is opaque.
[Invention 1037]
The device of any preceding invention, wherein said separating sheet has a hydrophobic surface.
[Invention 1038]
The separation sheet is
430 thickness of 5um, 10um, 20um, 30um, 50um, 100um, 200um, 300um, 500um, including intermediate values and ranges
A device of any preceding invention, comprising:
[Invention 1039]
The material of the separation sheet is glass, metal, glass microfiber, cellulose acetate, cotton linter, cellulose, polyethylene, paper, wood fiber, recycled newspaper, vegetable matter, recycled cloth, waste cloth, cellulose fibers (plants, wood, The device of any prior invention selected from wood pulp, rice, aquatic plants, cotton), or combinations thereof.
[Invention 1040]
First Plate, Second Plate, Spacer, and Liquid Reagent Storage Location
a device for assaying a sample with the liquid reagent storage location, comprising:
i. wherein the first plate and the second plate are movable to different configurations relative to each other;
ii. one or both plates are flexible,
iii. the spacer is fixed to the inner surface of the first plate and has a predetermined uniform height;
iv. the liquid reagent storage locations are on the first plate, the second plate, or both;
One of the different configurations is an open configuration, in which the plates are partially or wholly spaced apart, the spacing between the plates is not adjusted by the spacers, and the sample is placed on one or both sides. placed on the plate,
One of the different configurations is a closed configuration configured after placement of the sample in the open configuration, wherein at least a portion of the placed sample is compressed into a continuous layer by the two plates. ,
said device.
[Invention 1041]
said liquid reagent storage locations are a plurality of wells on one or both of said plates;
any liquid reagents stored in the wells are sealed by a film between the first plate and the second plate;
Any prior method A device or method of the present invention.
[Invention 1042]
First plate, second plate, storage wells, sealing film, and liquid reagents
A device for assaying a sample comprising
(a) the first plate and the second plate are movable to different configurations relative to each other, the different configurations including an initial configuration, an open configuration, or a closed configuration;
(i) the first plate and the second plate each include an inner surface having a sample contact area for contacting the sample disposed between the first plate and the second plate;
(ii) said first plate has a thickness of 1,000 microns or less;
(b) said storage well has a depth of less than 250 microns and is on said inner surface of said second plate;
(c) the sealing film is a flexible sheet having a thickness of 150um or less;
in the initial configuration, the liquid reagent is substantially within the storage well, the sealing film is configured to cover an opening of the storage well to store the liquid reagent inside the storage well;
wherein the initial configuration is a configuration in which both the plates are in contact with the sealing film;
The open configuration includes:
A configuration in which the first plate and the second plate are partially or totally separated and the sample is placed on one or both plates
and
The closed configuration comprises: (i) the sealing film is removed from the space between the first plate and the second plate; wherein said uniform thickness of said layer, limited by said inner surface of said plate, is in the range of 0.01 to 200 μm, compressed into a layer of very uniform thickness by
said device.
[Invention 1043]
First plate, second plate, storage wells, sealing film, and liquid reagents
A device for assaying a sample comprising
(a) the first plate and the second plate are movable to different configurations relative to each other, the different configurations including an initial configuration, an open configuration, or a closed configuration;
(i) the first plate and the second plate each include an inner surface having a sample contact area for contacting the sample disposed between the first plate and the second plate;
(ii) said first plate has a thickness of 1,000 microns or less;
(b) said storage well has a depth of less than 250 microns and is on said inner surface of said second plate;
(c) the sealing film is a flexible sheet having a thickness of 150um or less;
In the initial configuration, the liquid reagent is substantially within the storage well and the sealing film is configured to seal an opening of the storage well to store the liquid reagent inside the storage well. ,
wherein the initial configuration is a configuration in which both the plates are in contact with the sealing film;
The open configuration includes:
A configuration in which the first plate and the second plate are partially or totally separated and the sample is placed on one or both plates
and
The closed configuration comprises: (i) at least a portion of the sample being compressed by the first plate and the second plate into a layer of uniform thickness, the uniform thickness of the layer bounded by the inner surfaces of the plates; (ii) the sealing film is ruptured by the spacer to release the reagent stored in the well into the sample;
said device.
[Invention 1044]
The device of any preceding invention, wherein said sealing film is a separating sheet.
[Invention 1045]
A method for having liquid reagents on a device for sample analysis, comprising:
(i) obtaining a device of any prior invention having a sealing film;
(ii) removing the sealing film from the space between the first plate and the second plate;
(iii) placing a sample for analysis when the device is in the open configuration;
(iv) after step (iii), closing the first plate and the second plate to a closed configuration, wherein at least a portion of the sample placed in the open configuration is in contact with the first plate; and compressed by said second plate into a layer of very uniform thickness, said uniform thickness of said layer limited by said inner surfaces of said first plate and said second plate being between 0.01 and 200 μm. and wherein the liquid reagent contacts the sample; and
The above method, comprising
[Invention 1046]
a flexible first plate having spacers;
a second plate having storage wells, a liquid reagent within the storage wells, and a sealing film for sealing the liquid reagent within the storage wells;
A device for assaying a sample comprising
when the spacer provides spacing between the first plate and the second plate such that the plates are configured into a closed configuration after the sample is placed on either inner surface of the plates; forming a sample layer having a uniform thickness;
when the plates are compressed together, the spacers puncture the sealing film to release the liquid reagents from the storage wells and contact the sample;
said device.
[Invention 1047]
Less than:
a first collection plate having spacers, said spacers attached to one surface of said collection plate;
a filter member on said spacer of said first collection plate;
An apparatus for separating components of a complex sample comprising
wherein the filter member receives liquid containing the composite sample, and a compressive force applied to the composite sample causes components in the composite sample to separate between the filter member and the first collection plate;
said device.
[Invention 1048]
The apparatus of any preceding invention having said filter member wherein said compressive force is provided by gravity, centrifugation, a human hand, a hydraulic press, a source of compressed air, or a combination thereof.
[Invention 1049]
further comprising a second collection plate;
said second collection plate having spacers, said spacers affixed to one surface of said second collection plate; A device of any preceding invention having said filter member, wherein two collection plates are placed over said filter member.
[Invention 1050]
Any prior art book having said filter member separate components in said composite sample such that smaller components are collected in said collection plate and larger components are retained on said filter member. Inventive device.
[Invention 1051]
A method of separating a complex sample in a device of any prior invention having said filter member, comprising:
contacting the filter member with the composite sample;
compressing the composite sample over the filter member of the device having at least one collection plate to separate components of the composite sample;
The above method, comprising
[Invention 1052]
Less than:
A first collection plate having spacers affixed to one surface of the collection plate and having a reagent coated onto the surface of the collection plate with the spacers. When,
a filter member overlying said spacer of said first collection plate, said filter member having an optical structure on a surface of said filter member in contact with said spacer;
A device for assaying a complex sample comprising
wherein the filter member receives a liquid containing the composite sample;
a compressive force applied to the composite sample causes components within the composite sample to separate between the filter member and the first collection plate;
when the reagent coat is present, contacting the separated components on the first collection plate to form a product between the reagent and the analyte;
the optical structure enhances detection of the product between the reagent and the analyte;
said device.
[Invention 1053]
The apparatus of any preceding invention having said filter member further comprising an optical structure in place of said reagent coat on said first collection plate.
[Invention 1054]
The apparatus of any preceding invention, wherein said optical structure comprises said filter member selected from an optical plate, an optical coat, or a combination thereof.
[Invention 1055]
The apparatus of any preceding invention having said filter member wherein said compressive force is provided by gravity, centrifugation, a human hand, a hydraulic press, a source of compressed air, or a combination thereof.
[Invention 1056]
First plate, second plate and alignment mark
An apparatus for sample analysis facilitated by marks comprising
said first plate and said second plate are movable relative to each other into different configurations including an open configuration and a closed configuration;
each of said plates including an inner surface having a sample contact area for contacting a sample to be analyzed;
either or both of said plates have said placement marks indicating approximate locations on said plates for placing said samples;
in the open configuration, the plates are partially or wholly spaced apart and the average spacing between the sample contacting areas of the plates is greater than 300 um;
in the closed configuration, the first plate and the second plate are compressed together to sandwich the sample into a thin layer having a thickness of 200 μm or less;
said alignment mark configured to facilitate said analysis of said sample when said plate is in said closed configuration;
said device.
[Invention 1057]
First plate, second plate and compression mark
An apparatus for sample analysis facilitated by marks comprising
said first plate and said second plate are movable relative to each other into different configurations including an open configuration and a closed configuration;
each of said plates includes an inner surface having a sample contact area for contacting a sample;
either or both of the plates have compression marks indicating approximate positions to begin compression of the plates into the closed configuration;
in the open configuration, the plates are partially or wholly spaced apart and the average spacing between the sample contacting areas of the plates is greater than 300 um;
in the closed configuration, the first plate and the second plate are compressed together to sandwich the sample into a thin layer having a thickness of 200 μm or less;
said compression mark configured to facilitate said analysis of said sample when said plate is in said closed configuration;
said device.
[Invention 1058]
1st plate, 2nd plate and filling mark
An apparatus for sample analysis facilitated by marks comprising
said first plate and said second plate are movable relative to each other into different configurations including an open configuration and a closed configuration;
each of said plates includes an inner surface having a sample contact area for contacting a sample;
Either or both of said plates are
the fill mark indicating the approximate area where the sample needs to be filled when the plate is in the closed configuration;
has
in the open configuration, the plates are partially or wholly spaced apart and the average spacing between the sample contacting areas of the plates is greater than 300 um;
in the closed configuration, the first plate and the second plate are compressed together to sandwich the sample into a thin layer having a thickness of 200 μm or less;
wherein the fill mark is configured to facilitate the analysis of the sample when the plate is in the closed configuration;
said device.
[Invention 1059]
A method for assaying a complex sample comprising the steps of:
(i) below:
A first collection plate having spacers affixed to one surface of the collection plate and having a reagent coated onto the surface of the collection plate with the spacers. When,
a filter member overlying said spacer of said first collection plate, said filter member having an optical structure on a surface of said filter member in contact with said spacer;
obtaining a device of any prior invention having
(ii) placing a sample for analysis on the filter member;
(iii) providing a compressive force to the sample on the filter member to separate the composite sample between the filter member and the first collection plate;
including
when the reagent coat is present, contacting the separated components on the first collection plate to form a product between the reagent and the analyte;
enhancing detection of the product between the reagent and the analyte when the optical structure is present;
the aforementioned method.
[Invention 1060]
A method for sample analysis facilitated by alignment marks, comprising:
(i) obtaining a device of any prior invention having said alignment mark, comprising:
said first plate and said second plate are movable relative to each other into different configurations including an open configuration and a closed configuration;
each of said plates including an inner surface having a sample contact area for contacting a sample to be analyzed;
wherein either or both of said plates have said placement marks indicating approximate locations on said plates for placing said samples;
(ii) placing the sample on the alignment mark;
(iii) compressing the plate;
including
in the open configuration, the plates are partially or wholly spaced apart and the average spacing between the sample contacting areas of the plates is greater than 300 um;
in the closed configuration, the first plate and the second plate are compressed together to sandwich the sample into a thin layer having a thickness of 200 μm or less;
said alignment mark configured to facilitate said analysis of said sample when said plate is in said closed configuration;
the aforementioned method.
[Invention 1061]
A method for sample analysis facilitated by compression marks, comprising the steps of:
(i) obtaining a device of any prior invention having said compression mark,
said first plate and said second plate are movable relative to each other into different configurations including an open configuration and a closed configuration;
each of said plates including an inner surface having a sample contact area for contacting a sample to be analyzed;
wherein either or both of said plates have said compression marks indicating approximate locations on said plates for compression of said samples;
(ii) placing the sample on the sample contact area;
(iii) compressing the plate over the compression marks;
including
in the open configuration, the plates are partially or wholly spaced apart and the average spacing between the sample contacting areas of the plates is greater than 300 um;
in the closed configuration, the first plate and the second plate are compressed together to sandwich the sample into a thin layer having a thickness of 200 μm or less;
said compression mark configured to facilitate said analysis of said sample when said plate is in said closed configuration;
the aforementioned method.
[Invention 1062]
A method for sample analysis facilitated by fill marks comprising the steps of:
Obtaining a device of any prior invention having said filling mark, comprising:
said first plate and said second plate are movable relative to each other into different configurations including an open configuration and a closed configuration;
each of said plates including an inner surface having a sample contact area for contacting a sample to be analyzed;
wherein either or both of said plates have said filling marks indicating the approximate location and amount on said plate to place said sample;
placing the sample on the sample contact area in proximity to the fill mark;
compressing the plate;
including
in the open configuration, the plates are partially or wholly spaced apart and the average spacing between the sample contacting areas of the plates is greater than 300 um;
in the closed configuration, the first plate and the second plate are compressed together to sandwich the sample into a thin layer having a thickness of 200 μm or less;
wherein the fill mark is configured to facilitate the analysis of the sample when the plate is in the closed configuration;
the aforementioned method.
[Invention 1063]
The apparatus and method of any preceding invention, wherein said alignment mark or said compression marker comprises the shape of a cross, a star, a small circle, or a combination thereof.
[Invention 1064]
The apparatus and method of any preceding invention, wherein said fill marks comprise the shape of a circle, square, triangle, polygon, or combinations thereof.

Claims (44)

A device for sample analysis facilitated by alignment marks, comprising a first plate, a second plate, and alignment marks, comprising:
said first plate and said second plate are movable relative to each other into different configurations including an open configuration and a closed configuration;
each of said plates including an inner surface having a sample contact area for contacting a sample to be analyzed;
the placement marks are on one or both of the plates and indicate an approximate location on the plate for placement of the sample;
in the open configuration, the plates are partially or wholly spaced apart and the average spacing between the sample contacting areas of the plates is greater than 300 μm ;
in the closed configuration, the first plate and the second plate are compressed together to sandwich the sample into a thin layer with a thickness of 200 μm or less;
said alignment mark configured to facilitate said analysis of said sample when said plate is in said closed configuration ;
the sample contains or is suspected of containing an analyte;
Said device . A method for sample analysis facilitated by alignment marks, comprising:
(i) obtaining the device of claim 1 ;
(ii) placing the sample on the alignment mark in the open configuration ;
(iii) compressing the plate into the closed configuration ;
the aforementioned method. 2. The device of claim 1 , wherein the alignment mark comprises the shape of a cross, a star, a small circle, or a combination thereof. 2. The device of claim 1 , wherein the alignment mark comprises the shape of a circle, square, triangle, polygon, or combinations thereof. 2. The device of claim 1, wherein at least one of said plates is coated with at least one reagent. 2. The device of claim 1, further comprising a spacer,
The spacer is attached to the inner surface of at least one of the plates and is within the sample contact area of one or both of the plates, so that in the closed configuration the uniform thickness of the layer is limited by the inner surface of the plate and adjusted by the plate and the spacer, the thickness of the layer being 0.01 to 200 μm;
Said device. a device according to claim 1;
a camera configured to image at least a portion of a sample in the device for analyzing the sample;
an adapter configured to position the device and the camera relative to each other such that the camera images a predetermined display position of the device, wherein the predetermined display position is the placement of the device said adapter having a predetermined position relative to the mark;
A sample analyzer, comprising: having a device according to claim 7;
placing the sample in the open configuration at or about the location of the alignment mark, wherein the sample is suspected of containing an analyte;
placing the device in the closed configuration;
using an adapter to position the device and the camera relative to each other such that the camera images a predetermined viewing position of the device, the predetermined viewing position relative to the alignment mark of the device. said step having a predetermined position;
imaging the sample using the camera and having one or more images;
analyzing an analyte in the sample using the one or more images;
A method for sample analysis, comprising: the device further comprising a separation sheet having a thickness of 250 μm or less;
the separation sheet is sandwiched between the first plate and the second plate and is in contact with the first plate and the second plate;
wherein the separation sheet has an extension that is not covered by either the first plate or the second plate;
Device according to claim 1. 10. The device of Claim 9, wherein the extension of the separation sheet is configured to facilitate separation of the first plate and the second plate. said device further comprising a hinge coupled to said first plate and said second plate;
the hinge is configured to allow the first plate and the second plate to rotate about the hinge to different configurations;
Device according to claim 1. wherein said hinge is configured to self-maintain an angle;
the hinge is capable of substantially maintaining a constant angle after an external force is removed from the plate that causes the plate to move from an initial dihedral angle to another angle;
12. Device according to claim 11. (iv) analyzing the sample;
3. The method of claim 2, further comprising: (iv) by enzyme-linked immunosorbent assay (ELISA), radioimmunoassay (RIA), immunoblot analysis, immunofluorescence assay (IFA), immunohistochemistry, immunoelectron microscopy (IEM), or immunoluminescence; Process of analyzing the sample
3. The method of claim 2, further comprising: 3. The method of claim 2, wherein said sample comprises an analyte selected from proteins, nucleic acids, small molecules, cells, particles, or combinations thereof. 7. The device of claim 6, wherein a filter member is positioned above said spacer of said first plate, said filter member separating a complex sample into components. 3. The device of claim 1, wherein said first plate and said second plate comprise transparent planar members. 2. The device of claim 1, wherein the first plate and the second plate include a uniform gap or void therebetween when in the closed configuration. 2. The device of Claim 1, wherein the device further comprises a sealing film positioned between the first plate and the second plate. the device further comprising a separation sheet;
wherein said separation sheet comprises a flexible planar member comprising a non-porous material configured to prevent liquids, reagents, debris, or combinations thereof from penetrating said separation sheet;
Device according to claim 1. the separation sheet is removably affixable to the inner surface of at least the first plate or the second plate, the separation sheet configured to protect and enclose the sample contact area; 10. Device according to claim 9. 10. The device of Claim 9, wherein the separation sheet comprises an adhesive for removably attaching to at least one of the first plate and the second plate. 10. The device of Claim 9, wherein the separating sheet comprises a pressure sensitive adhesive or a pressure activated adhesive. 23. The device of Claim 22, wherein the adhesive comprises an elastomeric compound. 23. The adhesive of claim 22, wherein said adhesive comprises an elastomeric compound selected from the group consisting of acrylics, bio-based acrylics, butyl rubber, ethylene vinyl acetate (EVA), styrenic block copolymers (SBC), or combinations thereof. Devices listed. 10. The device of claim 9, wherein said separation sheet is soluble in water, or soluble in water associated with a sample, or soluble in said sample disposed on said device. 10. The device of claim 9, wherein said separating sheet has a thickness in the range of 5 μm to 500 μm. 10. The device of Claim 9, wherein the separation sheet comprises a material selected from the group consisting of glass, metal, cloth, cellulose acetate, cellulose, polyethylene, vegetable matter, and combinations thereof. 3. The method of claim 2, wherein the alignment mark comprises the shape of a cross, a star, a small circle, or a combination thereof. the device further comprising compression marks on one or both plates;
the compression mark indicates an approximate position to apply a compressive force to bring the two plates from the open configuration to the closed configuration;
Device according to claim 1. 8. The apparatus of claim 7, wherein the alignment mark on the plate is located outside the field of view of the camera. 9. The method of claim 8, wherein said analyte is selected from proteins, small molecules, cells, particles, nucleic acids, or combinations thereof. The sample contains amniotic fluid, aqueous humor, vitreous humor, blood, breast milk, cerebrospinal fluid (CSF), cerumen (earwax), chyle, chime, endolymph, perilymph, excreta, gastric acid, gastric juice, lymph, mucus, 2. Selected from pericardial fluid, ascites, pleural effusion, pus, mucosal secretions, saliva, sebum, semen, sputum, sweat, synovial fluid, tears, vomit, urine, exhaled breath condensate, or combinations thereof. The method described in . 3. The method of claim 2, wherein said sample is whole blood. 9. The method of claim 8, wherein the images are analyzed by machine learning methods. having a device according to claim 16;
placing a sample on the upper surface of the filter member;
A method of analyzing said sample, comprising: at least one of said plates being a flexible plate,
The fourth power of the spacer distance (ISD) divided by the thickness (h) of the flexible plate and the Young's modulus (E) of the flexible plate, ISD ⁴ /(hE) is 10^6 μm ³ /GPa or less. 7. The device of claim 6, wherein said spacers are arranged periodically. 7. The device of claim 6, wherein said spacers are arranged periodically. 3. The device of claim 1, further comprising microwells on said sample contacting surface. 2. The device of claim 1, further comprising microwells on said sample contacting surface, a liquid within said microwells, and a thin film encapsulating said liquid. 3. The device of claim 1, further comprising a reagent on one or both of said sample contact areas. 2. The device of claim 1, further comprising a reagent on one or both of said sample contact areas, said reagent being a colorimetric reagent. 2. The device of claim 1, further comprising a reagent on one or both of said sample contact areas, said reagent being a fluorescent reagent.