JPWO2020040946A5 - - Google Patents

Description

In another aspect, the reservoir can be liquid-filled (eg, completely filled, substantially filled, etc.). The reservoir can include a lower reservoir surface, an upper reservoir surface, and reservoir sidewalls extending between the upper and lower reservoir surfaces. The liquid forms a column contacting the upper reservoir surface, the lower reservoir surface and the reservoir sidewalls. A liquid meniscus is positioned outside the reservoir. Light is transmitted through at least one of the upper reservoir surface and the lower reservoir surface.
[Invention 1001]
a lower reservoir surface;
an upper reservoir surface;
a reservoir sidewall extending between the upper reservoir surface and the lower reservoir surface;
A device comprising
the lower reservoir surface, the upper reservoir surface, and the reservoir sidewalls define a reservoir;
The reservoir is completely filled with the liquid such that, with a meniscus of liquid outside the reservoir, the liquid forms a column contacting the upper reservoir surface, the lower reservoir surface and the reservoir sidewalls. configured to
at least one of the upper reservoir surface and the lower reservoir surface is configured to transmit light;
Said device.
[Invention 1002]
1002. The device of invention 1001, further comprising a channel coupled to said reservoir sidewall.
[Invention 1003]
1003. The device of invention 1002, wherein said meniscus is positioned within said channel.
[Invention 1004]
1003. The device of invention 1002, further comprising a well fluidly coupled to said reservoir via said channel, said meniscus being positioned within said well.
[Invention 1005]
1003. The device of invention 1002, further comprising an assay chamber fluidically coupled to said reservoir via said channel.
[Invention 1006]
1006. The device of invention 1005, wherein said assay chamber comprises an inlet.
[Invention 1007]
1007. The device of invention 1006, further comprising reagents within said assay chamber.
[Invention 1008]
1008. The device of present invention 1007, wherein said reagent is configured to react with liquid received within said assay chamber via said inlet.
[Invention 1009]
1009. The device of invention 1008, wherein said channel is configured to transport said liquid from said assay chamber to said reservoir in response to the application of force to said assay chamber.
[Invention 1010]
1009. The device of the present invention 1009, wherein said force comprises centrifugal force.
[Invention 1011]
1011. The device of present invention 1010, further comprising a rotatable disc on which said reservoir is disposed, wherein rotating said disc generates said centrifugal force.
[Invention 1012]
1009. The device of the present invention 1009, further comprising a source of said gas configured to apply said force via a gas.
[Invention 1013]
the assay chamber comprising:
a lower assay chamber surface;
an upper assay chamber surface;
an assay chamber sidewall extending between said upper assay chamber surface and said lower assay chamber surface;
The device of the invention 1009, comprising:
[Invention 1014]
1013. The device of Invention 1013, wherein said assay chamber sidewall comprises a first portion extending substantially perpendicular to said upper assay chamber surface and said lower assay chamber surface.
[Invention 1015]
1015. The device of invention 1014, wherein said assay chamber sidewall includes a second portion extending at an obtuse angle from said lower assay chamber surface.
[Invention 1016]
1016. The device of the present invention 1015, wherein in response to application of said force said liquid is transported upward along said second portion and into said channel.
[Invention 1017]
1014. The device of invention 1013, wherein said assay chamber sidewall and said reservoir sidewall are integrally formed with each other.
[Invention 1018]
1018. The device of invention 1017, wherein said upper assay chamber surface and said upper reservoir surface are integrally formed with each other and attached to said integrally formed assay chamber sidewall and said reservoir sidewall.
[Invention 1019]
1018. The device of invention 1017, wherein said lower assay chamber surface and said lower reservoir surface are integrally formed with each other and attached to said integrally formed assay chamber sidewall and said reservoir sidewall.
[Invention 1020]
1019. The device of any of Inventions 1013-1019, wherein said assay chamber sidewall, said channel, and said reservoir sidewall are integrally formed with each other.
[Invention 1021]
1019. The device of any of Inventions 1013-1019, wherein said assay chamber sidewall and said reservoir sidewall are separate elements.
[Invention 1022]
The device of invention 1021, wherein said upper assay chamber surface and said upper reservoir surface are separate elements.
[Invention 1023]
The device of invention 1021, wherein said lower assay chamber surface and said lower reservoir surface are separate elements.
[Invention 1024]
1013. The device of invention 1013, wherein said assay chamber sidewall, said channel, and said reservoir sidewall are separate elements.
[Invention 1025]
1025. The device of any of the present inventions 1002-1024, wherein said channel and said sidewalls are integrally formed with each other.
[Invention 1026]
1025. The device of any of the inventions 1002-1024, wherein said channel and said sidewalls are separate elements.
[Invention 1027]
1002. The device of invention 1001, wherein said lower reservoir surface, said upper reservoir surface and said sidewalls are separate elements attached to each other.
[Invention 1028]
The device of any preceding invention, wherein the reservoir sidewalls define a circular, rectangular, square, or irregular cross-section of the reservoir.
[Invention 1029]
The device of any of the preceding inventions, further comprising the light source.
[Invention 1030]
1029. The device of the present invention 1029, wherein said source of said light comprises a laser, light emitting diode, or lamp.
[Invention 1031]
1031. The device of invention 1029 or 1030, wherein said source of said light is positioned above said upper reservoir surface and configured to transmit said light through said upper reservoir surface.
[Invention 1032]
1031. The device of Invention 1031, wherein said source of said light is further configured to transmit said light through said column and then through said lower reservoir surface.
[Invention 1033]
1030. The device of Invention 1029, wherein said source of said light is disposed below said lower reservoir surface and is configured to transmit said light through said lower reservoir surface.
[Invention 1034]
1034. The device of Invention 1033, wherein said source of said light is further configured to transmit said light through said column and then through said upper reservoir surface.
[Invention 1035]
The device of any of the preceding inventions, further comprising a sensor configured to receive the light transmitted through at least one of the upper reservoir surface and the lower reservoir surface.
[Invention 1036]
1035. The device of Invention 1035, wherein said sensor is disposed above said upper reservoir surface and is configured to receive said light through said upper reservoir surface.
[Invention 1037]
1035. The device of Invention 1035, wherein said sensor is disposed below said lower reservoir surface and is configured to receive said light through said lower reservoir surface.
[Invention 1038]
1029. The device of any of inventions 1001-1029, wherein said light is produced by fluorescence or chemiluminescence.
[Invention 1039]
1024. The device of any of the inventions 1007-1024, wherein said reagent comprises an antibody, enzyme, or particle.
[Invention 1040]
The device of any preceding invention, wherein the reservoir has a volume of about 1-200 μL, or about 10-100 μL, or about 15-50 μL, or about 10-30 μL, or about 5-20 μL.
[Invention 1041]
The device of any of the preceding inventions, wherein the liquid comprises bodily fluids.
[Invention 1042]
The device of Invention 1041, wherein said bodily fluid comprises whole blood, plasma, blood cells, urine, or saliva.
[Invention 1043]
1040. The device of any of the inventions 1001-1040, wherein said liquid comprises a food sample or a water sample.
[Invention 1044]
1040. The device of any of inventions 1001-1040, wherein said liquid comprises purified nucleic acid.
[Invention 1045]
The device of any of inventions 1001-1040, wherein said liquid comprises a pharmaceutical compound.
[Invention 1046]
1040. The device of any of inventions 1001-1040, wherein said liquid comprises a buffer or reagent.
[Invention 1047]
completely filling the reservoir with liquid,
the reservoir is
a lower reservoir surface;
an upper reservoir surface;
a reservoir sidewall extending between the upper reservoir surface and the lower reservoir surface;
with
the liquid forms a column contacting the upper reservoir surface, the lower reservoir surface and the reservoir sidewalls;
a meniscus of the liquid is positioned outside the reservoir;
said satisfying;
transmitting light through at least one of the upper reservoir surface and the lower reservoir surface;
A method, including
[Invention 1048]
1048. The method of invention 1047, wherein a channel is coupled to said reservoir sidewall.
[Invention 1049]
1049. The method of invention 1048, wherein said meniscus is positioned within said channel.
[Invention 1050]
1049. The method of invention 1048, wherein a well is fluidly coupled to said reservoir through said channel and said meniscus is positioned within said well.
[Invention 1051]
1048. The method of invention 1048, wherein an assay chamber is fluidly coupled to said reservoir via said channel.
[Invention 1052]
The method of invention 1051, wherein said assay chamber comprises an inlet.
[Invention 1053]
1053. The method of invention 1052, wherein a reagent is in said assay chamber.
[Invention 1054]
receiving the liquid into the assay chamber via the inlet;
reacting the liquid with the reagent in the assay chamber;
The method of the invention 1053, further comprising:
[Invention 1055]
applying a force to the assay chamber;
transporting the liquid from the assay chamber to the reservoir by the channel in response to the application of the force;
The method of the invention 1054, further comprising:
[Invention 1056]
1055. The method of invention 1055, wherein said force comprises centrifugal force.
[Invention 1057]
1057. The method of invention 1056, wherein said reservoir is disposed within a rotatable disc and said applying force comprises generating said centrifugal force by rotating said disc.
[Invention 1058]
1056. The method of invention 1055, wherein said force is applied via a gas.
[Invention 1059]
the assay chamber comprising:
a lower assay chamber surface;
an upper assay chamber surface;
an assay chamber sidewall extending between said upper assay chamber surface and said lower assay chamber surface;
A method of the invention 1055, comprising:
[Invention 1060]
1059. The method of invention 1059, wherein said assay chamber sidewall comprises a first portion extending substantially perpendicular to said upper assay chamber surface and said lower assay chamber surface.
[Invention 1061]
1061. The method of invention 1060, wherein said assay chamber sidewall comprises a second portion extending at an obtuse angle from said lower assay chamber surface.
[Invention 1062]
1061. The method of invention 1061, wherein in response to the application of the force, the liquid is transported upward along the second portion and into the channel.
[Invention 1063]
1059. The method of invention 1059, wherein said assay chamber sidewall and said reservoir sidewall are integrally formed with each other.
[Invention 1064]
1063. The method of invention 1063, wherein said upper assay chamber surface and said upper reservoir surface are integrally formed with each other and attached to said integrally formed assay chamber sidewall and said reservoir sidewall.
[Invention 1065]
1063. The method of invention 1063, wherein said lower assay chamber surface and said lower reservoir surface are integrally formed with each other and attached to said integrally formed assay chamber sidewall and said reservoir sidewall.
[Invention 1066]
1059. The method of invention 1059, wherein said assay chamber sidewall, said channel, and said reservoir sidewall are integrally formed with each other.
[Invention 1067]
The method of invention 1059, wherein said assay chamber sidewall and said reservoir sidewall are separate elements.
[Invention 1068]
The method of invention 1067, wherein said upper assay chamber surface and said upper reservoir surface are separate elements.
[Invention 1069]
The method of invention 1067, wherein said lower assay chamber surface and said lower reservoir surface are separate elements.
[Invention 1070]
The method of invention 1058, wherein said assay chamber sidewall, said channel, and said reservoir sidewall are separate elements.
[Invention 1071]
1071. The method of any of Inventions 1048-1070, wherein said channel and said sidewalls are integrally formed with each other.
[Invention 1072]
1071. The method of any of Inventions 1048-1070, wherein said channel and said sidewalls are separate elements.
[Invention 1073]
1047. The method of invention 1047, wherein said lower reservoir surface, said upper reservoir surface and said sidewalls are separate elements attached to each other.
[Invention 1074]
1073. The method of any of inventions 1047-1073, wherein said reservoir sidewall defines a circular, rectangular, square, or irregular cross-section.
[Invention 1075]
1074. The method of any of inventions 1047-1074, further comprising generating said light.
[Invention 1076]
1075. The method of invention 1075, wherein said light is produced by a laser, a light emitting diode, or a lamp.
[Invention 1077]
1076. The method of invention 1075 or 1076, further comprising transmitting said light through said upper reservoir surface and into said column.
[Invention 1078]
1077. The method of the present invention 1077, further comprising transmitting said light through said column and then through said lower reservoir surface.
[Invention 1079]
1076. The method of invention 1075 or 1076, further comprising transmitting said light through said lower reservoir surface and into said column.
[Invention 1080]
1079. The method of present invention 1079, further comprising transmitting said light through said column and then through said upper reservoir surface.
[Invention 1081]
1080. The method of any of the present inventions 1047-1080, further comprising receiving by a sensor said light transmitted through at least one of said upper reservoir surface and said lower reservoir surface.
[Invention 1082]
1081. The method of invention 1081, wherein said sensor receives said light through said upper reservoir surface.
[Invention 1083]
1081. The method of invention 1081, wherein said sensor receives said light through said lower reservoir surface.
[Invention 1084]
1075. The method of any of inventions 1047-1075, wherein said light is produced by fluorescence or chemiluminescence.
[Invention 1085]
The method of any of inventions 1053-1070, wherein said reagent comprises an antibody, enzyme, or particle.
[Invention 1086]
1085. The method of any of the inventions 1047-1085, wherein said reservoir has a volume of about 1-200 μL, or about 10-100 μL, or about 15-50 μL, or about 10-30 μL, or about 5-20 μL.
[Invention 1087]
The method of any of inventions 1047-1086, wherein said liquid comprises a bodily fluid.
[Invention 1088]
1087. The method of invention 1087, wherein said bodily fluid comprises whole blood, plasma, blood cells, urine, or saliva.
[Invention 1089]
The method of any of inventions 1047-1086, wherein said liquid comprises a food sample or a water sample.
[Invention 1090]
The method of any of inventions 1047-1086, wherein said liquid comprises purified nucleic acid.
[Invention 1091]
The method of any of inventions 1047-1086, wherein said liquid comprises a pharmaceutical compound.
[Invention 1092]
The method of any of inventions 1047-1086, wherein said liquid comprises a buffer or reagent.
[Invention 1093]
Means for completely filling a reservoir with a liquid containing a blood sample, comprising:
the reservoir is
a lower reservoir surface;
an upper reservoir surface;
a reservoir sidewall extending between the upper reservoir surface and the lower reservoir surface;
has
the liquid forms a column contacting the upper reservoir surface, the lower reservoir surface and the reservoir sidewalls;
said means;
means for positioning a meniscus of said liquid outside said reservoir;
means for transmitting light through at least one of said upper reservoir surface and said lower reservoir surface;
means for characterizing said blood sample;
A hematology analyzer, comprising:

Claims (15)

a lower reservoir surface;
an upper reservoir surface;
a reservoir sidewall extending between the upper reservoir surface and the lower reservoir surface, comprising:
the lower reservoir surface, the upper reservoir surface, and the reservoir sidewalls define a reservoir;
The reservoir is completely filled with the liquid such that, with a meniscus of liquid outside the reservoir, the liquid forms a column contacting the upper reservoir surface, the lower reservoir surface and the reservoir sidewalls. configured to
at least one of the upper reservoir surface and the lower reservoir surface is configured to transmit light;
the device is
an assay chamber fluidically coupled to said reservoir via a channel
further comprising
said assay chamber comprising a lower assay chamber surface, an upper assay chamber surface and an assay chamber sidewall extending between said upper assay chamber surface and said lower assay chamber surface;
the assay chamber sidewall includes a portion extending at an obtuse angle from the lower assay chamber surface;
Said device. 2. The device of claim 1, wherein said channel is coupled to said reservoir sidewall. 3. The device of claim 1 or 2, wherein the device is configured such that the meniscus of the liquid is positioned within the channel. 3. The device of claim 1 or 2, wherein the device is configured such that the liquid meniscus is positioned within the assay chamber . The device of any one of claims 1-4 , wherein the assay chamber comprises an inlet. The device of any one of claims 1-5 , wherein the channel is configured to transport liquid from the assay chamber to the reservoir in response to application of force to the assay chamber. said force comprises a centrifugal force, and said device further comprises a rotatable disc in which said reservoir is disposed, said disc being rotated to generate said centrifugal force, or
said device further comprising a source of gas and configured to apply said force via said gas;
7. Device according to claim 6 . The assay chamber sidewall includes a further portion extending substantially perpendicular to the upper assay chamber surface and the lower assay chamber surface, and responsive to application of the force to force the liquid through the obtuse angle. 8. The device of any one of claims 1-7, optionally configured to convey upwardly along a sidewall portion of and into said channel . The assay chamber sidewall and the reservoir sidewall are integrally formed with each other and/or the channel is integrally formed with the assay chamber sidewall and the reservoir sidewall . A device according to any one of clauses. wherein said upper assay chamber surface and said upper reservoir surface are integrally formed with each other and attached to said integrally formed assay chamber sidewall and said reservoir sidewall ; 10. The device of claim 9 , wherein a lower reservoir surface is integrally formed with each other and attached to the integrally formed assay chamber sidewall and the reservoir sidewall . 11. Any one of claims 1 to 10, further comprising a source of light, said source of light comprising a laser, a light emitting diode or a lamp, or said light being generated by fluorescence or chemiluminescence. devices described in . the source of the light is positioned above the upper reservoir surface and configured to transmit the light through the upper reservoir surface; and the source of the light passes through the column and then through the column. optionally further configured to transmit said light through said lower reservoir surface, or
wherein the source of the light is positioned below the lower reservoir surface and configured to transmit the light through the lower reservoir surface; and the source of the light passes through the column and then through the column. optionally further configured to transmit said light through said upper reservoir surface;
Device according to claim 11 . further comprising a sensor configured to receive light transmitted through at least one of the upper reservoir surface and the lower reservoir surface ;
the sensor is positioned above the upper reservoir surface and configured to receive the light through the upper reservoir surface, or
the sensor is positioned below the lower reservoir surface and is configured to receive the light through the lower reservoir surface;
Device according to any one of claims 1-12 . 14. The reservoir of any one of claims 1-13 , wherein the reservoir has a volume of about 1-200 μL, or about 10-100 μL, or about 15-50 μL, or about 10-30 μL, or about 5-20 μL. device. completely filling the reservoir with the liquid such that the meniscus of the liquid is positioned outside the reservoir;
and transmitting light through at least one of said upper reservoir surface and said lower reservoir surface.