Microplate farming wells with transparent bottom walls for assays using light measurements

US 5,319,436 A
Filed: 05/28/1992
Issued: 06/07/1994
Est. Priority Date: 05/28/1992
Status: Expired due to Term

First Claim

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1. A microplate forming a multiplicity of sample wells for holding samples to be assayed by light emissions or light transmission, said plate comprisingan upper plate forming the side walls of the sample wells, said side walls being opaque so that light cannot be transmitted between adjacent wells through said side walls, said upper plate being a single unitary molded plastic part,a lower plate forming the bottom walls of the sample wells, said bottom walls being transparent to allow the transmission of light therethrough, said lower plate being a single unitary molded plastic part, andbands of opaque material within said lower plate and surrounding the bottom wall of each well to block the transmission of light between adjacent wells through said lower plate.

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Abstract

A microplate forms a multiplicity of sample wells for holding samples to be assayed by light emissions or light transmission. The plate comprises an upper plate forming the side walls of the sample wells, the side walls being opaque so that light cannot be transmitted between adjacent wells through the side walls, and a lower plate forming the bottom walls of the sample wells, the bottom walls being transparent to allow the transmission of light therethrough. Bands of opaque material are provided within the lower plate and surrounding each well to block the transmission of light between adjacent wells through the lower plate.

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18 Claims

1. A microplate forming a multiplicity of sample wells for holding samples to be assayed by light emissions or light transmission, said plate comprisingan upper plate forming the side walls of the sample wells, said side walls being opaque so that light cannot be transmitted between adjacent wells through said side walls, said upper plate being a single unitary molded plastic part,a lower plate forming the bottom walls of the sample wells, said bottom walls being transparent to allow the transmission of light therethrough, said lower plate being a single unitary molded plastic part, andbands of opaque material within said lower plate and surrounding the bottom wall of each well to block the transmission of light between adjacent wells through said lower plate.
- View Dependent Claims (2, 3, 4)
- - 2. The microplate of claim 1 wherein said upper plate is formed of a polymer which includes from about 2 to about 20 weight percent white pigment for opacity and reflectivity.
  - 3. The microplate of claim 1 wherein said upper plate is formed of a polymer containing a pigment selected from the group consisting of titanium dioxide, zinc oxide, zinc sulfide, thithopane and black pigment containing 0.5% to 15% of carbon black.
  - 4. The microplate of claim 1 wherein said upper plate is formed of a polymer which includes from about 0.5 to about 15 weight percent carbon black.

5. A microplate forming a multiplicity of sample wells for holding samples to be assayed by light emissions or light transmission, said plate comprisingan upper plate forming the side walls of the sample wells, said side walls being opaque so that light cannot be transmitted between adjacent wells through said side walls,a lower plate forming the bottom walls of the sample wells, said bottom walls being transparent to allow the transmission of light therethrough, andbands of opaque material within said lower plate and surrounding each well to block the transmission of light between adjacent wells through said lower plate, said bands of opaque material being formed by melting together the opaque material of said upper plate and the transparent material of said lower plate in preselected regions.

6. A microplate forming a multiplicity of sample wells for holding samples to be assayed by light emissions or light transmission, said plate comprisingan upper plate forming the side walls of the sample wells, said side walls being opaque so that light cannot be transmitted between adjacent wells through said side walls,a lower plate forming the bottom walls of the sample wells, said bottom walls being transparent to allow the transmission of light therethrough, andbands of opaque material within said lower plate and surrounding each well to block the transmission of light between adjacent wells through said lower plate, said bands of opaque material being formed from depending beads on the lower surface of said upper plate, each bead surrounding one of said wells, and said lower plate including grooves in the upper surface thereof for receiving said beads.
- View Dependent Claims (7, 8)
- - 7. The microplate of claim 6 said beads on said upper plate are fused to said lower plate in said grooves.
  - 8. The microplate of claim 7 wherein said beads are fused to said lower plate by ultrasonic bonding.

9. A method of assaying samples contained in a multi-well microplate by detecting light emitted from or transmitted through the sample in each well, said method comprising,placing the samples in a microplate comprisingan upper plate forming the side walls of the sample wells, said side walls being opaque so that light cannot be transmitted between adjacent wells through said side walls, said upper plate being a single unitary molded plastic part,a lower plate forming the bottom walls of the sample wells, said bottom walls being transparent to allow the transmission of light therethrough, said lower plate being a single unitary molded plastic part, andbands of opaque material within said lower plate and surrounding each well to block the transmission of light between adjacent wells through said lower plate, anddetecting light emitted from or transmitted through the sample in each separate well.

10. A microplate forming a multiplicity of sample wells for holding samples to be assayed by light emissions or light transmission, said microplate comprising a molded polymeric plate forming the side walls of the sample wells and made of an opaque material so that light cannot be transmitted between adjacent wells through said side walls, the bottom walls of the sample wells being formed by a sheet of transparent polymeric film attached to the lower surface of said plate to close the bottoms of the sample wells, and bands of opaque material within said film and surrounding each well to block the transmission of light between adjacent wells through said film.
- View Dependent Claims (11, 12, 13)
- - 11. The microplate of claim 10 wherein said polymeric film is polyester film.
  - 12. The microplate of claim 10 wherein said polymeric film is bonded to the lower surface of said plate.
  - 13. The microplate of claim 10 wherein said side walls of the sample wells are reflective.

14. A method of assaying samples contained in a multi-well microplate by detecting light emitted from the sample in each well, said method comprising,placing the samples in a microplate comprisinga plate forming the side walls of the sample wells, said side walls being opaque so that light cannot be transmitted between adjacent wells through said side walls, anda sheet of transparent polymeric film attached to the lower surface of said plate to close the bottoms of the sample wells, bands of opaque material within said film surrounding each well to block the transmission of light between adjacent wells through said film, anddetecting light emitted from the sample in each separate well.
- View Dependent Claims (15, 16, 17, 18)
- - 15. The method of claim 14 wherein said polymeric film is polyester film.
  - 16. The method of claim 14 wherein said polymeric film is bonded to the lower surface of said plate.
  - 17. The method of claim 14 wherein said side walls of the sample wells are reflective.
  - 18. The method of claim 14 wherein the light emitted from said samples is detected by scintillation counting.

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Current Assignee
Packard Instrument Co., Inc. (Revvity, Inc.)
Original Assignee
Packard Instrument Co., Inc. (Revvity, Inc.)
Inventors
Manns, Roy L., Kolb, Alfred J., Effertz, Bernard S.
Primary Examiner(s)
McGraw, Vincent P.

Application Number

US07/890,030
Time in Patent Office

740 Days
Field of Search

356/246, 356/244, 356/440, 356/317, 356/318, 250/576
US Class Current

356/246
CPC Class Codes

B01L 3/5085   for multiple samples, e.g. ...

B29C 45/16   Making multilayered or mult...

G01N 2021/0346   Capillary cells; Microcells

G01N 21/03   Cuvette constructions

Microplate farming wells with transparent bottom walls for assays using light measurements

First Claim

5 Assignments

0 Petitions

Accused Products

Abstract

178 Citations

18 Claims

Specification

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Microplate farming wells with transparent bottom walls for assays using light measurements

First Claim

5 Assignments

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

178 Citations

18 Claims

Specification

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Solutions

Use Cases

Quick Links