×

System and method of using multi-chambered receptacles

  • US 10,688,458 B2
  • Filed: 04/12/2017
  • Issued: 06/23/2020
  • Est. Priority Date: 06/21/2007
  • Status: Active Grant
First Claim
Patent Images

1. A system for processing a sample, comprising:

  • a multi-chambered receptacle comprising;

    opposed flexible sheets;

    a plurality of chambers having perimeter walls defined by permanent seals formed between the flexible sheets and peelable seals interconnecting the chambers, wherein the plurality of chambers comprise;

    first and second compressible chambers directly connected to each other by a first peelable seal, wherein the first peelable seal is configured to peel open to permit substance movement from the first chamber to the second chamber when the first chamber is at least partially compressed to apply a substance-moving force to the contents of the first chamber;

    third and fourth compressible chambers directly connected to each other by a second peelable seal, wherein the second peelable seal is configured to peel open to permit substance movement from the third chamber to the fourth chamber when the third chamber is at least partially compressed to apply a substance-moving force to the contents of the third chamber; and

    a process chamber directly connected to the second chamber by a third peelable seal and directly connected to the fourth chamber by a fourth peelable seal, wherein the third peelable seal is configured to peel open to permit substance movement from the second chamber to the process chamber when the second chamber is at least partially compressed to apply a substance-moving force to the contents of the second chamber and the fourth peelable seal is configured to peel open to permit substance movement from the fourth chamber to the process chamber when the fourth chamber is at least partially compressed to apply a substance-moving force to the contents of the fourth chamber;

    a waste chamber directly connected with the process chamber by a fifth peelable seal, wherein the waste chamber includes an inlet region disposed above the fifth peelable seal, a collection region, and a dividing wall extending vertically upwardly from a part of a perimeter wall of the waste chamber between the inlet region and the collection region and terminating within the waste chamber, whereby a fluid material flowing within the waste chamber between the inlet region and the collection region must flow through an upper neck between the perimeter wall of the waste chamber and a terminal end of the dividing wall, wherein the upper neck is positioned above the inlet region and the collection region so that gravity prevents fluid material contained within the collection region from flowing upward through the upper neck and into the inlet region, and wherein the fifth peelable seal is configured to peel open to permit substance movement from the process chamber to the waste chamber when the process chamber is at least partially compressed to apply a substance-moving force to the contents of the process chamber;

    a first dried reagent contained in the second chamber;

    a first reconstitution reagent contained in the first chamber for reconstituting the first dried reagent;

    a second dried reagent contained in the fourth chamber;

    a second reconstitution reagent contained in the third chamber for reconstituting the second dried reagent; and

    a sample inlet port for receiving sample into the process chamber; and

    an instrument configured to manipulate the contents of the multi-chambered receptacle, the instrument comprising;

    receptacle-receiving area configured to receive the multi-chambered receptacle;

    a slot formed in a housing of the instrument and open to the receptacle-receiving area and configured to receive the multi-chambered receptacle for insertion of the multi-chambered receptacle into the receptacle-receiving area;

    a plurality of compression actuators disposed adjacent to the receptacle-receiving area, each compression actuator being associated with one of the compressible chambers or one of the peelable seals and being configured and controlled to independently apply an external compressive force to the associated compressible chamber or the associated peelable seal; and

    a computer controller configured to control the compression actuators and programmed to;

    cause a compression actuator associated with the first chamber to at least partially compress the first chamber to apply a substance-moving force to the contents of the first chamber and open the first peelable seal and move substance from the first chamber to the second chamber and then cause a compression actuator associated with the second chamber to at least partially compress the second chamber to open the third peelable seal and move substance from the second chamber to the process chamber;

    cause a compression actuator associated with the third chamber to at least partially compress the third chamber to apply a substance-moving force to the contents of the third chamber and open the second peelable seal and move substance from the third chamber to the fourth chamber;

    cause a compression actuator associated with the process chamber to at least partially compress the process chamber to apply a substance-moving force to the contents of the process chamber and open the fifth peelable seal and move substance from the process chamber to the inlet region of the waste chamber; and

    cause a compression actuator associated with the inlet region of the waste chamber to at least partially compress the inlet region of the waste chamber to apply a substance-moving force to the contents of the inlet region of the waste chamber and move substance from the inlet region of the waste chamber through the upper neck and into the collection region of the waste chamber.

View all claims
  • 5 Assignments
Timeline View
Assignment View
    ×
    ×