Abstract: A food containment assembly includes a first cup with a first sealing flange and a second cup with a second sealing flange. The second cup is separate from and disposed adjacent to the first cup. A seal sheet is adhered to the first sealing flange and the second sealing flange, and the seal sheet forms a hinge to allow rotation of the second cup with respect to the first cup. The seal sheet includes a first slit disposed proximate the hinge and a second slit proximate the hinge, wherein tearing the seal sheet along the first slit allows access to contents of the first cup and tearing the seal sheet along the second slit allows access to contents of the second cup and the hinge remains intact.

Abstract: A food containment assembly includes a first cup with a first sealing flange and a second cup with a second sealing flange. The second cup is separate from and disposed adjacent to the first cup. A seal sheet is adhered to the first sealing flange and the second sealing flange, and the seal sheet forms a hinge to allow rotation of the second cup with respect to the first cup. The seal sheet includes a first slit disposed proximate the hinge and a second slit proximate the hinge, wherein tearing the seal sheet along the first slit allows access to contents of the first cup and tearing the seal sheet along the second slit allows access to contents of the second cup and the hinge remains intact.

Abstract: Methods and systems for controlling fluid flow through a cartridge for use in an assay of a fluid sample for detection of a target analyte. In one aspect, the cartridge includes a microfluidic device having a network of microfluidic channels, one or more reservoirs and one or more actuatable valves for controlling fluid flow from the reservoirs through the microfluidic channels. In some embodiments, the valve includes a deformable membrane movable between a closed configuration in which the membrane seals against the microfluidic device inhibiting fluid flow and an open configuration moved away from the microfluidic device to allow fluid flow through the microfluidic channels. Other valve embodiments utilize frangible membranes or user-removable membrane.

Abstract: Methods and systems for controlling fluid flow through a cartridge for use in an assay of a fluid sample for detection of a target analyte. In one aspect, the cartridge includes a microfluidic device having a network of microfluidic channels, one or more reservoirs and one or more actuatable valves for controlling fluid flow from the reservoirs through the microfluidic channels. In some embodiments, the valve includes a deformable membrane movable between a closed configuration in which the membrane seals against the microfluidic device inhibiting fluid flow and an open configuration moved away from the microfluidic device to allow fluid flow through the microfluidic channels. Other valve embodiments utilize frangible membranes or user-removable membrane.

Abstract: Methods and systems for controlling fluid flow through a cartridge for use in an assay of a fluid sample for detection of a target analyte. In one aspect, the cartridge includes a microfluidic device having a network of microfluidic channels, one or more reservoirs and one or more actuatable valves for controlling fluid flow from the reservoirs through the microfluidic channels. In some embodiments, the valve includes a deformable membrane movable between a closed configuration in which the membrane seals against the microfluidic device inhibiting fluid flow and an open configuration moved away from the microfluidic device to allow fluid flow through the microfluidic channels. Other valve embodiments utilize frangible membranes or user-removable membrane.

Abstract: Methods and systems for controlling fluid flow through a cartridge for use in an assay of a fluid sample for detection of a target analyte. In one aspect, the cartridge includes a microfluidic device having a network of microfluidic channels, one or more reservoirs and one or more actuatable valves for controlling fluid flow from the reservoirs through the microfluidic channels. In some embodiments, the valve includes a deformable membrane movable between a closed configuration in which the membrane seals against the microfluidic device inhibiting fluid flow and an open configuration moved away from the microfluidic device to allow fluid flow through the microfluidic channels. Other valve embodiments utilize frangible membranes or user-removable membrane.