Abstract: A sample preparation blister pack can include a plurality of reservoirs formed as blisters. The reservoirs can have an actuatable barrier layer and a seal barrier layer with contents of the reservoirs between the actuatable barrier layer and the seal barrier layer. The contents can be to facilitate isolating a biological component from a biological sample. The individual reservoirs can be adapted to release the contents through the seal barrier layer upon actuation of the actuatable barrier layer. The blister pack can have a width and a length and the reservoirs can be lined up along the length. In this example, a first reservoir contains an inert mechanical fluid and a second reservoir contains a reagent, a buffer, or a combination thereof.

Abstract: A sample preparation cartridge module comprises an input and output; and interconnected volumes arranged in series between the input and output, the volumes comprising a fluidic isolation chamber and an output channel connected to the fluidic isolation chamber downstream of the fluidic isolation chamber and leading to the output.

Abstract: A fluidic device can include interconnected volumes including a bulk fluid volume fluidically connected in series with a capillary volume to receive a density gradient column, a reservoir of a reconstitution buffer positioned outside the interconnected volumes, and a buffer inlet chamber to receive reconstitution buffer from the reservoir of reconstitution buffer. The fluidic device can also include a reactant chamber connected to the buffer inlet chamber by a fluid channel, wherein the reactant chamber contains a reactant, and a reactant injection channel connecting the reactant chamber to the capillary volume to inject the reconstitution buffer and reactant into the capillary volume.

Abstract: A microfluidic valve can include a substrate having a microfluidic channel formed in the substrate. A sealing layer can be over the microfluidic channel. A flexible blister layer can be over the sealing layer. The flexible blister layer can include a blister formed as a distended portion with a blister volume between the flexible blister layer and the sealing layer. The microfluidic valve can be actuatable by puncturing the sealing layer by pressing on the blister. Actuating the microfluidic valve can either allow fluid to flow through the microfluidic channel or block fluid from flowing through the microfluidic channel.

Abstract: A microfluidic valve can include a substrate having a microfluidic channel formed in the substrate. A sealing layer can be over the microfluidic channel. A flexible blister layer can be over the sealing layer. The flexible blister layer can include a blister formed as a distended portion with a blister volume between the flexible blister layer and the sealing layer. The microfluidic valve can be actuatable by puncturing the sealing layer by pressing on the blister. Actuating the microfluidic valve can either allow fluid to flow through the microfluidic channel or block fluid from flowing through the microfluidic channel.