A reagent pack changer includes a reagent pack input device, a reagent pack storage compartment, a reagent pack storage carousel disposed within the storage compartment, and a rotary distributor. The input device includes a reagent pack input carousel rotatable about an axis of rotation, with reagent pack stations for holding reagent packs disposed around the axis of rotation of the carousel. The reagent pack storage carousel is rotatable about an axis of rotation with reagent pack stations for holding reagent packs disposed around the axis of rotation. The rotary distributor is configured to move a reagent pack between the reagent pack input carousel and the reagent pack storage carousel.

Methods and systems for processing polynucleotides (e.g., DNA) are disclosed. A processing region includes one or more surfaces (e.g., particle surfaces) modified with ligands that retain polynucleotides under a first set of conditions (e.g., temperature and pH) and release the polynucleotides under a second set of conditions (e.g., higher temperature and/or more basic pH). The processing region can be used to, for example, concentrate polynucleotides of a sample and/or separate inhibitors of amplification reactions from the polynucleotides. Microfluidic devices with a processing region are disclosed.

A nucleic acid diagnostic system includes a unit-dose reagent compartment storing at least one unit-dose pack, one or more unit-dose pack loading stations for holding a unit-dose pack at a location that permits a substance transfer device to dispense a reconstitution reagent into each well of the pack, a unit-dose pack distributor configured to transfer a unit-dose pack from the unit-dose reagent compartment to one of the unit-dose pack loading stations, and an electrostatic generator disposed within the housing of the unit-dose reagent compartment and/or adjacent the one or more unit-dose pack loading stations. The electrostatic generator imparts an electrostatic charge to each of the wells of the unit-dose pack and/or to a lyophilized reagent pellet within each well so that the electrostatic charge positions and holds each lyophilized reagent pellet at a bottom of each respective well of the unit-dose pack.

A cap and a processing vial configured for interlocking engagement. The processing vial includes a locking collar surrounding an open upper end of the processing vial with lateral through holes formed through the locking collar. The vial also includes a latch hook located above each through hole. The cap includes a latch collar extending about a lower portion of the cap, where the latch collar is configured to snap in beneath the latch hooks of the processing vial when the lower portion of the cap is inserted into the open upper end of the processing vial to lock the cap to the processing vial.

A method for performing a nucleic acid amplification assay employs a thermally-conductive receptacle holder with one or more receptacle wells, each conforming to an outer surface of a lower portion of a vial. A through-hole extends from an inner surface of each well to an outer surface of the holder. A thermal element is positioned proximal to the holder for altering a temperature of the holder. A signal detection module is configured to generate an excitation signal directed through the through-hole of the well and detect an optical emission from a fluid contained in the vial supported by the well. At least one well supports a capped vial containing a reagent for a nucleic acid amplification assay and including an opaque cap sealing an open end of the vial. The lower portion of the vial is contained within a well, and the cap is situated above a top surface of the holder.

Provided is a specimen collection tip having a novel structure, with which it is possible to collect a trace amount of a specimen with good quantitative precision. Also provided is a specimen preparation container having a novel structure, with which it is possible to dilute and prepare the specimen collected with the specimen collection tip with good quantitative precision. A specimen collection tip 10, wherein a specimen holding region 12 having a predetermined volume is provided inside the specimen collection tip 10, and in a distal end portion extending from a support part 15, there is formed a specimen collection hole 22 and an air vent hole 24 placing the specimen holding region 12 in communication with a surface 23. Also, a specimen preparation container 26 with a cap 30, wherein the specimen collection tip 10 is attached to the cap 30 at the support part 15.

An integrally formed hollow plastics spike (14, 16) adapted to be passed through the pierceable closure of a container, the hollow spike (14, 16) having a passageway (18) extending from a first end (28) to a second end (22, 24), the passageway (18) having a length L and a cross sectional area equivalent to a 5 circle of diameter D, wherein L divided by D is more than about 19. The integrally formed hollow plastics spike (14, 16) can be integrally formed with a cap (12) to form an integrally formed sampling cap or port (10).

The present invention provides a detecting apparatus, including a storage chamber containing a treating fluid; wherein, the detecting apparatus is internally provided with a sharp-pointed portion; the storage chamber may make a movement relative to the sharp-pointed portion; the storage chamber will be pierced by the sharp-pointed portion during the moving process, such that the treating fluid in the storage chamber is released. The detecting apparatus further includes a collecting chamber; the released treating fluid may flow into the collecting chamber; the collecting chamber is disposed inside a first shell and used to contain a sample; an opening is disposed at an upper position of the first shell; the collecting chamber is internally provided with a testing element for detecting an analyte; the testing element is disposed on a carrier, and the carrier has a specific matching form with the collecting chamber. A buffer solution is disposed in an independent chamber of the detecting apparatus, and may be obtained at any time in need of detection and thus, is easy to be used. The carrier has a specific matching form with the collecting chamber in the first shell, such that the carrier has a definite and unique directional position after being inserted into the collecting chamber.

A system for performing a nucleic acid amplification assay that includes a receptacle holder formed from a thermally conductive material and having a receptacle well for receiving a lower portion of a vial; a thermal element for cycling the temperature of the receptacle holder; a signal detection module in optical communication with the receptacle well; and a robotic pipettor. The receptacle holder supports a capped vial having a plastic, opaque cap in a snap-fit with a single plastic vial containing a nucleic acid amplification reagent. An upper portion of the cap includes a probe recess that is configured to be removably engaged by an end of a probe of the robotic pipettor. A lower portion of the vial is contained within the receptacle well, and the cap is situated above a top surface of the receptacle holder.