A chemical and/or biochemical apparatus (10) for receiving a plurality of reaction vessels in which chemical and/or biochemical reactions may take place includes a thermal mount (14) having a plurality of wells (26) for receiving the reaction vessels (12), a thermal module (16) having a first side thermally coupled to the thermal mount (14), a first heat sink (18) thermally coupled to a second side of the thermal module, the heat sink (18) having a body and a plurality of thermally conductive fins (32) extending outwards from the body of the first heat sink (18), and a printed circuit board (54) having electronic components for controlling at least the thermal module (16), an excitation light source (62), and a light sensor (52). A first set of light waveguides (60) is provided for delivering excitation light to a reaction vessel, and a second set of light waveguides (38) is provided for receiving light from a reaction vessel and for delivering the light to the light sensor (52). The first heat sink (18) comprises an interior space (5) and the printed circuit board (54), the excitation light source (62), the light sensor (52) and the light waveguides (38, 60) are arranged within the interior space (5).

Cartridge for the detection of the presence, absence and/or amount of a target nucleotide sequence in a sample. The cartridge includes one or more nucleic acid sequences, wherein the cartridge has a generic part and one or more separate application-specific parts, which are connectable to the generic part.

A holder rack has an array of tubular slots that cooperate with a holder to position an absorbent tip of the holder at a predetermined location. The racks fit over well plates to position each absorbent tip adjacent the bottom of a different well in the well plate to extract dried samples from the absorbent tips. The holders are transported in containers having a frame to receive the holders and a lid to keep them in the container. The absorbent tips can extend through a cap to dry, with the cap connected to the holder to enclose the absorbent tips for transport.

Cartridge and method for the detection of the presence, absence and/or amount of a target nucleotide sequence in a sample comprising one or more nucleic acid sequences. The cartridge comprises a one or more nucleic acid sequences, and the cartridge includes a generic part and one or more separate application-specific parts, which are connectable to the generic part.

A method for handling a sample tube containing a biological sample is presented. A tube label can be attached to the sample tube. The tube label can carry tube data. The tube data can comprise at least geometric tube data descriptive of at least one geometric property of the sample tube. At least the geometric tube data can be read from the tube label by a reader device. At least the geometric tube data from the reader device can be transmitted to a processing device. The processing device for handling the sample tube can be controlled in accordance with the at least one geometric property described by the read geometric data.

Tissue sample cassettes for receiving tissue samples include an upper tray including compartments separated by dividers, a lower tray coupled to the upper tray and having a central recess, and an absorbent material located in the recess of the lower tray. Related systems and methods for automated gross processing of tissue samples are also disclosed.

The present invention is related to the field of bio/chemical sampling, sensing, assays and applications. Particularly, the present invention is related to how to make the sampling/sensing/assay become simple to use, fast to results, highly sensitive, easy to use, using tiny sample volume (e.g., 0.5 L or less), operated by a person without any professionals, reading by mobile-phone, or low cost, or a combination of them.

Sample preparation unit, preferably for sterility testing: a housing body including at least two ports adapted to serve as fluid inlet and/or fluid outlet, a membrane support, and a lid part such that a membrane chamber is defined adjacent said membrane support. One of at least two ports is arranged so as to allow a fluid transfer to/from a first volume of the membrane chamber at a position upstream of a membrane to be placed on the membrane support, and the other ports arranged to allow fluid transfer to/from a second volume of said membrane chamber at a position downstream of a membrane to be placed on said membrane support. A movable part is provided on housing body such that the movable part and housing body are movable relative to each other, selectively interrupting/establishing fluid transfer between at least one of two ports and the membrane chamber.

The disclosure invention relates to the field of bio/chemical sampling, sensing, assays and applications. Particularly, the disclosure relates to how to make the sampling/sensing/assay become simple to use, fast to results, highly sensitive, easy to use, using tiny sample volume (e.g., 0.5 L or less), operated by a non-professional, reading by mobile-phone, or low cost, or a combination of them.

Embodiments of the present disclosure relate generally to systems and methods for sorting and analyzing cells and, more particularly, to systems and methods for sorting and analyzing cells using magnetophoresis in a microfluidic platform. Some embodiments of a microfluidic device comprise an inlet for receiving a plurality of magnetically-labeled cells, a flow chamber, a magnet positioned alongside the flow chamber, and a plurality of bins having a sensor for detecting the magnetically-labeled cells. In some embodiments, the magnetic flux of the magnet causes the magnetically-labeled cells to be deflected to a particular bin. The sensors of each bin can be used to calculate the surface antigen expression and/or size of the cells within a sample of magnetically-labeled cells.