The present invention provides a method and apparatus for evaluating the margins of a surgically-removed tissue specimen, such as a breast tissue specimen, to determine whether sufficient fatty tissue has been removed from around the lesion or cancerous point. The instant invention provides a solution to the problem of on-site evaluation of the margin sufficiency during the surgical procedure, in that it provides surgeons with an orthogonal view of all sides of the tissue specimen to be evaluated. The specimen evaluation device provides for properly-oriented examination of the removed specimen in a non-compressed, undistorted manner, both by visual inspection and through radiographic evaluation. Through this examination of the properly-oriented specimen, the surgeon may quickly and more accurately be informed of whether there remain cancerous cells in the margins surrounding the sample, which are meant to be free of cancerous cells. Upon evaluation of the margins of the removed sample, the surgeon may then make an on-site determination on whether to proceed with additional surgery or complete the surgical procedure.

A specimen extraction kit includes a flexible tubular container configured to contain an extraction liquid, two holding portions opposed to each other and arranged at opposite sides of the tubular container, a coupling portion that couples the opposing holding portions, and a bending rib arranged on each of the opposing holding portions and configured to bend the tubular container and an extraction subject.

A disposable cartridge used in a digital microfluidics system has a bottom layer with first hydrophobic surface, a rigid cover plate with second hydrophobic surface, and a gap there-between. The bottom layer is a flexible film on an uppermost surface of a cartridge accommodation site of a system, attracted to and spread over the uppermost surface by an underpressure. A lower surface of the plate and the flexible bottom layer are sealed to each other. The assembled cartridge is removed from the cartridge accommodation site in one piece and potentially includes samples and processing fluids. The system has a base unit and a cartridge accommodation site with an electrode array of individual electrodes and a central control unit for controlling selection of individual electrodes and for providing these electrodes with individual voltage pulses for manipulating liquid droplets within the gap by electrowetting.

Skin-mounted or epidermal devices and methods for monitoring biofluids are disclosed. The devices comprise a functional substrate that is mechanically and/or thermally matched to skin to provide durable adhesion for long-term wear. The functional substrates allow for the microfluidic transport of biofluids from the skin to one or more sensors that measure and/or detect biological parameters, such as rate of biofluid production, biofluid volume, and biomarker concentration. Sensors within the devices may be mechanical, electrical or chemical, with colorimetric indicators being observable by the naked eye or with a portable electronic device (e.g., a smartphone). By monitoring changes in an individual's health state over time, the disclosed devices may provide early indications of abnormal conditions.

The invention discloses a flexible plastic bag for cultivation of cells, including a top wall film and a bottom wall film, each having an inside and an outside, sealed to each other inside-to-inside by durable weld seams, optionally via one or more side wall films, to form a bag with an inner volume delimited by the durable weld seams; one or more ports through the top and/or bottom wall film for introduction and withdrawal of fluids; one or more frangible weld seams joining the insides of said top and bottom wall films, dividing the bag inner volume into a plurality of cultivation compartments; and one or more gripping means affixed to the top and bottom wall films, adjacent each of the frangible weld seams and adapted to break a specific frangible weld seam by pulling apart the gripping means on the top and bottom wall films.

A filter sampling bag for use in a mixer for the preparation of samples for carrying out analyses and/or microbiological tests, the sampling bag formed from a plastic and having a bottom, side walls, and a mouth opening. The sampling bag is compartmentalized by a filtering partition delimiting a receiving chamber for a sample and a sampling chamber to permit a taking of samples. The sampling bag is marked with a visual indicator of a correct, predetermined closing position of the sampling bag after mixing. A sampling set or kit comprising a mixer and a filter sampling bag as disclosed, and a method of manufacturing such a filter sampling bag for use in a mixer for the preparation of samples to permit analyses and/or microbiological tests.

A method of processing a sample in a receptacle comprising a plurality of chambers. Each of the chambers is connected to at least one other chamber by a portal and at least a first one of the chambers is formed of a flexible material. The method includes the steps of causing gas bubbles contained in the first chamber to accumulate in a portion of the first chamber, applying a compressive external force to the first chamber to cause some or all of the liquid contents of the first chamber to flow into an interconnected second chamber through a portal connecting the first and second chambers; and preventing the gas bubbles accumulated in a portion of the first chamber from flowing through the portal into the second chamber.

The present disclosure is directed to methods and systems for detecting a substance of interest. The methods and systems include collecting the substance of interest on a collection device comprising an inert fiber material and a siloxane resin. The systems and methods further include heating the collection device in a desorber, wherein heating the device releases the substance of interest from the device, performing an analysis of the substance of interest, and detecting the substance of interest.

The invention relates to a liquid sample preparation device such as a disposable, collapsible, flexible polymeric bag containing an adsorptive curtain of a functionalized shaped polymeric fiber bed for the direct capture of biomolecules from liquid samples. The functionalized shaped polymeric fiber bed includes fibrillated, ridged or winged-shaped fiber structures that significantly increases the surface area of the fiber resulting in enhanced separation, retention and/or purification of liquid samples containing biomolecules of interest as the liquid samples contact the adsorptive curtain of functionalized shaped fibers. Liquid samples include unclarified liquid feeds or other liquids containing one or more biomolecules of interest, including, but not limited to vaccines, recombinant proteins, cells, stem cells, monoclonal antibodies (mAbs), proteins, antibody, peptides, oligopeptides, nucleic acids, oligonucleotides, RNA, DNA, oligosaccharides and polysaccharides.

A calibration suspension unit has a container made of a flexible material that is filled with a calibration suspension for the calibration of a turbidity meter. There exists no air supernatant above the calibration suspension in the container. Further, a method for the manufacture of a calibration suspension unit is provided and its use for the calibration of a turbidity meter is described.