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 lid assembly for a sample tube, for collecting magnetic beads from the sample tube and subsequently releasing said beads, the lid assembly comprising: a closure part including means for removably attaching the closure part to the opening of the sample tube, to close the sample tube, and a bead-collecting platform arranged to locate within or above the opening of the sample tube when the closure part is attached to the sample tube, wherein the bead-collecting platform has a bead-collecting surface on one side, for coming into contact with liquid in the sample tube during use, and a magnet-receiving cavity on the other side, behind the bead-collecting surface; and a magnet-bearing part comprising a magnet, wherein the magnet is removably insertable into the magnet-receiving cavity, towards the bead-collecting surface, such that, when the magnet is present within the magnet-receiving cavity, the magnet is capable of holding magnetic beads against the bead-collecting surface, and when the magnet is not present within the magnet-receiving cavity, the lid assembly is incapable of magnetically holding magnetic beads against the bead-collecting surface. Also provided is a method of using such apparatus to collect magnetic beads from a liquid within a sample tube, and associated kits and accessories.

The present invention generally relates to devices and methods for collecting and stabilizing biological samples, and more particularly, for collecting and stabilizing blood or other bodily fluids from a user's fingertip, earlobe, heel or other locations. The present invention also relates to sample collection devices that simplify the process for mixing the biological samples with an additive or additives, provide for efficient storage and safe transport of the samples, and provide for easy access to the samples for subsequent processing.

A unique system for the correlation between removed lymph nodes for lung cancer diagnosis and pathological analysis thereof is provided. Such a system includes the removal of certain lymph nodes from a suspected or known lung cancer patient with subsequent categorization thereof and placement within a properly divided and labeled specimen collection kit. Through the utilization of such a separation and placement allows and facilitates understanding and non-verbal communication between a surgeon and a pathologist in order to denote the location of the removed lymph nodes in relation to a known or suspected lung cancer tumor or growth. The overall diagnostic method, including the important communicative properties accorded both the particular surgeon and pathologist, is encompassed within this invention, as well as the specific collection specimen kit that permits the surgeon proper distinction of specific removal lymph nodes in relation to their location within the patient's body.

An apparatus that allows for separating and collecting a fraction of a sample. The apparatus, when used with a centrifuge, allows for the creation of at least three fractions in the apparatus. It also provides for a new method of extracting the buffy coat phase from a whole blood sample. A buoy system that may include a first buoy portion and a second buoy member operably interconnected may be used to form at least three fractions from a sample during a substantially single centrifugation process. Therefore, the separation of various fractions may be substantially quick and efficient.

Methods, devices, systems, and kits useful for the collection and analysis of samples obtained by swabs are disclosed. Swab containers configured for receiving a swab containing a sample; cartridges for holding one or more of: a swab container, a swab, assay units, pipette tips, vessels, transport units, and implements; systems (which may include a sample processing device); kits; and methods for their use are disclosed. A swab container may include an entry port; an assay chamber having an assay port; a conduit comprising an interior channel connecting the entry port; and an interior channel providing fluidic communication between the entry port and assay chamber. An interior channel may be configured to squeeze a portion of a swab placed in or through the conduit. A cartridge may include a cartridge frame configured to receive one or more of swab containers, assay units, transport units, pipette tips, vessels or implements.

A system and method for increasing confidence, privacy, and efficiency in obtaining in-home urinalysis results is contemplated. A negative-result control is provided in conjunction with a plurality of test cartridges designed to yield results about the test sample in several different regards (e.g., use of selected combinations of drugs and/or alcohol by the test subject, the integrity of the urine sample, the medical or physiological condition(s) of the test subject, etc.). Convenient sample test bins are included to allow for real-time and/or side-by-side comparison of the urine sample test results against a verified, negative result control.

Disclosed are devices, kits, compositions, and methods for collecting, transporting, and detecting toxicants, pathogens, and biomarkers in a biological sample. The devices, kits, compositions and methods may be utilized to collect and transport dried blood samples from a skin prick and detect toxicants, pathogens, and biomarkers in the dried blood samples.

A unique system for the correlation between removed lymph nodes for lung cancer diagnosis and pathological analysis thereof is provided. Such a system includes the removal of certain lymph nodes from a suspected or known lung cancer patient with subsequent categorization thereof and placement within a properly divided and labeled specimen collection kit. Through the utilization of such a separation and placement allows and facilitates understanding and non-verbal communication between a surgeon and a pathologist in order to denote the location of the removed lymph nodes in relation to a known or suspected lung cancer tumor or growth. The overall diagnostic method, including the important communicative properties accorded both the particular surgeon and pathologist, is encompassed within this invention, as well as the specific collection specimen kit that permits the surgeon proper distinction of specific removal lymph nodes in relation to their location within the patient's body.

The invention relates to a sample collection kit (100) for collecting plant samples, in particular algae samples for biomedical applications, which sample collection kit comprises at least one sample container for holding plant samples, a plurality of sensors, by means of which sample data can be captured, a data-recording apparatus for recording the sample data, an arrangement of tools, which has collection tools designed for harvesting the plant samples and processing tools designed for processing the plant samples, an arrangement of devices, which has auxiliary devices that can be used in the collection, transport, and processing of the plant samples, a container apparatus (70), which is designed to hold the arrangement of tools and the arrangement of devices in isolation from the environment, and identification markings (80), which contain identification data and are applied to the at least one sample container (70) to the collection tools, and to the processing tools. The invention further relates to a sample collection method.