Systems and methods are provided for sample processing. A device may be provided, capable of receiving the sample, and performing one or more of a sample preparation, sample assay, and detection step. The device may be capable of performing multiple assays. The device may comprise one or more modules that may be capable of performing one or more of a sample preparation, sample assay, and detection step. The device may be capable of performing the steps using a small volume of sample.

A tip device (1) includes a tubular tip (6) and a base (8) that is continuous with a rear end (6a) of the tip (6) and includes a first connector. The first connector detachably connects to a second connector provided in a container (2) to house the tip (6).

There is provided a blood collection container capable of suppressing the contamination of white blood cells into blood plasma. A blood collection container according to the present invention is a blood collection container into which a predetermined amount of blood is collected. The blood collection container includes a blood collection container main body, and a blood plasma separation material, an osmotic pressure regulator, and an anticoagulant contained in the blood collection container main body. The specific gravity of the blood plasma separation material at 25° C. is 1.030 or more and 1.120 or less. When the osmotic pressure regulator and the anticoagulant contained in the blood collection container main body are dissolved in an amount of physiological saline solution equivalent to a predetermined amount of blood collected in the blood collection container to obtain an osmotic pressure measurement solution, the specific gravity of the blood plasma separation material at 25° C. and the osmotic pressure of the osmotic pressure measurement solution satisfy a specific relationship.

Provided herein is a method for isolating high molecular weight (HMW) DNA using beads that are at least 200 μm in diameter that utilizes a device for retaining the beads and where the purified DNA eluant exits the device without shearing the HMW DNA. In some embodiments, the method comprises precipitating the DNA onto the beads, washing the beads in the device, and then eluting the DNA from the beads therein while substantially avoiding shear. Compositions and kits for practicing the method are also provided.

A system for collecting and separating biological material includes a centrifuge tube, a separation tube having an open bottom, a cap, a plug for temporarily sealing the open bottom of the separation tube, and a separation medium disposable within the centrifuge tube. The centrifuge tube and the separation tube sealingly and releasably couple to the cap, such that, when coupled, the separation tube is positioned within the centrifuge tube. The cap is configured to facilitate and/or regulate the introduction of air, gas, or other matter into the separation tube. When fully sealed, the separation tube may be placed under a vacuum condition, whereby a needle apparatus is used to facilitate introduction of matter into the separation tube. When the separation tube is positioned within the centrifuge tube, the bottom portion of the separation tube is submersed in the separation medium.

Filtration apparatuses, kits, and methods for rapid isolation of intact, viable mitochondria from tissues are described with mitochondria isolated by differential filtration through nylon mesh filters. Mitochondria can be isolated in less than 30 minutes using the filtration apparatuses, kits, and methods described.

A system for collecting and separating biological material includes a centrifuge tube, a separation tube having an open bottom, a cap, a plug for temporarily sealing the open bottom of the separation tube, and a separation medium disposable within the centrifuge tube. The centrifuge tube and the separation tube sealingly and releasably couple to the cap, such that, when coupled, the separation tube is positioned within the centrifuge tube. The cap is configured to facilitate and/or regulate the introduction of air, gas, or other matter into the separation tube. When fully sealed, the separation tube may be placed under a vacuum condition, whereby a needle apparatus is used to facilitate introduction of matter into the separation tube. When the separation tube is positioned within the centrifuge tube, the bottom portion of the separation tube is submersed in the separation medium.

Devices, kits, and their methods of use for lysing and/or purifying biological particles, e.g., nuclei are provided. One or more thixotropic layers can be employed in a vessel to purify biological particles. A device with sharp features may be employed to lyse biological particles or the contents thereof.

The present invention relates to a lectin-macromolecular carrier coupling complex for separating glycosylated exosomes from a clinical sample, which comprises a macromolecular carrier and lectins coupled to the outer side of the macromolecular carrier. The complex may simply, conveniently, rapidly, and accurately separate glycosylated exosomes from a clinical sample with a high separation efficiency and a good repeatability; and the separated exosomes are intact in morphology without rupturing or cracking, may be directly used for liquid detection of glycosylated exosomes, or directly used for immunology-related detection, or directly used for gene detection or analysis after extracting related nucleic acids from the exosomes.

A portable motorized centrifugal system is optimized for low cost manufacture and operation. Separation of inhomogeneous fluid biological samples, such as liquid plasma from whole blood, is a common step in medical diagnostic tests. This system may enable remote separation where access to plug-in power sources are limited. The system may facilitate at-home testing. Due to biohazard concerns, the entire centrifugal apparatus portable and disposable, or the system includes one or more disposable elements within the interior of the centrifuge. Alternatively, the system may contain a module of higher value components that are re-usable after disinfection. Devices and methods for implementing centrifugal separation may include disk-shaped fluidic cartridges and tubes with reduced drag cross-section.