Diagnostic detection chip device designs that reduce cost of fabrication and assembly are described herein. Such chip device designs include features that facilitate use of the chip within a chip carrier device with integrated fluid flow control features and compatibility with conventional sample cartridges and sample processing systems. Associated methods of manufacture and assembly of the chip devices are also provided herein.

Provided is a sample analysis apparatus including: a syringe pump; a channel switch valve; a mixing container; a detection unit configured to detect a concentration of a specified substance contained in a sample solution; and a control unit configured to control the syringe pump and the channel switch valve. The channel switch valve includes a sample port, a reagent port, and a detection port connected to a detection pipe on which the detection unit is arranged. The control unit controls the syringe pump and the channel switch valve to draw the reagent solution from the reagent pipe to the mixing container, draw the sample solution from the sample pipe to the mixing container, draw the reagent solution from the reagent pipe to the mixing container, and supply a mixture solution containing the sample solution and the reagent solution from the mixing container to the detection unit.

A bioprocess bag for containing bioprocess fluids includes a frame having a first opening and a second opening, a first layer of film bonded to the frame to cover the first opening, and a second layer of film bonded to the frame to cover the second opening. The frame, the first layer of film, and the second layer of film form an enclosed space for containing the bioprocess fluids. The frame is disposed between the first layer of film and the second layer of film.

The present invention relates to a whole blood and fingertip blood testing device, including a blood collection structure and a testing chamber connected to and in fluid communication with the blood collection structure. The blood collection structure includes a collection rod, a capillary channel is arranged inside the collection rod, the bottom end of the capillary channel is located at the tail end of the collection rod, and the top end of the capillary channel is located in the middle of the capillary channel; and the collection rod is provided with a communicating hole connected to and communicated with the top end of the capillary channel. Moreover, the present invention also provides a method for collecting and testing a blood sample by using the testing device. Through the integrated structure of the blood collection structure, the testing chamber and the buffer chamber, the whole blood and fingertip blood testing device and method achieve functions of collecting, slowly releasing and testing the blood sample. The operation is easy, which reduces the difficulty of use by the operator. The number of times and time that the operator contacts the sample are effectively reduced, and the infectious possibility of the operator is reduced, so that the testing device is suitable for HIV testing, novel coronavirus testing, etc. The testing device and method have low requirements on the collected amount of the sample, and the collected amount is optimized from the milliliter level to the microliter level.

The present invention relates to a container assembly for collecting and transporting a tissue sample. The container includes a container having a chamber therein for receiving the tissue sample. The container assembly includes a cap configured to be attached to the container to close off the chamber. The cap includes a base section, which is configured to be attached to the container, and a movable section, which is movably coupled to the base section. The base section and movable section are configured to form a reservoir therebetween, the reservoir being sized and shaped so as to contain a preservation solution. The base section and the movable section are configured such that the preservation solution is discharged into the chamber from the reservoir when the movable section is moved relative to the base section from a closed position to an open position.

A sample container cap (or “cap”) is configured to be used with a sample container for collecting fluids. The cap has a body and a shutter connected to the body. The cap has a (1) first, open position in which at least one body opening and at least one shutter opening are not aligned and the cap is configured so that fluid cannot readily pass therethrough, (2) second, open position in which the at least one body opening and the at least one shutter opening are aligned and the cap is configured so that fluid can pass therethrough, and (3) third, closed and locked position, in which the at least one shutter opening and the at least one body opening are not aligned and fluid cannot readily pass through the cap, and the cap is configured to not be moved to an open position.

A lid apparatus for a multi-chambered container. The lid apparatus has a top-lid that is hingedly attached to a bottom-cap. The top-lid includes one or more openings for fluid filling multiple passages that extend from the bottom-cap. A lower bottom-cap includes welding features for welding to the multi-chambered container. The bottom-cap further includes one or more auxiliary ports for injecting a reagent when the lid apparatus is in a closed configuration sealingly attached to the multi-chambered sample container.

A system and associated method for concentrating and separating components of different densities from fluid containing cells using a centrifuge includes a syringe and a syringe holder, the syringe having a proximal top with a luer port, a sidewall extending from the top forming a syringe tube, and a plunger slidably disposed inside the syringe tube, the plunger forming a sealing engagement with the sidewall, the syringe holder defining a cavity for receiving the syringe, wherein a distal end of the syringe tube is at least partially closed by the syringe holder after the plunger is placed inside the syringe tube. The method includes receiving a fluid containing cells in the syringe; placing the syringe and syringe holder into a centrifuge; exposing the syringe and syringe holder to elevated g force in the centrifuge, the syringe holder being in physical contact with the sidewall on the distal end to provide support and prevent fluid from leaking outside the syringe; removing the syringe from the centrifuge; and extracting separated layers containing cells using the luer port of the syringe as an access port.

The present invention relates to a platelet rich plasma (PRP) extracting device and extracting method using the same, and more particularly, to a platelet rich plasma (PRP) extracting device capable of quickly and effectively extracting the highly concentrated PRP from centrifuged blood by a simple manipulation.

A tool for the distribution of a sample of biological or microbiological material, the tool including an elongated body, provided with a first portion and a second portion; a distributing element, the distributing element being configured at least for distributing a sample of biological or microbiological material on a culture medium; a connector being configured for allowing the joining of the tool with a supporting element of a machine configured for carrying out a distribution of a sample of biological or microbiological material, in particular of a pipetting machine; wherein the connector is adapted and specifically configured for being removably coupled to a supporting element in alternative to another tool, in particular to a tip or pipette for the collection and/or deposit of the sample of biological or microbiological material.