A cord blood collection system is provided. The system includes a housing having an upper portion and a lower portion, the upper portion and lower portion defining a hollow interior. A peristaltic pump is disposed within the lower portion, the peristaltic pump having an input portion and an output portion. A reel member is disposed in the upper portion. A tubing member is movably coupled to the reel member, the tubing member being operably coupled to the peristaltic pump, the first end being configured to couple with a container, the second end being configured to couple with a needle.

Biomedical container to collect and test blood or a blood component, comprising a collection chamber for blood or a blood component; a test chamber for blood or a blood component; and a test kit in the test chamber to test the blood or the blood component contained therein. The collection chamber and the test chamber are intended to be connected so as to be unequivocally mutually associated and to be supplied with the same blood or blood component.

A system for collecting a physiological sample from a subject includes a lancet configured to draw a physiological sample and a cartridge configured to be affixed to the subject's skin. The cartridge includes a physiological sample well, a sloped physiological sample channel in open communication with the physiological sample well and a sample collection pad in in open communication with the sloped physiological channel and configured to absorb the drawn physiological sample. The physiological sample well is configured to retain the drawn physiological sample and the sloped physiological channel is configured to carry the drawn physiological sample from the physiological sample to the sample collection pad.

A capillary chamber for performing chemical and physical analysis using a plurality of whole blood samples is presented. Following a loading of the whole blood samples into a plastic tube, the whole blood samples are distributed into a collection chamber and the capillary chamber has means of adding respective vaccines or similar biological products into each capillary tubes. The whole blood is then analyzed using standard microscopic techniques with sufficient resolution and contrast to record the chemical and physical properties of the blood immediately after withdrawal.

The present invention relates to a sampling device, a sampling system and a method of sampling, and in particular a method of analysis, for application to a living entity.

An example embodiment of an apparatus includes a fitting configured to couple to a pressurized supply of fluid. At least three branch assemblies extend from the fitting. Each branch assembly includes a tube coupled to the fitting at a first end, a balloon comprising a neck portion having a second end of the tube inserted therethrough, and a fastener removably coupling the balloon to the tube. The fastener is configured to permit fluid from the pressurized supply of fluid to pass through the tube and into the balloon and to automatically restrict the fluid from exiting the balloon through the neck portion upon decoupling the balloon and fastener from the tube.

The inventive apparatus is a device for collecting a target volume of blood in a collecting bag connected to a collection needle with a flexible tube. The device has a plate for the collecting bag and a clamping device for clamping the flexible tube. The device also has a bearing element having a bearing surface, and a clamping element with a clamping surface. The clamping element is able to move between an open position in which the flexible tube positioned between the bearing and clamping surfaces is not deformed and a closed position in which the flexible tube positioned between the bearing and clamping surfaces is closed off. The device also has a control unit configured to determine the volume of blood collected and move the clamping element from the open position to an intermediate position, when the determined volume of blood collected reaches a predetermined volume.

A medical preparation dividing method is dividing a medical preparation stored in a storage member into a plurality of division bags by gravitational force through a primary tube, a branch portion, and a plurality of branch tubes. A medical preparation dividing unit has a curved portion formed in another end side of the primary tube, an inlet of the branch portion arranged above the curved portion, and outlets of the branch portion arranged above the inlet, in a state where the plurality of division bags is held with a holding tool.

The disclosed apparatus, systems and methods relate to devices, systems and methods for the collection of bodily fluids. The collector can make use of microfluidic networks connected to collection sites on the skin of a subject to gather and shuttle blood into a removable cartridge. The collected fluid is supplied to substrate for drying, storage and transport.

The invention relates to a device for collecting fluid (10) including a tubular body (11) having a first open free end (13) and a second open free end (14), and including at least one conduit (30) and a flared section (20) extending from the conduit (30), and having an increasing diameter from the conduit (30) to the first open free end (13), and a part (21), referred to as top part, of the first open free end (13) being more radially spaced relative to the conduit (30) than another part (22), referred to as bottom part, of the first open free end (13), which is diametrically opposite the top part (21). It also relates to a system for quantifying fluid loss including such a device and a quantification receptacle connected to the conduit (30) of the device (10).