A capillary connection unit for analysis devices and medical devices includes a capillary having at least one end section and a free end, at least one connection element arranged on the end section of the capillary, wherein the connection element has an axial guide-through for the capillary, a sealing element surrounding the capillary, and a metal sleeve element which radially externally surrounds the sealing element and which has a first end facing the connection element and a receiving region facing away from the connection element, wherein the connection element is configured to be detachably connected to a counter element and to exert an axial thrust force onto the sealing element.

A reaction carrier (14), a measuring device (12) and a measuring method for measuring a concentration of gaseous/aerosol components of a gas mixture uses reaction material (48) which reacts in an optically detectable manner with at least one component to be measured or with a reaction product of the component to be measured. The reaction carrier includes a flow channel (42) with sections (43) and extends between connecting elements (44). A gas treatment element (47), in each of the sections, changes chemical or physical properties of the gas mixture flowing therethrough or reacts, depending on the chemical or physical properties. The sections are separated from each other in a gas-tight manner by a separating element (49). A coupling element (45) opens the separating element and establishes a connection between the sections when the coupling element is activated. The measuring device includes an activation element (25) to activate the coupling element.

Pipette tip couplers, pipette tips, coupler and tip combinations, and methods for coupling and decoupling a pipette tip to or from, respectively, a pipette tip coupler mounted on a pipette device. The pipette tip couplers include an elastomeric element, an annular crown shaped raceway, and a coupler stop shoulder surface. The pipette tips include a groove in a first cylindrical section, a second cylindrical section, a tip stop shoulder surface at the interface of the first and second cylindrical sections, a third cylindrical section, a sealing seat surface at the interface of the second and third cylindrical sections, and a fourth section adjacent to the third cylindrical section. When the pipette tip is mounted on the pipette tip coupler, the annular crown shaped raceway abuts the tip groove, the coupler stop shoulder surface abuts the tip stop shoulder surface, and the elastomeric element abuts the sealing seat surface.

Vessel closure assemblies are provided. The vessel closure assemblies may be engaged with vessels. The vessel closure assemblies may each include a vessel closure, inserts such as anchors and fluid conduits extending through the vessel closure, and a respiratory assembly. The respiratory assembly may include a housing and one or more gas permeable membranes. The gas permeable membranes may be oriented substantially perpendicular to a top wall of the vessel closure through which the inserts extend.

Pipette tip couplers, pipette tips, coupler and tip combinations, and methods for coupling and decoupling a pipette tip to or from, respectively, a pipette tip coupler mounted on a pipette device. The pipette tip couplers include an elastomeric element, a discrete segment assembly, and a coupler stop shoulder surface. The pipette tips include a groove in a first cylindrical section, a second cylindrical section, a tip stop shoulder surface at the interface of the first and second cylindrical sections, a third cylindrical section, a sealing seat surface at the interface of the second and third cylindrical sections, and a fourth section adjacent to the third cylindrical section. When the pipette tip is mounted on the pipette tip coupler, the discrete segment assembly abuts the tip groove, the coupler stop shoulder surface abuts the tip stop shoulder surface, and the elastomeric element abuts the sealing seat surface.

A storage vial (100, 200) may include a vial body (110, 210) having a first end (111, 211) and a second end (112, 212) and defining an internal volume (113, 213) configured to contain a biological material (B) therein, a first valve (120, 220) positioned at the first end of the vial body, a second valve (130, 230) positioned at the second end of the vial body, a first conduit connector (160, 260) positioned at the first end of the vial body, and a second conduit connector (170, 270) positioned at the second end of the vial body. The resulting construction may allow for closed system direct transfer of biological material from the storage vial to another vessel using aseptic techniques.

A device and a method for isolating a target from a sample are provided. The target is bound to solid phase substrate to form a target bound solid phase substrate. The device includes a first plate having a first region for receiving at least a portion of the sample. A second plate is spaced from the first plate by a distance and has a first region for receiving a reagent. A force attracts the target bound solid phase substrate toward the first region of the second plate such that the target bound solid phase substrate in the portion of the sample are drawn through the air gap and into the reagent by the force.

Pipette tip couplers, pipette tips, coupler and tip combinations, and methods for coupling and decoupling a pipette tip to or from, respectively, a pipette tip coupler mounted on a pipette device. The pipette tip couplers include an elastomeric element, a discrete segment assembly, and a coupler stop shoulder surface. The pipette tips include a groove in a first cylindrical section, a second cylindrical section, a tip stop shoulder surface at the interface of the first and second cylindrical sections, a third cylindrical section, a sealing seat surface at the interface of the second and third cylindrical sections, and a fourth section adjacent to the third cylindrical section. When the pipette tip is mounted on the pipette tip coupler, the discrete segment assembly abuts the tip groove, the coupler stop shoulder surface abuts the tip stop shoulder surface, and the elastomeric element abuts the sealing seat surface.

A pipette structure (160B) includes first and second body sections (164, 166) connected at a junction and including first and second fluid passages, respectively, with the pipette structure including (i) a bellows joint (165) permitting pivotal movement between the first and second body sections (164, 165), and/or (ii) the second fluid passage of the second body section includes greater width dimension at a sample introduction end than a width dimension at the junction. Such a pipette structure may be embodied in a unitary measuring pipette or an extension tip device for a measuring pipette. A method is provided for transferring material between an interior of a cell culture housing that includes a structured surface defining an array of microwells suitable for three-dimensional culture of multi-cell aggregates and an external environment. A method for fabricating a pipette structures is further provided.

A biological fluid collection system (10) including a collection module (14) for collecting a small sample of blood and transferring a portion of the sample into a device or instrument for analyzing the sample such as a point-of-care or a near-patient-testing device including blood collection devices for collecting and transferring venous and arterial blood samples are disclosed.