An activation/retraction mechanism for a lancing device comprising a pusher (10; 20; 30; 40; 50) comprising a first biasing member arranged to displace the pusher in a distal direction; and a lancet holder comprising a lancet for penetrating the skin of a subject, and a second biasing member arranged to displace the lancet holder in a proximal direction; wherein the lancet holder and the pusher are arranged in a housing of the lancing device in such a way that a distal end of the pusher engages a proximal end of the lancet holder to push the lancet holder in a distal direction when the first biasing member displaces the pusher distally. The distal end of the pusher and the proximal end of the lancet holder are arranged to disengage from each other when the pusher has been displaced dis-tally a predetermined length from its initial position, whereby the lancet holder may re-turn to its initial position under influence of the second biasing member.

A device includes a pre-sample reservoir, an actuator mechanism, and a diverter. The pre-sample reservoir can be fluidically coupled to a delivery member to receive and isolate a predetermined volume of bodily-fluid withdrawn from a patient. The actuator mechanism is operably coupled to the pre-sample reservoir such that, when actuated, a negative pressure is formed in the pre-sample reservoir that urges the bodily-fluid to flow into the pre-sample reservoir. The diverter can selectively control fluid flow between the delivery member and the pre-sample reservoir. The diverter includes a flow control mechanism that defines a first fluid flow path and a second fluid flow path. The diverter is movable between a first configuration in which the bodily-fluid flows through the first fluid flow path to the pre-sample reservoir, and a second configuration in which the bodily-fluid flows through the second fluid flow path to a sample reservoir coupled to the diverter.

The present disclosure is a blood collection assembly that has a needle assembly fixedly coupled to a finger-activated actuator and tubing and the needle assembly has a needle. Further, the blood collection assembly has a hub that houses the needle assembly and the hub has a channel in a top surface of the hub. Additionally, the channel slidably engages the finger-activated actuator such that when the finger-activated actuator is moved from a distal end of the hub to a proximal end of the hub the needle retracts within the hub.

A sampling element (110) for generating a sample of a body fluid is disclosed. The sampling element (110) comprises a housing (114), the) housing having a chamber (122) with at least one puncture element (112) stored therein. A tip (132) of the puncture element (112) is movable through at least one puncture opening (124) of the housing (114) in order to perforate a skin portion of a user. The sampling element (110) further comprises at least one compression element (150), which is adapted to increase a pressure of the body fluid within a body tissue of the user in a region of puncturing when pressed onto the skin portion of the user. The compression element (150) is movably mounted to the housing (114). The sampling element (110) comprises at least one locking mechanism (168) for releasably locking the compression element (150) in at least two positions. The at least two positions comprise a first position (170) and a second position (172), the second position (172) being offset from the first position (170). In a further aspect of the invention, an analytical device (204) is disclosed, the analytical device (204) being adapted for using the sampling element (110) of the invention.

There is provided an injector having an improvement in a linear launching profile. The injector of the present invention is used for launching a lancet to provide a pricking. The injector of the present invention comprises a plunger capable of launching the lancet in a pricking direction, an injector housing which surrounds the plunger, and an injector cap capable of being attached and detached with respect to the injector housing. In particular, an inner face of the injector cap is provided with a rib, and the rib and the plunger moving for the pricking are capable of contacting with each other.

A sampling element (110) for generating a sample of a body fluid is disclosed. The sampling element (110) comprises a housing (114), the housing having a chamber (122) with at least one puncture element (112) stored therein. A tip (132) of the puncture element (112) is movable through at least one puncture opening (124) of the housing (114) in order to perforate a skin portion of a user. The sampling element (110) further comprises at least one compression element (150), which is adapted to increase a pressure of the body fluid within a body tissue of the user in a region of puncturing when pressed onto the skin portion of the user. The compression element (150) is movably mounted to the housing (114). The sampling element (110) comprises at least one locking mechanism (168) for releasably locking the compression element (150) in at least two positions. The at least two positions comprise a first position (170) and a second position (172), the second position (172) being offset from the first position (170). In a further aspect of the invention, an analytical device (204) is disclosed, the analytical device (204) being adapted for using the sampling element (110) of the invention.

An auto-retractable blood collection needle, including: a needle holder including a first tube, a second tube and a holder tail; a needle in stalled in the first tube; a built-in sliding sleeve which is elongated and through and has a C-shaped cross section; a needle shield which is hollow and elongated; and a spring sheathed on the first tube. The second tube is installed in the built-in sliding sleeve and is capable of sliding back and forth. The built-in sliding sleeve is installed in the needle shield and is capable of sliding back and forth. A locking mechanism is formed by the holder tail and the needle shield. When the holder tail is unlocked from the needle shield, a force of the spring pushes the second tube to slide backward, and then the built-in sliding sleeve is driven to slide rearward to lock with the needle shield.

The disclosed apparatus, systems and methods relate to devices, systems and methods for the collection of bodily fluids involving a single-use actuation and retraction mechanism disposed within a collector.

Disclosed is a replaceable blood lancet device in which a needle unit including a needle carrier and a front slider is used as inserted in a tubular barrel, and the used needle unit or needle carrier is replaced after use. The replaceable blood lancet device minimizes waste of resources by reducing the parts to be discarded in reuse. In addition, the front slider inserted in the barrel is easily loaded and unloaded through the withdrawal grip portion provided in the front slider. Further, an action spring for elastically pushing the needle carrier in a frontward direction, and a rear end cap for supporting the actuation spring to be compressed to generate an elastic force are provided, so that the blood lancet device can perform blood collection based on the elastic force of the spring.

A disposable blood lancet device includes a barrel including a tubular barrel body; a tubular front slider inserted in the barrel; a carrier; a needle carrier; an actuation spring elastically pushing the needle carrier in the frontward direction; and a trigger portion coming into contact with the elastic transformation portion upon the rearward movement of the needle carrier and elastically transforming the elastic transformation portion inwards in the radial direction so that the interlocking holding projection can be separated inwards from the rear end of the front slider to propel the needle carrier frontwards.