In one aspect, a dermal patch is disclosed, which comprises at least one needle configured for puncturing a subject's skin so as to allow drawing blood from the subject, a first blood-transfer fluidic channel for receiving at least a portion of the drawn blood, and a serum-separation element fluidly coupled to said first blood-transfer fluidic channel for receiving at least a portion of the drawn blood and separating a serum component thereof. In some embodiments, the dermal patch may include at least one reservoir for storing blood-processing reagent(s).

A body fluid sensing device with a body fluid capture structure and a body fluid measurement sensor positioned in the body fluid capture structure. A capacitance sensor is coupled to the body fluid measurement sensor. The capacitance sensor is used to assist in the positioning of a body part relative to the body fluid capture structure.

The present invention includes a system for withdrawing body fluids. The system includes a drive unit having a plunger which is moved from a resting position into a lancing position in order to carry out a lancing process and a lancing unit containing a lancet with a needle. The plunger and lancet are coupled together by a form fit in order to carry out a lancing process. The invention additionally concerns a method for temporarily extending a needle from a device for withdrawing body fluid as well as a lancing unit that can be attached to the drive unit.

Methods and apparatus are provided for manufacturing an analyte detecting device. In one embodiment, the apparatus comprises a housing; a penetrating member driver; a cartridge containing a plurality of penetrating members; a display on the cartridge; a linear slider on the housing, the slider coupled to a rod; and the rod moving with the slider, the rod having at least one roller. The device uses the linear motion of the slider to rotate the cartridge, punch open a new cavity and load a new penetrating member.

An apparatus and a method for measuring a property of a blood sample is shown. The apparatus comprises of a housing having an aperture; a shaft mounted inside the housing; a testing member rotatably mounted on the shaft; an actuating member coupled to the housing and configured to exert a force against the testing member; and a lancet for eliciting a blood sample fixedly coupled to and protruding substantially radially from the testing member and configured to co-rotate with the testing member. The apparatus is further configured such that the lancet is aligned with the aperture in the housing when the testing member is in a first position. The testing member is configured, in the presence of a force exerted against the testing member by the actuator member, to translate to a second position in which the lancet is in a skin penetrating position.

A tissue penetrating system has a housing member, a plurality of penetrating members positioned in the housing member and a plurality of sample chambers. Each sample chamber is associated with a penetrating member. A tissue stabilizing member has a tissue interface surface configured to be applied to a tissue surface and provide for spontaneous flow of blood for sample capture. The tissue stabilizing member is coupled to the housing.

A lancet driver is provided wherein the driver exerts a driving force on a lancet during a lancing cycle and is used on a tissue site. The driver comprises of a drive force generator for advancing the lancet along a path into the tissue site, and a manual switch for a user interface input.

A portable medical apparatus including at least a sampling assembly for providing at least one sample of a fluid in an object, a detector for determining at least one parameter of the fluid, an injector for performing at least one injection of an injection medium, and which are operable independent of each other for improved self-treatment of diseases such as diabetes. The portable medical apparatus has a single common housing for these components and a switch for changing between the sampling mode, the determining mode, and the injection mode. The apparatus also includes an actuator means for individually actuating the other components. The apparatus is an all-in-one device that facilitates the medical treatment process for patients, medical professionals or others.

A body fluid sampling system for use on a tissue site includes a single drive force generator. A plurality of penetrating members are operatively coupled to the force generator. The force generator moves each of the members along a path out of a housing with a penetrating member exit, into the tissue site, stops in the tissue site, and withdraws out of the tissue site. A flexible support member couples the penetrating members to define a linear array. The support member is movable and configured to move each of the penetrating members to a launch position associated with the force generator.

The invention relates to a lancing device (1) for obtaining bodily fluid samples, comprising a base body (3), on one longitudinal-face end (6) of which a removable cap (12) is arranged which has a positioning face (8) with an outlet opening (7), a lancet magazine (4) for receiving at least one lancet (5), which is held replaceably in the base body (3), a drive device (14) for moving a lancet (5) arranged in the lancet magazine (4) back and forth in the direction of the longitudinal axis (2), said lancet being positioned therein in such a way that the tip thereof can exit the outlet opening (7) during the movement back and forth, wherein the lancet magazine (4) has a locking element (30) and the cap (12) has an unlocking element (31) formed to engage in the locking element (30).