专利汇可以提供SAMPLING DEVICE AND SYSTEM FOR COLLECTING A SAMPLE OF A BODY FLUID专利检索,专利查询,专利分析的服务。并且The application concerns a sampling device (12) and a system (10) for collecting body fluid, comprising a metal lancing unit (14) having a distal tip (40) suitable for piercing skin and a capillary channel (42) extending between the tip (40) and a proximal section of the lancing unit (14) for collecting body fluid; and further comprising a plastic holding unit (16) affixed to the lancing unit (14) for manipulating the lancing unit (14) in order to form an incision in the skin, wherein the holding unit (16) contains a sorbent (38) adapted for sorption of moisture and/or volatile substances to protect the sampling device (12) from degradation prior to use.,下面是SAMPLING DEVICE AND SYSTEM FOR COLLECTING A SAMPLE OF A BODY FLUID专利的具体信息内容。
The invention concerns a sampling device for collecting a sample of a body fluid comprising a metal lancing unit having a distal tip suitable for piercing skin and a capillary channel extending between the tip and a proximal section of the lancing unit for collecting body fluid; and a plastic holding unit affixed to the lancing unit for enabling movement of the lancing unit in order to form an incision in the skin. The invention further concerns a sampling system including such a disposable sampling device.
In contrast to simple test strips for self-determination of blood glucose by patients, so-called integrated sampling devices and systems pursue a highly sophisticated concept of sample collection and analyte detection in one step in order to achieve an outstanding use convenience. Hitherto, integrated samplers have not reached the market, not only due to economic reasons. Due to the contamination with sample and the irreversible detection chemistry, the samplers have to be construed as low-cost disposables only for single use. Specific problems are caused by ambient influences which may lead to degradation during storage, in particular due to substances permeating or emanating from containers and interfering capillary action or detection means. Other problems are due to engagement of metallic structures during motion sequences which over the time may lead to abrasion and obstruction of driving elements.
On this basis the object of the invention is to further improve the known devices and systems and to define a design which provides for improved functional stability and safety while avoiding malfunction of actuated parts.
The combination of features stated in the independent claims is proposed to achieve these objects. Advantageous embodiments and further developments of the invention are derived from the dependent claims.
The invention is based on the idea of providing a sampling device with an improved multifunctional component. Thus, it is proposed according to the invention that the holding unit contains a sorbent material adapted for sorption of moisture and/or volatile substances to protect the device from degradation prior to use. The plastic holding unit allows for easy integration of the sorbent to protect the individual sampling device. In particular, the sorbent may help to maintain the hydrophilicity of the capillary channel and to avoid moisture-induced degradation of a test chemistry that may be arranged on the device. Furthermore, the holding unit being made of a plastic material does not only allow for cost-effective production of a handling means, but also reduces abrasion of metal parts of an engaging actuation mechanism.
The term "volatile substances" as used within the present application comprises substances which have a vapor pressure of ≧ 0.1 kPa at a temperature of 20°C. Typical examples of volatile substances in the sense of the present application are hydrophobic, organic chemical substances having a molecular weight between 100 and 1000 Daltons.
Advantageously, the sorbent is selected from the group consisting of carbon black, activated carbon, graphite, desiccant polymers, silica gel, zeolites, ion exchange resins, molecular sieve materials. This allows to adsorb or absorb a variety of interfering substances, in particular moisture from the ambient air and monomers released from containers and the like.
For further improvement it is advantageous when the sorbent is dispersed in the material of the holding unit or disposed therein or coated thereon.
Another manufacturing improvement is achieved when the holding unit is formed as an injection molded component from a molding composition containing the sorbent.
According to a preferred implementation, the holding unit comprises a plastic structure adapted for releasable engagement of an actuation mechanism. Thus, while avoiding scratches or abrasion on metallic structures, the function of a metal actuator can be retained over time.
Another improvement provides that the plastic structure is formed as a hole or a recess in the holding unit.
Preferably, the lancing unit is formed from an elongate piece of a flat material, in particular from a sheet of stainless steel.
For further improvement of liquid sample-uptake, it is also preferred that the capillary channel is provided as a groove or slit which is laterally open to the outside on one side or on two opposite sides.
A particular embodiment further comprises a test element adapted for detecting at least one analyte in the body fluid and arranged to receive body fluid via the capillary channel. Thereby, the sample can be analyzed "on-board" without significant delay.
According to another preferred implementation, the test element is supported between the holding unit and the lancing unit in fluidic connection to the capillary channel. In this configuration, the test element is maintained in direct vicinity of the sorbent, and the test chemistry thereon may even support the suction of sample by capillary action.
For further design improvement it is advantageous when the test element is retained on a surface area of the holding unit and the surface area confines a measuring window for an optical detection of the analyte.
For providing a functional final product, it is advantageous when the holding unit is fixedly connected to a proximal part of the lancing unit by means of form-locked connecting elements, in particular by riveted pins.
Another aspect of the invention concerns a sampling system for collecting a sample of a body fluid comprising at least one sampling device according to the invention and further comprising an actuation mechanism which is operable to drive a lancing movement of the lancing unit, wherein the actuation mechanism comprises a metallic driving member adapted to engage a plastic structure of the holding unit. In this way, the advantages elucidated above are achieved in analogues way within an instrument adapted for use of disposable devices preferably provided in a magazine.
Preferably, the metallic driving member is formed by a gripper or hook, such that gripping and movement of individual sampling devices is simplified.
In this connection it is also advantageous when the plastic structure is provided as a hole or a recess in the holding unit.
In the following, the invention is further elucidated on the basis of an embodiment example shown schematically in the drawings, where
As shown in more detail in
The holding unit 16 is formed as an injection molded component from a molding composition which contains a thermoplastic base material 36 and a sorbent material 38 for sorption of moisture and/or volatile substances to protect the microsampler 12 from degradation prior to use. For example, carbon black may be dispersed in the molding composition.
As further apparent from
In order to support the liquid uptake and transport, the capillary channel 42 may be coated with a hydrophilic agent or with a suspension containing nanoparticles.
Such nanoparticles may comprise particles having a silicon dioxide structure as described in the claims of
Examples of hydrophilic agents are
For a defined form-locking connection to the pins 28 of the holding unit 16, two separate holes 46 are provided on the lancing unit 14 at a distance in the longitudinal direction thereof.
Further depicted in
As further illustrated in
In this configuration, the sorbent material 38 of the holding unit 16 adsorbs interfering substances during storage of the microsampler 12. Such substances may include moisture which would disturb the dry setting of the reactive chemistry on the test pad 48. Furthermore, the sorbent material 38 may be furnished to adhere monomers emitted by a container of the microsampler which could lead to a degradation of the hydrophilic properties of the capillary channel 42.
In use, the microsampler 12 is ejected in distal direction out of a guiding chamber of the meter 20 against the skin of the user. After collection of the sample, the microsampler 12 is retracted to perform the measurement. Such lancing movement is driven by means of the metallic hook 34 which is guided by the plastic material of the holding unit 16 surrounding the oblong hole 32, thereby preventing wear by avoiding a metal-to-metal contact.
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