• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to a magnetic indicator (1) for an injection device for delivering a drug into the body of a subject user, wherein the magnetic indicator is configured to indicate, after the administration, that a dose of drug has actually been administered and to maintain this indication until a predetermined time interval has elapsed. The delay indicator is based on the physical displacement of a magnetic liquid (6) by a magnet (10).
    公开号:CH707422B1
    申请号:CH00734/14
    申请日:2012-11-15
    公开日:2017-08-31
    发明作者:Kiilerich Novo Nordisk A/S Ebbe
    申请人:Holding Christophe Claret Sa;
    IPC主号:
    专利说明:

    Description
    TECHNICAL FIELD OF THE INVENTION [0001] The present invention relates to an indicator for use with medical injection devices for delivering a medicament into a user's body, wherein the indicator is configured to visually indicate administering a dose of medication that a predetermined time interval has elapsed.
    Description of the Prior Art [0002] People suffering from diabetes must inject insulin daily. For this purpose, a large number of pen-type systems have been developed over the last 30 years. The typical diabetic patient will need insulin injections several times over a week or a day. However, typical injection devices do not address the problem of a user not remembering when the last injection was administered.
    [0003] Even shortly after the administration of a dose of insulin, the user will sometimes doubt whether he has actually made an injection or not. This doubt could occur minutes or even hours after the injection has been made. Thus, there is the potential risk that the user chooses not to take his remedy, or that he takes it twice.
    [0004] WO 97/30742 discloses an electronic injection device provided with an electronic monitoring system designed to automatically trigger an electronic timer when the selected dose is injected and to show the evolution of time on an electronic display. . Such an injection device generally provides a satisfactory solution to the problem discussed above. However, for simpler injection devices such as disposable injection devices, i.e., injection devices that are pre-filled with a predetermined amount of liquid medicine, and discarded after use, the solution with integrated electronics will, in most cases, not be economically viable. In addition, such a solution may not be environmentally acceptable due to the potential increase in the disposal of electronic components such as batteries, etc.
    A different solution is presented in WO 2004/010 231. Here, an electronic timer in the cap of an injection device generates a first time stamp once the cap is removed and a second timestamp once the cap is attached to the injection device. If the cap has been removed within a certain time interval, the electronic control assumes that an injection has been made and triggers an electronic timer. This solution is suitable for a pre-filled injection device, since the cap can be reused on the next pre-filled injection device, which the user needs in his treatment. Thus, the previously filled injection device can be discarded, but the electronic timer in the cap can be reused.
    A purely mechanical delay indicator that can be integrated into a previously filled injection device is presented in US 2011/0 208 125.
    Hourglasses also known as timers are widely known to indicate that a predetermined time interval has elapsed. These delay indicators typically include two chambers connected by a narrow channel or orifice through which sand (or liquid) moves from one chamber to the other chamber. The composition of the sand contained in the chambers and the diameter of the orifice or channel are decisive for the time interval required for the earth's gravity to move the sand from one chamber to the other chamber. In these timers, both chambers must be provided above and below each other so that gravity moves the sand from the upper chamber to the lower chamber.
    An electrical switch having a magnetic delay mechanism is disclosed in US 2,555,513. Here, a flowable magnetic material is provided in an upper chamber and moved by gravity through a narrow orifice and into a chamber. lower. Once a sufficient amount of the magnetic material is present in the lower chamber, the cumulative magnetic force of this magnetic material has grown sufficiently to pull the trigger of a switch. The mechanism is further provided with a handle so that a user can shift the positions between the upper and lower chambers to start a new cycle. However, in this magnetic delay mechanism, the flowable magnetic material is displaced due to gravity, thus requiring both chambers to be physically located one above the other.
    In addition, a magnetic toy comprising a magnetic liquid gel that can be pulled through an opening by a magnetic force delivered by a permanent magnet is shown in US 5,810,640.
    DESCRIPTION OF THE INVENTION [0010] In view of the prior art identified above, it is an object of the present invention to provide an indicator that provides a visual indication issued to signal to a user that a time interval predetermined has elapsed, the timer having a less complex construction than the solutions of the prior art. Another object is to provide a simple and cost-effective indicator suitable for inclusion as an integral part of a disposable injection device and which allows for simpler operation of the injection device. Yet another object is to propose an indicator that does not depend on mechanical means, but that works instead by relying purely on magnetism.
    The invention is defined in claim 1.
    According to a first aspect, the present invention relates to an indicator comprising two different compartments connected by a channel or a narrow orifice, for example as an hourglass. One of the two compartments contains a magnetic liquid that can flow from one compartment to another through the narrow channel. In an ordinary hourglass, such as a timer, the influence of the gravitational force usually moves the sand from one chamber to a second chamber, so that one chamber is located above the other chamber so that gravity can move the sand from the upper chamber to the lower chamber. In the present invention, the earth's gravity has been replaced by a magnet, so that the contents of the compartments are simply displaced by the magnetic force of the magnet, so that both chambers can be oriented next to the magnet. other and not necessarily one above the other.
    The chamber not containing the magnetic liquid may be empty or it may be filled with another non-magnetic liquid which is then moved to the first chamber while the magnetic liquid moves into the second chamber. This non-magnetic liquid would preferably have the same density as the magnetic liquid. The gradual replacement of the magnetic liquid as it flows into the other chamber through this non-magnetic liquid would make the system completely independent of gravity since the entire volume of both chambers and the channel would be constantly filled by the two liquids. different.
    In one example, the magnetic liquid is removed from the magnet, moving the compartment containing the magnetic liquid away from the magnet. This can be done in the same way as in an ordinary hourglass where the hourglass is tilted about an axis perpendicular to the channel connecting the two compartments.
    In another example, the magnetic liquid is moved to the other compartment by forcing it through the narrow channel, after which the magnet pulls the magnetic liquid back into the compartment. After a predetermined period of time, the magnetic liquid is thus returned to the first compartment.
    In another embodiment, the magnetic liquid follows the movement of the magnetic means, which magnetic means could, in one embodiment, be moved by a spring. During administration of the drug, the spring could be stretched, after which the tensioned spring, during its return to its unstretched position, pulls the magnet and thereby the magnetic liquid.
    The magnetic force of the magnet and the opening of the orifice and the composition of the magnetic liquid are decisive for the time required for the magnetic liquid to move from one compartment to the other compartment. As the magnetic fluid moves, the visual appearance of the compartments changes continuously and, once the magnetic liquid has moved completely from one compartment to another, the user can easily identify that the time interval predetermined has elapsed.
    The magnet is preferably a permanent magnet to keep the delay indicator as simple as possible, but in more complex configurations any type of electromagnet could be used.
    According to another aspect of the invention, the delay indicator is integrated into a disposable injection device so that a user activates the delay indicator once he depresses an injection button for give an injection. Definitions [0020] A "magnetic liquid" is a liquid solution (including a gel) that contains magnetic particles so that the liquid can be displaced by the influence of a magnet. These liquids, which are magnetized in the presence of a magnetic field, are often referred to as "ferrofluids" since they normally contain ferromagnetic particles suspended in a carrier fluid. A number of these magnetic liquids or gels are referred to in US 5,810,640.
    An "injection pen" is generally an injection device having an oblong or elongated shape somewhat like a writing pen. Although these pens generally have a tubular cross section, they could easily have a different cross section such as triangular, rectangular or square or any variant around these geometries.
    As used herein, the term "drug" is intended to encompass any drug-capable, drug-dispensable remedy capable of passing through dispensing means such as a hollow needle of a controlled manner, such as a liquid, a solution, a gel or a fine suspension. Representative drugs include pharmaceuticals such as peptides, proteins (eg, insulin, insulin analogs and peptide C), and hormones, biologically or active derived agents, hormones and genes, nutritional formulas and other substances both in solid (administered) or liquid form.
    [0023] "Cartridge" is the term used to describe the container that contains the drug. The cartridges are generally made of glass, but they could also be molded from any suitable polymer. A cartridge or ampoule is preferably sealed at one end by a membrane which can be pierced, for example, by the end of a needle cannula of a caregiver. The opposite end is generally closed by a piston made of rubber or a suitable polymer. The piston can be slidably moved inside the cartridge. The space between the pierceable membrane and the movable piston contains the drug that has come out under pressure as the plunger reduces the volume of the space containing the drug. However, any type of container - rigid or soft - can be used to contain the drug.
    All references, including publications, patent applications and patents, cited herein, are incorporated by reference in their entirety and to the same extent as if each reference was individually indicated and specifically incorporated by reference and was exposed in its entirety here.
    [0025] All titles and subtitles are used here solely for convenience and should not be construed as limiting the invention in any way.
    The use of examples, or an example of a language (for example, such as) provided here, is intended merely to better illuminate the invention and does not pose a limitation on the scope of the invention. unless otherwise stated. No language in the specification should be considered to indicate any element not claimed to be essential for the practice of the invention. The citation and incorporation of patent documents here are made solely for convenience and do not reflect any consideration of the validity, patentability, and / or enforceability of these patent documents.
    The present invention includes all modifications and all equivalents of the subject presented in the appended claims as permitted by applicable law.
    Brief Description of the Drawings [0028] The invention will be explained more fully below in connection with a preferred embodiment and with reference to the accompanying drawings, in which:
    Figs. 1A to E show a magnetic indicator.
    Figs. 2A to E show a different embodiment of a magnetic indicator.
    Figs. 3A to D show another embodiment of a magnetic indicator.
    The figures are schematic and simplified for the sake of clarity, and they show just the details, which are essential to the understanding of the invention, while the other details are omitted. Everywhere, the same reference numbers are used for identical or corresponding parts.
    DETAILED DESCRIPTION OF AN EMBODIMENT [0030] When, hereinafter, the terms such as "upper" and "lower", "right" and "left", "horizontal" and "vertical", "in the sense of clockwise "and" counterclockwise "or similar related terms are used, these refer only to the accompanying figures and not to an actual use situation. The figures shown are schematic representations, which is why the configuration of the different structures as well as their relative dimensions are intended to serve only for purposes of illustration.
    Figs. 1A to E show an arrangement of a magnetic indicator 1. The magnetic indicator 1 comprises a first compartment 2 and a second compartment 3 located in a housing 4 and connected to one another via an orifice 5. In fig. 1A, before making an injection, a magnetic liquid 6 is present in the first compartment 2 only. After (or during) the execution of an injection, the first compartment 2 is moved away from the permanent magnet 10 as shown in FIG. 1B, for example by rotating the housing 4 containing the two compartments 2, 3 as indicated by the arrow 7.
    In one embodiment, the second compartment 3 may, instead of being empty, be filled with a non-magnetic liquid which would then be forced into the first compartment 2 while the magnetic liquid 6 moves into the second compartment. 3, thereby replacing the magnetic liquid 6 in the first compartment.
    While the time passes as shown on the analog clock 8, the magnetic liquid 6 is pulled through the orifice 5 and in the second chamber 3 by the permanent magnet 10 as shown in Figs. 1C and 1D.
    After a predetermined time interval, all the magnetic liquid 6 will be present in the second compartment 3 only, as shown in FIG. 1E.
    If the predetermined time interval for moving the magnetic liquid 6 through the orifice 5 is, for example, set at one hour, then the user can, in the time interval of the execution of the injection until one hour has elapsed, observe the displacement of the magnetic liquid 6 of the first compartment 2 and in the second compartment 3. When more than one hour has elapsed, all the magnetic liquid 6 will be present in the second compartment 3, informing the user that more than one hour has elapsed since the last injection.
    权利要求:
    Claims (7)
    [1]
    Another solution is shown in Figs. 2A to E. Here, the magnetic liquid 16 is encapsulated in a bag-like structure 14 divided into a first compartment 12 and a second compartment 13. These two compartments 12, 13 are connected to each other via of an opening or orifice 15. [0037] Before the injection, all the magnetic liquid 16 is present in the first compartment 12, as shown in FIG. 2A. During the injection, the user exerts pressure on the first compartment 12, for example by pressing a finger 19 on the first compartment 12. The pressure displaces the magnetic liquid 16 in the second chamber 13, as shown in FIG. fig. 2B. When the finger 19 is removed and no pressure exists, the magnetic liquid 16 begins to flow back to the first compartment 12 because of the magnetic force of the permanent magnet 10, as shown on fig. 2C. The analog clock 18 illustrates the time that passes. In this example, all the magnetic liquid 16 will return to the first compartment 12 an hour after releasing the pressure of the finger 19, as shown in FIG. 2E. A user observing the bag-like structure 14 will see that, for example, during the first hour that elapses after the execution of the last injection, the magnetic liquid 16 is present in the second compartment 13, after which the second compartment 13 is left empty. Another variant is shown in Figs. 3A to D. Here, the magnetic liquid 26 is also present in a bag-like structure 24 and can be moved from the first chamber 22, through a neck 25, into the second chamber 23. The bag-like structure 24 is fixed permanently and the permanent magnet 10 is fixed in a rotary housing 21 by a spring 20. The permanent magnet 10 will adhere magnetically to the magnetic liquid 26 so that the magnetic liquid 26 will follow the permanent magnet 10 and vice versa . Once the injection has been performed or even during the injection, the rotary housing 21 is rotated as indicated by the arrow 27 in FIG. 3B. This rotation tends the spring 20 which immediately begins to pull the permanent magnet 10 towards the relaxed position of the spring 10, as shown in FIG. 3C. The characteristic of the spring 10 could, for example, be such that the spring 10 is returned to its original shape in the next half-hour, as indicated by the clock 28. As a result of this, the liquid The magnet 26 is drawn into the second chamber 23 by the permanent magnet 10, as shown in FIGS. 3C and 3D. After half an hour, all the magnetic liquid 26 has been moved from the first chamber 22 and into the second chamber 23. [0046] A user observing, for example, the second chamber 23 will see a second chamber 23 empty if no injection was performed, as in fig. 3A. During the first half hour after the execution of an injection, the user will see that the second chamber 23 fills gradually with the magnetic liquid 26, as in FIG. 3C, and after half an hour has elapsed, the second chamber 23 will be completely filled, as shown in FIG. 3D. Some preferred embodiments have been presented in the foregoing, but it should be emphasized that the invention is not limited thereto, but may be implemented in other ways in the limits of the content defined in the following claims. claims
    1. Magnetic indicator comprising: - a first compartment (2, 12, 22) and a second compartment (3, 13, 23) connected by an orifice (5, 15, 25), - a magnetic liquid (6, 16, 26) ) provided inside one of the first compartment (2, 12, 22) and the second compartment (3, 13, 23), and - magnetic means (10) providing a magnetic force capable of displacing the magnetic liquid (6, 16, 26) through the orifice (5, 15, 25) of one of the first (2, 12, 22) and the second compartment (3, 13, 23) in the other ( 2, 12, 22) and the second compartment (3, 13, 23) within a predetermined time interval.
    [2]
    Magnetic indicator according to Claim 1, in which that of the first (2, 12, 22) or second compartment (3, 13, 23) not containing the magnetic liquid (6, 16, 26) contains a non-magnetic liquid. adapted to be moved to said first or second compartment containing the magnetic liquid (2, 12, 22) by said magnetic liquid as it moves the magnetic liquid to the other one of said first and second compartments under the action of the magnetic force.
    [3]
    Magnetic indicator according to claim 1 or 2, wherein the first compartment (2, 12, 22) and the second compartment (3, 13, 23) are arranged to be offset in position relative to the magnetic means (10).
    [4]
    4. A magnetic indicator according to claim 1, wherein the magnetic liquid (6, 16) is adapted to be displaced from one of the first (2, 12, 22) and the second compartment (3, 13, 23) in the other of the first (2, 12, 22) and the second compartment (3, 13, 23) by application of pressure.
    [5]
    5. A magnetic indicator according to claim 1 or 2, wherein the magnetic means (10) are arranged to move the magnetic liquid (6, 16, 26) of one of the first (2, 12, 22) and the second compartment. (3, 13, 23) in the other of the first (2, 12, 22) and the second compartment (3, 13, 23).
    [6]
    6. Magnetic indicator according to claim 5, comprising a spring (20) arranged to move the magnetic means (10).
    [7]
    7. Magnetic indicator according to one of claims 1 to 6, wherein the magnetic means (10) are a permanent magnet.
    类似技术:
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    同族专利:
    公开号 | 公开日
    WO2013072412A1|2013-05-23|
    US20140330212A1|2014-11-06|
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US2555513A|1948-02-16|1951-06-05|Jr Edmund O Schweitzer|Magnetic time-delay mechanism|
    US2868923A|1957-05-08|1959-01-13|Metals & Controis Corp|Timing device|
    US3951309A|1973-07-11|1976-04-20|Canon Kabushiki Kaisha|Device for detecting the quantity of remaining developer|
    US3915340A|1974-03-19|1975-10-28|Pitney Bowes Inc|Indicator for a dispensing device|
    US4474481A|1982-03-15|1984-10-02|Croyle Ronald A|Granule flow timer|
    US4959819A|1989-07-18|1990-09-25|Haczewski Jr Joseph J|Regenerating power unit|
    US5457665A|1994-03-10|1995-10-10|Innova Pure Water Inc.|Elapsed time indicator|
    US5810640A|1995-03-17|1998-09-22|General Research And Device Corporation|Magnetic gel toy and method for making|
    US5717283A|1996-01-03|1998-02-10|Xerox Corporation|Display sheet with a plurality of hourglass shaped capsules containing marking means responsive to external fields|
    AU708528B2|1996-02-23|1999-08-05|Novo Nordisk A/S|Syringe with electronic representation of parameters|
    EP1391794A1|2002-07-23|2004-02-25|Novo Nordisk A/S|Device with time indicating means|
    WO2010023303A1|2008-08-29|2010-03-04|Novo Nordisk A/S|Medical injection device with time delay indicator|WO2015162185A1|2014-04-22|2015-10-29|Novo Nordisk A/S|A magnetic time delay indicator and an injection device incorporating such indicator|
    CN111665707A|2020-06-19|2020-09-15|三峡大学|Magnetic fluid hourglass experimental device with adjustable aging and time adjusting method thereof|
    法律状态:
    2014-08-29| PUE| Assignment|Owner name: HOLDING CHRISTOPHE CLARET SA, CH Free format text: FORMER OWNER: NOVO NORDISK A/S, DK |
    2016-07-29| AZW| Rejection (application)|
    2016-12-15| PFA| Name/firm changed|Owner name: HOLDING CHRISTOPHE CLARET SA, CH Free format text: FORMER OWNER: HOLDING CHRISTOPHE CLARET SA, CH |
    2019-06-14| NV| New agent|Representative=s name: BOVARD SA NEUCHATEL CONSEILS EN PROPRIETE INTE, CH |
    2019-06-28| PL| Patent ceased|
    2019-07-15| AECN| Continuation of proceedings agreed|Free format text: LE BREVET A ETE REACTIVE SELON LA DEMANDE DE POURSUITE DE LA PROCEDURE DU 12.06.2019. |
    2019-09-30| PUE| Assignment|Owner name: NOVO NORDISK A/S, DK Free format text: FORMER OWNER: HOLDING CHRISTOPHE CLARET SA, CH |
    2020-06-30| PL| Patent ceased|
    优先权:
    申请号 | 申请日 | 专利标题
    EP11189131|2011-11-15|
    US201161562084P| true| 2011-11-21|2011-11-21|
    PCT/EP2012/072719|WO2013072412A1|2011-11-15|2012-11-15|A magnetic time delay indicator and an injection device incorporating such|
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