• 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:
    DEVICE FOR DISINFECTING CATHETER CONNECTORS Disinfecting device for catheter connectors comprising a container (2) that has a closed lower base end (2b) and an opposite open upper end (2 a) and an element similar to expose (3 ) inserted in the container (2), impregnated with a medium liquid substance (4). The sponge-like element (3) has an axial passage cavity (5) inside it and a semi-rigid insert (6) housed in the cavity (5).
    公开号:BR112016006983B1
    申请号:R112016006983-8
    申请日:2014-09-26
    公开日:2020-11-10
    发明作者:Silvio DANELUZZI
    申请人:Nex Medical Antiseptics S.R.L;
    IPC主号:
    专利说明:

    [001] The present invention relates to a device for disinfecting catheter connectors.
    [002] Catheter connectors are medical devices that can be connected to peripheral venous access devices used to administer drugs intravenously. They provide an access point without, however, representing entry to microbial contaminants. Catheters are vitally important for patients and, therefore, ensuring asepsis of the connectors is essential.
    [003] In particular, the needleless connector represents one of the most advanced access systems available on the market.
    [004] The needle-free connector for infusions is a closed valve system consisting of an airtight silicone or rubber closure, to which a needle-free syringe or infusion set can be connected directly to allow fluid to pass through the connector. The mechanism is built to ensure that, when the track is opened, there is no contact between the outer surfaces of the connector closure and the injected liquid.
    [005] Particularly, before making any connections, in order to avoid possible risks of infection, new international guidelines in this sector are recommended not only to perform a disinfection procedure of the connector by rubbing the end and the thread, but also to rub by complete the front with an alcoholic solution based on chlorhexidine.
    [006] The valve system must be connected directly to the vascular catheter; consequently, every maneuver connected to it requires the observance of aseptic techniques.
    [007] The use of needle-free connectors for infusions is intended to avoid the use of needles and the consequent risk of accidental punctures, as well as providing a better barrier against bacterial contamination through the intraluminal route, greater catheter protection and greater simplicity in maneuvers to administer the infusion line. However, the needle-free connector, by itself, does not reduce the risk of infection: it is therefore necessary to strictly apply the connector's disinfection methods before each access and the "no-touch" technique, as well as, of course, washing correct hand of an individual.
    [008] Particularly, before making any connections, in order to avoid possible risks of infection, new international guidelines in this sector recommend not only the execution of a disinfection procedure of the connector by rubbing the end and the thread, but also rubbing the entire part. forward with an alcoholic solution based on chlorhexidine. The devices currently on the market comprise a disinfection cover designed for the purpose of disinfecting the top and the thread of the luer lock needle-free connectors for intravenous infusions with 70% isopropyl alcohol while connected to the hub.
    [009] The cover consists of a container that has an edge on the open end equipped with an internal thread, in order to be threaded on the free end of the connector.
    [0010] A small pillow impregnated with a disinfectant is contained inside the receptacle. The open end of the receptacle is closed by a protective film that is removable when using the cover.
    [0011] When threaded on the thread of the connector of line access devices and kept on it for as long as the connector is not used, the disinfection cover protects the latter against atmospheric contamination and direct contact. The main problem with this device is that it does not guarantee perfect sterility of the covered part over time. The alcoholic solution contained in a small cushion inside can become contaminated over time and is not sufficient to guarantee perfect sterility of the external part of the connector. In addition, as its use is prolonged over time, there is no guarantee that the disinfectant solution will last for the entire period. The device's specific configuration prevents it from being able to apply the right amount of disinfectant solution over the connector so that only a small dose of disinfectant solution is released, usually a small fraction of a milliliter.
    [0012] In addition, the disinfection cover does not allow a perfect mechanical cleaning action on the entire surface of the connector.
    [0013] In addition, the distribution of the disinfectant liquid on the connector cannot be controlled by the operator and, with this, the possible risk of contamination suggests the reapplication of the disinfectant solution on the connector after removing the cover, in order to lose partially benefit from its use.
    [0014] It was also found that, due to the fact that the cap is threaded on the connector, the impulse of the latter inside the cap is limited by the extension of the thread, which also eliminates any possibility of movement of the cap around the connector and of exercising mechanical action, which would contribute to better cleaning of the connector.
    [0015] An additional product on the market consists of disposable baby wipes. These wipes are used to disinfect the connectors before use. Its main disadvantage is represented by the impossibility of using the touchless technique, as the operator needs to take the tissues to use them. In addition, the shape and materials used for the handkerchiefs do not allow effective mechanical action on the front part of the connector. Handling the tissue during the disinfection operation very often causes the tissue material to tear, in order to exclude complete disinfection of the connector surface and leaving hazardous fiber residues on the connector.
    [0016] In this context, the technical task on the basis of the present invention is to propose a disinfection device for catheter connectors that overcomes the aforementioned disadvantages of the prior art.
    [0017] In particular, it is an object of the present invention to provide a disinfection device for catheter connectors that guarantees the perfect asepsis of the connector, avoiding any type of risk of infection.
    [0018] In addition, an object of the present invention is to produce a device for catheter connectors that is easy to use, is disposable and ensures excellent cleaning of each exposed surface of the catheter connector, also with effective mechanical action, avoiding any contact between the user's hands and the connector itself.
    [0019] The indicated technical task and the specified object are substantially obtained by a catheter connector disinfection device that comprises the technical characteristics described in one or more of the attached claims.
    [0020] Additional features and advantages of the present invention will become more evident from the approximate description and, therefore, not limiting a preferred, but not exclusive, embodiment of a catheter connector disinfection device, as illustrated in the attached figures, in which: Figure 1 is a perspective view of a catheter connector disinfection device according to the present invention; Figure 2 is a sectional view of the catheter connector disinfection device according to Figure 1, in a closed non-use configuration; Figure 3 is a sectional view of the catheter connector disinfection device in an open operating condition during use with a catheter connector; and Figure 4 is a view of all components of the catheter connector disinfection device according to the present invention.
    [0021] With reference to the accompanying figures, 1 indicates an entire disinfection device for catheter connectors 100 according to the present invention.
    [0022] The device 1 comprises an external container 2, preferably cylindrical in the form of a beaker, hollow from the inside and which has a closed lower base end 2b and an open opposite upper end 2a.
    [0023] Inserted in the external container 2 is a sponge-like element 3, impregnated with a liquid medical substance 4.
    [0024] This substance 4 can be, for example, an alcoholic chlorine disinfectant solution.
    [0025] The sponge-like element 3 conveniently has the same internal shape as the container 2; therefore, it is preferably cylindrical in shape, with an outer diameter only slightly smaller than the inner diameter of container 2; thus, between the inner side wall 2c of the container 2 and the outer side surface 3c of the sponge-like element 3 there is an air gap 7 that allows the latter to undergo lateral expansion when used, as will be explained below.
    [0026] A first end 3a of the sponge-like element rests against the closed base end 2b of the container 2, while a second end 3b is facing the outside of the container 2.
    [0027] The sponge-like element 3 has a central geometric axis through the cavity 5, which is longitudinal and coaxial to the geometric axis la of the outer container 2 and extends between the two ends 3a and 3b.
    [0028] The cavity 5 conveniently has a diameter, preferably between 2 and 8 mm, preferably even greater between 3 and 6 mm and a length preferably between 20 and 35 mm, more preferably between 25 and 30 mm.
    [0029] Cavity 5 is adapted to house a generic catheter connector 100, which is inserted into it in order to be disinfected thanks to the mechanical frictional action exerted by the sponge-like element 3 (which is forced to rotate around its axis geometry there and slide axially along it) and contact with the disinfectant liquid, with which the sponge-like element 3 is impregnated and which is released on the connector as a result of light compression suffered by the sponge-like element 3.
    [0030] The diameter of the inner cavity 5 of the sponge-like element 3 is usually smaller than the outer diameter of a generic connector 100 that can be inserted into cavity 5 to be disinfected. The size of the inner diameter of the cavity 5, smaller than the outer diameter of the connector, allows perfect adhesion of the inner surface 5c of the cavity 5 to the outer surface 100c of the connector to be disinfected, allowing complete contact and better mechanical friction action of the element similar to sponge 3 on the side walls of the connector, as well as the release of antiseptic over the entire surface of the connector.
    [0031] In fact, considering the reduced size of the cavity 5 compared to the total transversal dimensions of the connector 100, the sponge-like element 3 tends to expand, slightly compressing its side walls, in order to facilitate the discharge of the liquid disinfectant 4. The air space 7 between the outer side walls 3c of the sponge-like element 3 and the inner side wall 2c of the container 2 allows correct expansion of the sponge-like element 3 following the insertion of the connector 100, so that the right amount of disinfectant liquid is released. In the absence of space, the sponge-like element 3 would be completely compressed between the connector 100 and the container 2, with the risk of releasing an excessive amount of liquid.
    [0032] Inside the cavity 5 of the sponge-like element 3 there is a semi-rigid insert 6, suitably tailored. The latter is conveniently cylindrical in shape, with a diameter that matches or, in any case, is not less than the diameter of the internal cavity 5 of the sponge-like element 3, while it extends axially or has a height less than the sponge-like element 3. Conveniently, the insert 6 extends axially or has a height, along the geometric axis la of the device, comprised between one fifth and half the height of the sponge-like element 3.
    [0033] The cylindrical insert 6 within the cavity 5 has a lower base end 6a aligned with the first end 3a of the sponge-like element 3. Therefore, the first end 3a of the sponge-like element 3 and the lower base end 6a of the semi-rigid insert 6 are coplanar and conveniently restricted, glued or heat sealed, to the internal base 2b of the container 2. In this way, they are firmly attached to the container 2 itself during handling of the device (rotations and friction around the connector), the which allows the sponge-like element 3 and the insert 6 to rotate integrally with the shelter or container 2, in order to allow better and more effective friction of the front and side surfaces of the connector by the insert and the side walls of the sponge-like element.
    [0034] The positioning of the semi-rigid cylindrical insert 6 at the lower end of the cavity 5 creates a blind cavity 8 within the sponge-like element 3. The blind cavity 8 is therefore delimited laterally by the inner walls 5c of the cavity 5 of the similar element the sponge 3 and on the bottom by the surface of the upper end 6b of the insert 6, opposite the lower base end 6a restricted to the container 2.
    [0035] This specific cavity 8 is ideally suited for the disinfection insertion of a connector 100, which, once inserted, is completely surrounded by the porous material of the sponge-like element 3 and the semi-rigid insert 6 that releases the disinfectant substance 4.
    [0036] The surface of the upper end 6b of the insert 6, which forms the base of the blind cavity 8, can be flat, wavy or rough.
    [0037] The specific design of the cylindrical insert 6 positioned at the lower end of the cylindrical cavity 5 of the sponge-like element 3 also allows, by rotating the device 1 around its geometric axis la, effective friction of the front part 100a connector, one of the most important areas for possible infection risks.
    [0038] The dimensioning of the height of the sponge-like element 3 and of the insert 6 makes it possible to obtain a length of the internal blind cavity 8 which is sufficient to completely accommodate the length of the connector 100.
    [0039] The material of the sponge-like element 3 consists of a soft, absorbent, porous material of low or medium density, such as, for example, compact polyolefin fibers (PE, PP, PET), which allow the absorption of disinfectant and its release through contact with the connector.
    [0040] Preferably, sponges, polyurethane or foams are not used for the sponge-like element 3.
    [0041] The fibers also act mechanically (rubbing action) on the connector surfaces.
    [0042] The sponge-like element 3 is made of a soft, absorbent, porous material with low or medium density, between 0.05 and 0.15 g / cc, preferably 0.108 g / cc.
    [0043] The material of insert 6 has a higher density than the material that makes up the sponge-like element 3, comprised between 0.1 g / cc and 0.5 g / cc, preferably 0.38 g / cc.
    [0044] Insert 6 has a compact circular surface that is more dense, in order to allow better brushing and friction on the front part 100a of the connector.
    [0045] The sponge-like element 3 and the small insert 6 are impregnated with about 3-4 ml of disinfectant solution. The disinfectant solution is thus released over the connector during friction on the external surfaces.
    [0046] Insert 6 can be made of absorbent or non-absorbent material, such as rubber. Rubbing the connector over the internal side walls of the sponge-like element 3 favors the flow of fluid over the top surface of the insert, allowing friction and disinfection of the front surface of the connector.
    [0047] The outer container 2 preferably has a cylindrical shape with a circular cross section, but cross sections that have different shapes such as, for example, square or rectangular are not excluded.
    [0048] Container 2 allows the sponge-like element 3 to be properly housed inside.
    [0049] The specific configuration of the container 2 together with the sizing described of the element similar to sponge 3 makes it possible to house and disinfect any connector present on the market, regardless of the specific form adopted by the manufacturer.
    [0050] As previously mentioned, the container 2 has an internal diameter that is larger than the diameter of the sponge-like element 3, in order to allow its slight lateral expansion after the insertion of the connector 100 in the blind cavity 8, in which the latter normally has a smaller diameter than the connector. In particular, the cylinder-shaped container 2 acts as a primary packaging for the sponge-like element 3. It perfectly covers the sponge-like element 3, protecting it from atmospheric contamination and direct contact with the operator's hands, in order to allow the technique without touch during the disinfection operations of the connector.
    [0051] The cylinder-shaped outer container 2 is made of plastic material such as PE or PP or, in any case, an injection-molded or thermoformed plastic material.
    [0052] The outer container 2 has an annular flanked edge at its upper end 2a.
    [0053] The outer container 2 is sealed by means of a sheet 10 of aluminum or plastic material heat-sealed over the annular edge 9.
    [0054] The protective sheet 10 has a side flap for pulling 11 that allows easy opening of the sheet itself.
    [0055] The outer container 2 conveniently has vertical longitudinal projections 12 on its outer lateral surface 2d. These projections 12 serve as an external cable to better hold the device during use.
    [0056] The material of the container is designed in a way that is flexible. This feature allows the operator to exert slight pressure on the exterior of the device during the disinfection operation of the connector; this causes pressure on the sponge-like element 3, favoring the discharge of the disinfectant liquid through the pores of the sponge-like element 3 and the correct distribution of the antiseptic solution on the connector 100 surface and increasing the friction and disinfection action on the sponge itself. connector.
    [0057] In this particular, a variant of the primary packaging of the sponge-like element 3 provides for a soft or semi-rigid heat shrinkable film that can be applied to the outer wall of the sponge-like element 3, as well as to the external base of the first end 3a. This way, it is even easier and more functional to press on the external side of the device with your fingers, in order to press the sponge-like element 3 from the external side and cause the liquid to flow over the connector. This offers the operator a better chance of adapting the pressure of the sponge-like element on the connector and, thus, also the rubbing friction.
    [0058] The possibility of automatic operation can also be envisaged by inserting the disinfection device in a portable electrical unit (operated by batteries, for example) that ensures the friction time required by regulatory guidelines and a greater number of cycles. rotation per unit of time.
    [0059] The specific shape of the sponge-like element 3, which acts as a cushion, allows the connector to be accommodated, packed and completely covered, ensuring perfect disinfection of all external parts of the connector.
    [0060] After inserting the connector in the blind cavity 8 of the sponge-like element 3, the disinfection operation consists of rotating the device 1 with semi-rotation in both directions around the geometric axis la, in order to rub and disinfect completely all around the connector thread in complete asepsis, that is, without coming into direct contact with the operator's hands.
    [0061] The operator can manipulate the device simply by holding the outer container 2 between his fingers, avoiding any interference and / or contamination of the internal part of the device.
    [0062] The device designed in this way is disposable, since, after removing the protective sheet 10, it is used immediately and discarded at the end of disinfection. The device is used shortly before the use of the needle-free connector for intravenous infusions, sample collection, etc., in order to perfectly disinfect the front and top parts and the thread of the connector and not remain passively connected to the latter for an extended time, as this is the case with devices of the prior art: in fact, during the entire contact time, usually thirty seconds, the device is constantly manipulated around the connector. Thanks to its specific configuration, after use and before disposal, the device can be used to remove organic residues present on the connector as a result of the insertion and separation operations of the connector itself.
    [0063] The specific configuration of the device, thanks to the semicircular rotations applied by the operator and the type of material used for the two internal pads, guarantees effective mechanical friction between the internal walls of the cavity and the threaded and front surfaces of the connector.
    [0064] Furthermore, thanks to the specific configuration and low porosity of the insert, all antiseptic is transported - by the pressure of an individual's fingers on the sponge-like element - on the top surface of the insert itself, ensuring maximum effectiveness in disinfecting the insert. front surface of the connector and without dispersions or inhibitions that would reduce the effectiveness of the disinfection device.
    权利要求:
    Claims (5)
    [0001]
    1. Device (1) for disinfecting catheter connectors (100), comprising a container (2) that has a closed lower base end (2b) and an opposite open upper end (2a), a sponge-like element (3 ) inserted in the container (2), impregnated with a liquid medical substance (4), in which a first end (3a) of the sponge-like element (3) rests against the closed base end (2b) of the container (2), while a second end (3b) faces the outside of the container (2), characterized by the fact that the sponge-like element (3) has an axial passage cavity (5) inside it and an insert (6) under measured for the cavity (5), the insert (6) having a longitudinal extension along the geometric axis (la) of the container (2) which is smaller than that of the sponge-like element (3) and is positioned on the bottom of the cavity (5), in contact with the base end (2b) of the container (2), so as to form a blind cavity ( 8) which is opened towards the open upper end (2a) of the device and so that when a catheter connector (100) is inserted into the cavity (5), a front part (100a) of the catheter connector (100) rests against the insert (6); the insert having a lower base end (6a) aligned with the first end (3a) of the sponge-like element (3); where the sponge-like element (3) is made of soft, absorbent, porous material having an apparent density between 0.05 and 0.15 g / cc, the insert (6) being made of material having an apparent density greater than that the apparent density of the sponge-like element (3) is between 0.1 g / cc and 0.5 g / cc; where, between the inner side wall (2c) of the container (2) and the outer side surface (3c) of the sponge-like element (3), there is only one air gap (7) to allow the latter to undergo lateral expansion during use.
    [0002]
    2. Device (1) according to claim 1, characterized in that the sponge-like element (3) and the insert (6) are restricted to the lower base end (2b) of the container (2).
    [0003]
    Device (1) according to any one of the preceding claims, characterized in that an upper end (6b) of the insert (6) has a flat, wavy or rough surface.
    [0004]
    4. Device (1) according to any one of the preceding claims, characterized in that the outer container (2) has a beaker shape and a flanked edge (9) around the opening.
    [0005]
    5. Device (1), according to claim 4, characterized by the fact that the outer container (2), when not in use, is hermetically sealed by an aluminum foil (10) or hot-sealed plastic material over the flanked edge (10).
    类似技术:
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    法律状态:
    2018-02-06| B25A| Requested transfer of rights approved|Owner name: NEX MEDICAL ANTISEPTICS S.R.L. (IT) |
    2018-02-27| B06F| Objections, documents and/or translations needed after an examination request according art. 34 industrial property law|
    2019-08-06| B06U| Preliminary requirement: requests with searches performed by other patent offices: suspension of the patent application procedure|
    2020-06-09| B09A| Decision: intention to grant|
    2020-11-10| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 26/09/2014, OBSERVADAS AS CONDICOES LEGAIS. |
    优先权:
    申请号 | 申请日 | 专利标题
    ITMI2013A001610|2013-09-30|
    IT001610A|ITMI20131610A1|2013-09-30|2013-09-30|DEVICE TO DISINFECT CONNECTORS|
    PCT/IB2014/064860|WO2015044904A1|2013-09-30|2014-09-26|A disinfection device for connectors|
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