DK201470306A1 - A urine flow control system and a magnetic actuator device - Google Patents
A urine flow control system and a magnetic actuator device Download PDFInfo
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- DK201470306A1 DK201470306A1 DKPA201470306A DKPA201470306A DK201470306A1 DK 201470306 A1 DK201470306 A1 DK 201470306A1 DK PA201470306 A DKPA201470306 A DK PA201470306A DK PA201470306 A DKPA201470306 A DK PA201470306A DK 201470306 A1 DK201470306 A1 DK 201470306A1
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Abstract
The invention relates to a urine flow control system (50) including a catheter device (10, 100) for insertion into a urethra, the catheter device (10, 100) having: a proximal end portion (14) and an opposite distal end portion (16, 102), a conduit (C) between said proximal end portion (14) and said distal end portion (16) having a urine inlet opening (2) at said proximal end portion (14) and a urine outlet opening (4, P) at said distal end portion (16, 102), and a magnetically actuatable valve located at said distal end portion (16, 102) for controlled discharge of urine from said catheter device (10, 100) through said outlet opening (4, P), and a magnetic actuator device with an actuator magnet (201), separate from said catheter device (10, 100), for operating said valve, characterized in said magnetic actuator device (200) comprising a housing (205) for receiving urine discharged from said catheter device (10, 100), said housing (205) having a first open end (202) configured for receiving said distal end portion (16, 102) with said magneti- cally actuatable valve and said outlet opening (4, P), and a second end, said housing (205) having at said first end (202) said actuator magnet (201).
Description
A urine flow control system and a magnetic actuator device
The present invention relates to an improved urine flow control system of the type involving the use of a magnetic valve body and magnetic actuator device, and to a magnetic actuator device for use in said system.
Incontinence is the inability of any of the physical organs to restrain discharges of their contents; in the present context, incontinence is considered the involuntary discharge or evacuation of urine. This could e.g. be during movement, such as jumping, or when sneezing or laughing where persons suffering from incontinence experience problems.
Persons suffering from incontinence are often compelled to wear a pad for collecting urine being discharged from the urethra. In addition, persons suffering from incontinence may experience that the discharge of urine causes unwanted odours, which may cause the person to feel uncomfortable and embarrassed. Therefore, there is a need for a device hindering uncontrolled discharge of urine.
Some persons, on the other hand, have problems emptying their bladder. This may be due to low detrusor activity, which is associated to neurological or myogenic conditions. It may also be due to patient age factors, medication or bladder outlet obstruction. Such patients insert catheters when emptying the bladder. Either they catheterize themselves, have nurses perform the catheterization, or they carry a catheter permanently.
Such patients may be helped by wearing a urine flow control system with a valve catheter, as this can eliminate the need for catheterization every time the bladder needs emptying.
US patent application 2001/0034470 and US patent 5,030,199 show examples of prior art urine flow control systems or incontinence device, both involving a conduit for urethral installment as well as a magnetic actuator device allowing a user to control urine discharge. A user may control discharge of urine by manually holding the actuator device in the form of an actuator magnet close to the distal end of the conduit outside the urethra. In the prior art the actuator magnet is also referred to as a "portable activating magnet" which is configured to be placed in a pocket, a pocket book, or which can be formed in a decorative shape to be worn on a necklace or bracelet for convenient access. It may even be formed for retention in a key chain or as part of a ring.
One aspect of general importance to a user of an incontinence device is that discharge of urine should be possible to carry out in a highly hygienic manner. The fact that the prior art actuator magnet is hand held involves the risk that the user will soil herself as the actuator magnet is held close to the valve body, and this may be seen as a problem with those prior art catheter devices that have a magnetically actuatable drainage control valve.
The present invention aims at solving this problem and, hence, to increase the user-convenience experienced with the particular type of magnet operated urine flow control systems referred to above which for many reasons would be expected to be more popular than non-magnetic catheter devices, such as those having a urine discharge conduits with a valve that must be squeezed manually to open it.
Broadly, the aforementioned problems are solved with a system and a magnetic actuator device as claimed. Preferred embodiments are defined in the dependent claims.
BRIEF DESCRIPTION OF THE DRAWINGS
In the following an embodiment of the invention will be described in more detail with reference to the drawings, wherein: FIG. 1 is a simplified anatomical view showing the general location of an incontinence device in the urethra, FIG. 2 is a sectional view showing a prior art incontinence device as shown in FIG. 1,located in the urethra, FIG. 3 shows a perspectival partial view of another incontinence device, FIG. 4 shows the novel urine flow system according to the invention, including a magnetically activated catheter device and a magnetic actuator device, FIG. 5a and 5b show, respectively, a sectional view of the magnetic actuator device and various types of actuator magnets for the magnetic actuator device,
Fig. 6a and 6b show perspective views of an embodiment incorporating a horseshoe magnet, and
Fig. 7a and 7b show field lines when using magnets of the two types shown in fig. 5b.
DETAILED DESCRIPTION
It is emphasized that the urine flow control system discussed in the following may equally be used by a person suffering from problems emptying their bladder. For convenience, however, the urine flow control system of the invention will in the following be described in the context of incontinence devices.
Fig. 1 shows an example of a prior art female incontinence control device in the form of a catheter device 10 with a urine discharge conduit C, the conduit C having an inlet opening 2 at the proximal end portion nearest bladder B of the catheter device 10 and an outlet opening 4 at the distal end portion thereof. To maintain the correct position of the catheter device 10 in the urethra use is made of a bladder engaging section 8 located at the proximal end portion of the catheter device 10. The bladder engaging section 8 may, as shown, be an inflatable balloon; in other catheter devices 10 an insertion tool may be used which reduces the length of the catheter device at the same time as it bring about a radial or sidewards expansion of the proximal end portion, to maintain the position of the catheter device.
The prior art catheter device 10 shown in fig. 1 is illustrative of the general type of incontinence devices, or urine flow control devices, to which the present invention is related, namely where a magnetically activatable drainage control valve is included to seal off the urine discharge conduit C, as discussed below. In this way, a user may control discharge of urine by manually holding an actuator in the form of an actuator magnet close to the distal end of the conduit C outside the urethra. This operation is shown in fig. 2 where the actuator magnet is referenced by numeral 27. The magnetically activatable drainage control valve includes a valve body 14 of a magnetically attractive or magnetized material, arranged in a chamber 16; in fig. 2 the valve body 14 is biased by a spring 18 towards a closed position (not shown) resting against a valve seat 19 and preventing outflow of urine through the sideways oriented outlet opening 4 at the distal end portion. It will be understood that the magnetic force by actuator magnet 27 is such that the valve body 14 is drawn against the spring 18 towards its open position away from the valve seat 19, allowing sideways outflow of urine through the outlet opening 4 located at the distal end portion.
In the prior art the actuator magnet 27 shown in fig. 2 is also referred to as a "portable activating magnet" which can be placed in a pocket, a pocket book, or which can be formed in a decorative shape to be worn on a necklace or bracelet for convenient access. It may even be formed for retention in a key chain or as part of a ring.
One aspect of general importance to a user of an incontinence device is that discharge of urine should be possible to carry out in a highly hygienic manner. The fact that the prior art actuator magnet 27 is hand held involves the risk that the user will soil herself as the actuator magnet 27 is held close to the valve body 14, and this may be seen as a problem with those prior art catheter devices that have a magnetically actuatable drainage control valve.
The present invention aims at solving this problem and, hence, to increase the user-convenience experienced with the particular type of magnetic catheter devices referred to above which for many reasons would be expected to be more popular than non-magnetic catheter devices, such as those having a urine discharge conduits with a valve that must be squeezed manually to open it.
The invention will in the following be discussed in connection with a novel catheter device 100 subject of a parallel patent application by the present inventor and which is shown partially in fig. 3; however, it is stressed that any type of incontinence catheter device having a magnetically actuatable drainage control valve, such as that shown in fig. 2, may normally form part of the present novel incontinence flow control system and be used in connection with the novel magnetic actuator device discussed in the following.
Shown in fig. 3 is an incontinence device 100 having a urine discharge conduit C and a metal coil 121 which provides for stability of the device 100 and which also serves to attract a magnet acting as a valve body 126 towards a valve seat 134 near the end of the coil 121. The valve body 126 is mounted to be axially displaceable within a chamber 142 in the distal end portion 102.
In fig. 3, for discharging urine a user has approached the valve body 126 with an actuator magnet 201 held in her hand close to the distal end portion of the catheter device 100, which distal end portion 102 is located outside the urethra. The magnetic force from actuator magnet 201 pulls or displaces the magnet acting as valve body 126 away from the valve seat 134 to allow for an axial outflow of urine, as shown by the arrow P. By "axial outflow" is meant herein a flow of urine directed parallel with, substantially parallel with, the conduit C, in contrast to the "sideways outflow" discussed in relation to fig. 2.
Fig. 4 shows the catheter device 100 of fig. 3 approximately in the position it would be in in the urethra, as shown in fig. 1, and with its distal end portion 102 being slidably received in the open end 202 of an embodiment of the novel magnetic actuator device 200 of the present invention, which comprises a tubular or essentially tubular housing 205 or funnel and a centrally located raised housing subportion 207 wherein an actuator magnet 201 as discussed above is lodged.
Fig. 4 as such shows the novel urine flow system 50 according to the invention being the novel combination of a magnetically activated catheter device 100 with the novel magnetic actuator device 200. The raised subportion 207 defines a pas sage 230 on either side, each passage 230 being delimited to the other side opposite the raised subportion 207 by a portion of the wall 206 of the housing 205.
The housing 205 is preferably molded of a plastics material and is easy to rinse, and the actuator magnet 201 may be embedded in the material forming the housing subportion 207 during the molding operation. Alternatively, the actuator magnet 201 may be arranged, still centrally along the central axis X of the housing 205, with its surface directly exposed. Fig. 5a is a sectional view of the magnetic actuator device 200 and fig. 5b shows various types of actuator magnets 201 for lodging in the housing subportion 207.
Referring again to fig. 4, when a female using the catheter device 100 wishes to discharge urine she will hold on to the outside gripping portion 210 of the magnetic actuator device 200 and move it towards to distal end portion 102 of the catheter device 100 which projects from the urethra. The magnetic actuator device 200 is configured so that the distal end portion 102 of the catheter device 100 simply slides into the inside of the housing 205 through the open end 202, with or without contacting the housing wall 206 and without establishing any mechanical connection between the catheter device 100 and the magnetic actuator device 200.
Common to the use of the present magnetic actuator device 200 with the general type catheter devices shown in fig. 2 and 3 is that as soon as the distal end portion with the urine outlet opening 4, P is received within the tubular housing 205 the catheter device valve opens as the valve body 14, 126 is attracted by actuator magnet 201, such that urine discharge into the interior of housing 205 through passage P, 4, respectively, is permitted.
In this connection, it may sometimes be advantageous when the catheter device is of the type providing for an axial outflow, as in fig. 3, but clearly the catheter device of fig. 2 offering a sideways outflow may also be used as the housing wall 206 will prevent spillage of urine due to the location of the actuator magnet 201 centrally within the housing 205 in the embodiment of fig. 4. As the skilled person will realize, in some combinations it may be desirable to position the actuator magnet 201 spaced a relatively large distance from the open end 202. This may be the case where movement or actuation of the valve body 19, 126 requires the actuator magnet 201 to be positioned axially to the catheter device, as shown in fig. 2, rather than along the side of the catheter, as shown in fig. 4.
In some applications it may alternatively be preferred to embed or arrange the actuator magnet 201 in the peripheral wall 206 of the housing 205, with the actuator magnet 201 being shielded such that the magnetic field outside the housing 205 is of such low strength that the valve body 14, 126 will not be affected if the housing 205 incorrectly is incorrectly held close to the catheter device 100 without the distal end portion thereof being received within the housing 205. Fig. 6a and 6b show such an embodiment incorporating a horseshoe magnet embedded or otherwise arranged at the first open end 202; the magnetic field lines are such that the valve will more likely open for urine discharge when the distal end portion is received inside the housing 205 than outside.
Preferably, the magnetic field lines and strength of the actuator magnet 201 are/is selected such that the valve will only open when the distal end portion of the catheter device, which projects from the urethra, is substantially or fully received in the housing 205 such that there is a high certainty that urine will be discharged into the elongated magnetic actuator housing 205 and flow along the length thereof. This means that the magnetically activatable drainage control valve will preferably not open if the magnetic actuator device 100 is merely brought close to the catheter device; only when the distal end portion of the catheter device is located within the housing 205 of the magnetic actuator device 200 will the valve open. Fig. 7a and 7b show field lines when using magnets 201 of the two types shown in fig. 5b, i.e. where field lines run more or less parallel with the housing wall 206, or perpendicularly thereto. The embodiment of fig. 7b may in some cases be preferred since the distal end portion 102 of the catheter device 10 will be drawn towards the projecting or raised subportion 207, leading to a higher degree of guidance of the housing 205 relative to the distal end portion 102, as the magnetic actuator device 200 is moved towards the catheter device 10, i.e. towards the distal end portion 102 thereof.
It is possible to form the housing 205 with a closed end opposite the open end 202, so that urine may be collected in a chamber in the housing 205, or alternatively to form the housing 205 with an aperture 217 opposite the open end 202 to allow urine to be immediately discharged into a toilet.
Preferably, the elongate housing 205 has a length in the order of 5cm-15cm and a width or diameter in the order of 2cm-3cm. A shorter housing 205 may also find use, such as where the user prefers to attach a flexible collection bag to the end of the housing 205 at aperture 217; such a bag may be of the type having a narrow opening that may be pulled over the housing wall 206 and attached thereto, such as by a rubber band or similar.
Claims (11)
1. A urine flow control system (50) including: - a catheter device (10, 100) for insertion into a urethra, the catheter device (10, 100) having: - - a proximal end portion (14) and an opposite distal end portion (16, 102), - - a conduit (C) between said proximal end portion (14) and said distal end portion (16) having a urine inlet opening (2) at said proximal end portion (14) and a urine outlet opening (4, P) at said distal end portion (16, 102), and - - a magnetically actuatable valve located at said distal end portion (16, 102) for controlled discharge of urine from said catheter device (10, 100) through said outlet opening (4, P), and - a magnetic actuator device with an actuator magnet (201), separate from said catheter device (10, 100), for operating said valve, characterized in said magnetic actuator device (200) comprising - - a housing (205) for receiving urine discharged from said catheter device (10, 100), said housing (205) having a first open end (202) configured for receiving said distal end portion (16, 102) with said magnetically actuatable valve and said outlet opening (4, P), and a second end, said housing (205) having at said first end (202) said actuator magnet (201).
2. The system of claim 1, said outlet opening (4) being located to a side of said catheter device (10), to provide for a sideways outflow.
3. The system of claim 1, said outlet opening (P) being located axially at the end of said conduit (C), to provide for an axial outflow.
4. The system according to any of the preceding claims, said actuator magnet (201) being located inside said housing (205).
5. The system according to any of the preceding claims, said housing including an integrally molded housing subportion (207) defining a compartment, said compartment including said actuator magnet (201).
6. The system according to any of the preceding claims, said housing (205) including a passage (230) defined between said actuator magnet (207) and a wall portion of said housing (205), for said receiving of said distal end portion (102) with said magnetically actuatable valve and said outlet opening (4, P).
7. The system according to any of the preceding claims, said housing (205) including a chamber for storing said discharged urine.
8. A magnetic actuator device with an actuator magnet (201) for operating a valve of a catheter device, comprising: - a housing (205) for receiving urine discharged from said catheter device (10, 100), said housing (205) having a first open end (202) configured for receiving said distal end portion (16, 102) with said magnetically actuatable valve and said outlet opening (4, P), and a second end, said housing (205) having at said first end (202) said actuator magnet (201), said actuator magnet (201) being located inside said housing (205), - said housing including an integrally molded housing subportion (207) defining a compartment, said compartment including said actuator magnet (201) , and/or - said housing (205) including a passage (230) defined between said actuator magnet (207) and a wall portion of said housing (205), for said receiving of said distal end portion (102) with said magnetically actuatable valve and said outlet opening (4, P).
9. The device according to the preceding claim, said housing (205) including a chamber for storing said discharged urine.
10. The device according to claim 8 or 9, said housing having a length in the order of 5cm-15cm and a width or diameter at said first open end (202) in the order of 2cm-3cm.
11. A magnetic actuator device with an actuator magnet (201) for operating a valve of a catheter device, comprising: - a housing (205) for receiving urine discharged from said catheter device (10, 100), said housing (205) having a first open end (202) configured for receiving said distal end portion (16, 102) with said magnetically actuatable valve and said outlet opening (4, P), and a second end, - said housing (205) having at said first end (202) said actuator magnet (201), said actuator magnet (201) being a horseshoe magnet arranged with magnetic field lines across said open end (202) inside said housing (205), - said housing (205) including a passage (230) across said field lines, for said receiving of said distal end portion (102) with said magnetically actua-table valve and said outlet opening (4, P).
Priority Applications (6)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DKPA201470306A DK178335B1 (en) | 2014-05-28 | 2014-05-28 | A urine flow control system and a magnetic actuator device |
PCT/DK2015/050133 WO2015180730A1 (en) | 2014-05-28 | 2015-05-27 | A urine flow control system and a magnetic actuator device |
US15/311,408 US10390921B2 (en) | 2014-05-28 | 2015-05-27 | Urine flow control system and a magnetic actuator device |
DK15724932.7T DK3148487T3 (en) | 2014-05-28 | 2015-05-27 | Urine flow control system and magnetic actuator device |
CN201580028186.4A CN106413630B (en) | 2014-05-28 | 2015-05-27 | Uroflow control system and magnetic actuator device |
EP15724932.7A EP3148487B1 (en) | 2014-05-28 | 2015-05-27 | A urine flow control system and a magnetic actuator device |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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DKPA201470306A DK178335B1 (en) | 2014-05-28 | 2014-05-28 | A urine flow control system and a magnetic actuator device |
DK201470306 | 2014-05-28 |
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DK201470306A1 true DK201470306A1 (en) | 2015-12-14 |
DK178335B1 DK178335B1 (en) | 2015-12-21 |
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DKPA201470306A DK178335B1 (en) | 2014-05-28 | 2014-05-28 | A urine flow control system and a magnetic actuator device |
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Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3812841A (en) * | 1972-08-21 | 1974-05-28 | L Isaacson | Urethra magnetic valve structure |
US5030199A (en) * | 1989-12-11 | 1991-07-09 | Medical Engineering Corporation | Female incontinence control device with magnetically operable valve and method |
US5624374A (en) * | 1994-11-03 | 1997-04-29 | Von Iderstein; Irwin F. | Involuntary urine control apparatus, system and method |
WO1999030635A1 (en) * | 1997-12-18 | 1999-06-24 | Abbeymoor Medical, Inc. | Urethral apparatus with high flow valve and methods of use ther eof |
EP1072238A1 (en) * | 1999-02-11 | 2001-01-31 | Universidad Complutense De Madrid | External magnetic actuation valve for intraurethral artificial urinary sphincter |
US20010034470A1 (en) * | 2000-02-01 | 2001-10-25 | Whalen Mark J. | Urinary flow control device & method |
EP1913904A1 (en) * | 2002-10-22 | 2008-04-23 | Laboratorios Indas, S.A. | Magnetically-actuated artificial intraurethral sphincter for female patients |
-
2014
- 2014-05-28 DK DKPA201470306A patent/DK178335B1/en active
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3812841A (en) * | 1972-08-21 | 1974-05-28 | L Isaacson | Urethra magnetic valve structure |
US5030199A (en) * | 1989-12-11 | 1991-07-09 | Medical Engineering Corporation | Female incontinence control device with magnetically operable valve and method |
US5624374A (en) * | 1994-11-03 | 1997-04-29 | Von Iderstein; Irwin F. | Involuntary urine control apparatus, system and method |
WO1999030635A1 (en) * | 1997-12-18 | 1999-06-24 | Abbeymoor Medical, Inc. | Urethral apparatus with high flow valve and methods of use ther eof |
EP1072238A1 (en) * | 1999-02-11 | 2001-01-31 | Universidad Complutense De Madrid | External magnetic actuation valve for intraurethral artificial urinary sphincter |
US20010034470A1 (en) * | 2000-02-01 | 2001-10-25 | Whalen Mark J. | Urinary flow control device & method |
EP1913904A1 (en) * | 2002-10-22 | 2008-04-23 | Laboratorios Indas, S.A. | Magnetically-actuated artificial intraurethral sphincter for female patients |
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DK178335B1 (en) | 2015-12-21 |
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