U.S. patent application number 10/611812 was filed with the patent office on 2004-05-06 for external urinary catheter device and a method for production thereof.
Invention is credited to Guldfeldt, Signe Uhre, Nielsen, Henrik Lindenskov, Tanghoj, Allan.
Application Number | 20040087921 10/611812 |
Document ID | / |
Family ID | 8159949 |
Filed Date | 2004-05-06 |
United States Patent
Application |
20040087921 |
Kind Code |
A1 |
Guldfeldt, Signe Uhre ; et
al. |
May 6, 2004 |
External urinary catheter device and a method for production
thereof
Abstract
An external urinary catheter for the relief of male urinary
incontinence comprises a contact member (1) adapted for arrangement
in engagement with at least the extreme portion of a penis, said
contact member (1) being connected to a discharge conduit (7) via
an opening in the distal end section of the contact member. The
catheter is provided with an aperture (8) in a distal part of the
contact member (1) or in the discharge conduit (7). A membrane (9)
capable of selectively passing gases but retaining urine is
fastened to the surface surrounding the aperture (8). The membrane
(9) is at least partly protected by a shield (10). At least one
vent (11) for allowing gases to be in substantially unhindered
contact with the external surface of the membrane (9) is arranged
in the catheter.
Inventors: |
Guldfeldt, Signe Uhre;
(Hillerod, DK) ; Nielsen, Henrik Lindenskov;
(Smorum, DK) ; Tanghoj, Allan; (Kokkedal,
DK) |
Correspondence
Address: |
JACOBSON HOLMAN PLLC
400 SEVENTH STREET N.W.
SUITE 600
WASHINGTON
DC
20004
US
|
Family ID: |
8159949 |
Appl. No.: |
10/611812 |
Filed: |
July 2, 2003 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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10611812 |
Jul 2, 2003 |
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09756288 |
Jan 9, 2001 |
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6632204 |
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10611812 |
Jul 2, 2003 |
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PCT/DK01/00862 |
Dec 21, 2001 |
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Current U.S.
Class: |
604/349 |
Current CPC
Class: |
B29C 45/261 20130101;
B29L 2031/7542 20130101; B29C 41/14 20130101; A61F 5/453 20130101;
B29K 2995/0097 20130101; B29K 2083/005 20130101 |
Class at
Publication: |
604/349 |
International
Class: |
A61F 005/44 |
Foreign Application Data
Date |
Code |
Application Number |
Jan 3, 2001 |
DK |
PA 2001 00008 |
May 10, 2001 |
DK |
PA 2001 00735 |
Claims
1. An external urinary catheter device for the relief of male
urinary incontinence, comprising a contact member (1) adapted for
arrangement, in a position of use, in engagement with at least an
extreme portion (3) of a penis (4), an opening (5) formed in a
distal end section (6) of the contact member (1) to be positioned
substantially opposite the urethral orifice in the position of use,
a discharge conduit (7) connected with the opening (5) to provide a
sealed urine flow passage extending in a substantial axial
direction towards the exterior of the catheter device, an aperture
(8) provided in a distal part of the contact member or in the
discharge conduit (7), a membrane (9) attached to the surface
surrounding said aperture (8) and capable of selectively pasting
gases but retaining urine, an external protective shield (10)
arranged for at least partly covering the membrane, and at least
one vent (11, 14, 18, 29, 30) provided for allowing gases to be in
substantially unhindered contact with the external surface of the
membrane.
2. The external urinary catheter device according to claim 1,
wherein the contact member (1) is integrally connected with
discharge conduit (7) via the opening (5) formed in the distal end
section of the contact member (1).
3. The external urinary catheter device according to claim 1 or 2,
wherein the contact member (1) is arrangeable, in a position of
use, between the foreskin (2) and the corona (3) of a penis
(4),
4. The external urinary catheter device according to claim 3,
wherein the contact member (1) comprises a shoulder-like ledge (13)
at a substantially plane abutment face of the contact member (1)
around and substantially perpendicular to the discharge conduit
(7).
5. The external urinary catheter device according to claim 3,
wherein the contact member (1) comprises a plurality of leaves
comprised of a film having an adhesive layer on the interior
surface thereof to secure an attachment of the device to the corona
of a penis.
6. The external urinary catheter device according to any of the
preceding claims, wherein the contact member (1) constitutes an
inner member of the catheter device, the, catheter device further
comprising an outer holder member (12) for retaining the contact
member (1) in the position of use, said outer holder member (12)
being formed in a distal end section thereof with an opening for
said discharge conduit (7) and being arrangeable, in said position
of use, in a substantially fixed axial position with respect to the
discharge conduit (7) for circumferential engagement with the
external side of the foreskin (3).
7. The external urinary catheter device according to any of the
preceding claims, wherein the membrane (9) is attached to said
surrounding surface by means of an adhesive (23).
8. The external urinary catheter device according to any of claims
1 to 6, wherein the membrane (9) is attached to said surrounding
surface by means of a rivet member (24).
9. The external urinary catheter device according to any of claims
1 to 6, wherein the membrane (9) is attached to said surrounding
surface by welding.
10. The external urinary catheter device according to any of claims
1 to 9, wherein the membrane (9) is adapted to allow passage of
urine at pressures more than 80 mbar above ambient pressure.
11. The external urinary catheter device according to any of the
preceding claims, wherein said aperture (8) is provided in the
discharge conduit (7) of the contact member (1) and said shield
(10) comprises a tubular member (20) surrounding the discharge
conduit (7) to cover said aperture (8) and the membrane (9)
attached to said surrounding surface.
12. The external urinary catheter device according to claims 6 and
11, wherein said tubular member (20) forms part of the outer holder
member (12).
13. The external urinary catheter device according to claim 12,
wherein the outer holder member (12) is fixed in at least an axial
direction with respect to the inner member (1) by fastening
means.
14. The external urinary catheter device according to claim 13,
wherein the outer holder member (12) is fixed in an axial direction
as well as a rotational direction with respect to the inner member
(1) by fastening means.
15. The external urinary catheter device accordingly to claim 13 or
14, wherein said tubular member (20) forms an integral part of said
outer holder member (12) and is connected by said fastening means
with a proximal part of the discharge conduit (7) of the inner
member (1).
16. The external urinary catheter device according to claim 15,
wherein said fastening means comprises one or more ledges (31) in
the inner face of the tubular member (20) and/or the outer face of
the discharge conduit (7)
17. The external urinary catheter device according to claim 15,
wherein said fastening means comprises a membrane device (34)
arranged in an aperture going through said tubular member (20) as
well as said proximal part of the discharge conduit (7).
18. The external urinary catheter device according to any of claims
13 to 15, wherein said fastening means comprises a thermal or an
ultrasonic welding bond.
19. The external urinary catheter device according to any of the
preceding claims, wherein said vent comprises at least one opening
(11, 14) in said shield (10) in flow communication with the
external surface of the membrane (9).
20. The external urinary catheter device according to any of the
preceding claims, wherein the membrane (9) is depressed with
respect to said surrounding surface to provide a clearance with
respect to said shield (10) and said vent comprises at least one
track (18, 29, 30) formed by a depression in an internal surface of
said shield (10) and/or said surrounding surface part to provide a
gas flow communication between said clearance and the exterior of
the catheter device.
21. A method for production of an external urinary catheter device
for, the relief of male urinary incontinence, which comprises the
steps of: providing a catheter part comprising a contact member (1)
which is adapted for engagement with at least an extreme portion
(3) of a penis (4), said contact member comprising a distal end
section (6) providing an opening (5) located to be positioned
substantially opposite the urethral orifice by said engagement of
the contact member (1) with said extreme portion (3) and a
discharge conduit (7) connected with the opening (5), providing an
aperture (8) in a distal part of the contact member (1) or in the
discharge conduit (7), attaching a membrane (9) to the surface
surrounding said aperture (8), the membrane being capable of
selectively passing gases but retaining urine, providing a
protective shield (10) for at least partly covering protect the
membrane, and arranging at least one vent (11, 14, 18, 29, 30) for
allowing gases to be in substantially unhindered contact with the
external surface of the membrane.
22. The method according to claim 21, wherein said aperture (8) is
provided in the discharge conduit (7) of the contact member (1) and
said shield (10) comprises a tubular member (20) and is provided to
surround the discharge conduit (7) to cover said aperture (8) and
the membrane (9) attached to said surrounding surface.
23. The method according to claim 21 or 22, further comprising the
step of providing the catheter part with an outer holder member
(12) for retaining the contact member (1) in a position of use as
an inner member between the foreskin (2) and the corona (3) of a
penis (4), said outer holder member (12) being formed in a distal
end section with an opening for said discharge conduit (7) and
being adapted for arrangement, in a position of use, in a
substantially fixed axial position with respect to the discharge
conduit (7) for circumferential engagement with the external side
of the foreskin (2).
24. The method according to claims 22 and 23, wherein said tubular
member (20) is formed as part of the outer holder member (12).
25. The method according to claim 24, wherein the outer holder
member (12) is provided to be fixed in at least an axial direction
with respect to the inner member (1) by fastening means.
26. The method according to claim 25, wherein said tubular member
(20) is formed as an integral part of said outer holder member (12)
and said fastening means is provided to connect said tubular member
(20) with a proximal part of the discharge conduit (7) of the inner
member (1).
27. The method according to claim 25 or 26, wherein said fastening
means is provided by a thermal or an ultrasonic welding.
28. The method according to any of claims 21 to 27, wherein said
catheter part is provided by a process comprising the steps of a)
providing a liquid polymer solution or emulsion comprising a
polymer and a solvent or a diluent in an amount sufficient for
permitting dip forming, b) providing a form having a first part for
forming said contact member, a second part for forming said opening
in the distal end section of the contact member and a third part
for forming said discharge conduit, said first, second and third
parts being integrally connected, c) dipping said form in said
solution or emulsion, d) removing the form from the solution or
emulsion, e) allowing the solvent or the diluent to evaporate, and
f) optionally, repeating the steps c), d), and e) until the device
has attained a desired wall-thickness, and wherein, prior to
dipping according to step a) or during evaporation according to
step e), said membrane is arranged at the part of the form for
forming the distal part of the contact member or at the third part
of the form for forming the discharge conduit.
29. The method according to any of claims 21 to 27, wherein said
catheter part is provided by a process comprising the steps of
providing a mould comprising a matrix and a core member defining a
mould cavity for plastic injection moulding, said cavity comprising
a first part for forming said contact member, a second part for
forming said opening in the distal end section of the contact
member and a third part for forming said discharge conduit, said
first, second and third parts being integrally connected, injection
of a liquid plastic material into said mould cavity, solidification
of the liquid plastic material, and recovering the moulded device
from the mould, and wherein said membrane is arranged at the part
of the cavity for forming the distal part of the contact member or
the third part of the cavity for forming the discharge conduit.
30. A process for manufacture of an external urinary catheter for
the relief of male urinary incontinence comprising the steps of a)
providing a liquid polymer solution or emulsion comprising a
polymer and a solvent or a diluent in an amount sufficient for
permitting dip forming, b) providing a form having a first part for
forming said contact member, a second part for forming said opening
in the distal end section of the contact member and a third part
for forming said discharge conduit, said first, second and third
parts being integrally connected, c) dipping said form in said
solution or emulsion. d) removing the form from the solution or
emulsion, e) allowing the solvent or the diluent to evaporate, and
f) optionally, repeating the steps c), d), and e) until the device
has attained a desired wall-thickness, and wherein, prior to
dipping according to step c) or during evaporation according to
step e), said membrane is arranged at the part of the form for
forming the distal part of the contact member or at the third part
of the form for forming the discharge conduit.
31. An external urinary catheter catheter device obtainable by the
process according to claim 30.
32. A process for manufacture of an external urinary catheter for
the relief of male urinary incontinence comprising the steps of
providing a mould comprising a matrix and a core member defining a
mould cavity for plastic injection moulding, said cavity comprising
a first part for forming said contact member, a second part for
forming said opening in the distal end section of the contact
member and a third part for forming said discharge conduit, said
first, second and third parts being integrally connected, injection
of a liquid plastic material into said mould cavity, solidification
of the liquid plastic material, and recovering the moulded device
from the mould, and wherein said membrane is arranged at the part
of the cavity for forming the distal part of the contact member or
the third part of the cavity for forming the discharge conduit.
33. An external urinary catheter catheter device obtainable by the
process according to claim 32.
34. A kit for relief of male urinary incontinence comprising an
external urinary catheter device according to any of claims 1 to
20, 31 or 33. a bag for collection of urine discharged from the
catheter device, and a hose member for connecting the catheter
device and the bag.
35. Use of the external urinaly catheter device according to any of
claims 1 to 20, 31 or 33 or the kit according to claim 34 for
relief of male urinary incontinence.
Description
INTRODUCTION
[0001] The present invention relates to an external urinary
catheter device for the relief of male urinary incontinence,
comprising a contact member adapted for arrangement, in a position
of use, in engagement with at least an extreme portion of a penis;
an opening formed in a distal end section of the contact member to
be positioned substantially opposite the urethral orifice in the
position of use, and a discharge conduit connected with the opening
to provide a sealed urine flow passage extending in a substantial
axial direction towards the exterior of the catheter device.
[0002] The invention also pertains to a method and processes; for
production of an external urinary catheter device for the relief of
male urinary incontinence as well as use of catheters of this
kind.
BACKGROUND ART
[0003] For the relief of male urinary incontinence external
catheters are generally used in the form of condom-like tubular
sheaths to be placed externally on penis and having a discharge
spout, which via a hose is connected with, a urine collection bag.
Such external catheters are known in numerous designs and in many
cases serve as a satisfactory solution of male incontinence
problems. However, the complete envelopment of penis may give rise
to trouble, partly because the application which is effected by
unrolling the catheter requires a certain length of penis, partly
in use due to the fact that the envelopment of the full length of
penis with the catheter, which is generally fastened adhesively
either by means of a separate adhesive strip or by means of an
internal adhesive layer, involves strain of the skin of penis.
Furthermore, the constant humid environment from the delivered
urine may cause skin problems, such as allergy and maceration and
even ulceration.
[0004] In recent years, various suggestions have been presented in
the prior art concerning the use in a urinary catheter of an inner
member or a contact member, which in a position of use is
positioned between the surface of the corona and the foreskin of
the penis.
[0005] Thus, from GS-A-2 075 847 a device is known, which comprises
a relatively short funnel-like external catheter device to be
placed directly against the corona of the penis and to be kept in
place under the foreskin. Around a discharge conduit of the device
an external sheathing body is fastened in an invested position to
be brought into engagement with the external side of the foreskin
after application of the external catheter device to maintain the
device in place by means of the sandwich position of the foreskin
between the contact member and the external sheathing body.
[0006] Another design is disclosed in GB-A-2 126 483, wherein a
more safe retainment of the device in the position of use is
implemented by use of a tubular urine ducting device, e.g. of
silicone rubber, arranged outside the corona in extension thereof,
so that a rather severe extension of the foreskin is required to
keep the tubular device in place by arrangement of an adhesive
strip or strap member on the external side of the foreskin.
Evidently, the rather severe extension of the foreskin required to
keep the tubular device in place causes considerable discomfort in
use.
[0007] In BP-B-0 706 355 and EP-B-0 706 356 external urinary
catheters are disclosed, in which a safe retainment in the position
of use is obtained with considerably less discomfort to the user by
means of a short inner contact member designed with improved form
stability in its distal end part. Aiming at keeping the contact
member safely in place under the foreskin the catheter is provided
with a separate substantially bowl-shaped outer holder member
displaceably surrounding a discharge conduit of the catheter
device. The outer holder member is movable between an application
position and a position of use.
[0008] Urinary catheters are generally connected via a hose to a
urine collection bag. The wearer of the urinary catheter suitably
places the urine collection bag in a position lower than the
position of the urinary catheter to ensure that the urine
effectively is drained off by gravity. To allow free movement of
the wearer of the urinary catheter the urine collection bag is
generally positioned at a part of the leg. Generally, it is
preferred to position the urine collection bag at the shin to drain
off urine in a standing as well as a sitting position. Furthermore,
this position of the urine collection bag provides for the
possibility of hiding it behind a trouser leg.
[0009] When using the prior art catheters mentioned above the
problem arise, following a discharge of urine, that the unbroken
column of urine in the hose give rise to a considerable built-up of
sub-pressure at the surface of the corona. The wearer of the
urinary catheter is subjected to discomfort, especially on extended
exposure to the sub-pressure. Suction marks have been observed on
the corona due the exposure to sub-pressure. In severe cases,
oedema and subsequent infection has been developed.
[0010] It has been suggested to overcome this problem by
incorporating a vent or a valve in the urine collection bag or the
lower part of the hose allowing the surrounding air to communicate
with the interior of the catheter-hose-bag environment Reference is
made to e.g. U.S. Pat. No. 3,800,857, U.S. Pat. No. 3,835,857, and
U.S. Pat. No. 5,622,183 However, the position of a vent or valve in
the bag or the lower part of the hose entails the potential risk
that urine, when the bag is full or about to be full, will escape
the urine collection bag.
[0011] Another suggestion is disclosed in U.S. Pat. No. 5,897,540
wherein a slit-shaped opening is provided in a condom-like device
for drainage of uncontrolled urine release, The opening is provided
for ventilation of the space entrapped between the device and the
penis and is placed in the position of use at the main body of the
penis well behind the corona. The opening is not provided with a
filter or similar means. A further suggestion is disclosed in U.S.
Pat. No. 4,656,675, which describes a condom-like device for
draining off urine. The device is provided with a filter covering a
hole positioned at a point close to the source of urine. The,
filter is capable of- passing air but impervious to liquid at
relative low pressures. A major drawback of this suggestion is that
the filter is placed at an exposed position. The wearer of the
device must be careful since the filter easily can be ripped off by
abrasion or accident and the urine will tend to be conveyed through
the hole in the device and not as intended through the hose.
[0012] It is the object of the present invention to avoid all or
some of the above discussed problems and drawbacks of the prior art
urinary catheters. Especially, it is an object of the present
invention to provide a urinary catheter device having an enhanced
reliability and durability due to reduced risk of deterioration of
a filter means.
DESCRIPTION OF THE INVENTION
[0013] According to one aspect of the invention, an external
urinary catheter device for the relief of male urinary incontinence
is provided, which comprises
[0014] a contact member adapted for arrangement, in a position of
use, in engagement with at least an extreme portion of a penis,
[0015] an opening formed in a distal end section of the contact
member to be positioned substantially opposite the urethral orifice
in the position of use,
[0016] a discharge conduit connected with the opening to provide a
sealed urine flow passage extending in a substantial axial
direction towards the exterior of the catheter device,
[0017] an aperture provided in a distal part of the contact member
or in the discharge conduit,
[0018] a membrane attached to the surface surrounding said aperture
and capable of selectively passing gases but retaining urine,
[0019] an external protective shield arranged for at least partly
covering the membrane, and
[0020] at least one vent provided for allowing gases to be in
substantially unhindered contact with the external surface of the
membrane.
[0021] The contact member and optionally also further components of
the catheter device according to the invention, such as the
discharge conduit and the shield, may be made from any material
which is suitable for engagement with the sensitive skin of the
corona and the foreskin. Suitable materials include thermoplastic
elastomeric materials like styrene-butadiene-styrene (SBS),
styrene-isoprene-styrene (SIS), styrene-ethylene/butadiene-styrene
(SEBS), styrene-ethylene/propylene-sty- rene (SEPS), polyethers,
polyesters, polyamides, polyurethane or any combination thereof;
thermoplastic materials such as plasticized polyvinylchloride
(PVC), and polyethylene; or curable elastomeric materials like
nitril rubber, chloroprene rubber, natural rubber latex, silicone
rubber, liquid silicone, polyisoprene or polyurethane. Preferred
materials are SEBS and silicone rubber.
[0022] The membrane in the device according to the invention allows
gas to pass, whereby it is ensured that the amount of urine
discharged from a wearer may be drained to a urine collection bag
via a hose without leaving a substantial amount of urine in the
hose giving rise to a sub-pressure at the surface of the corona.
The term gas as used in the current context means normally ambient
air (a gas mixture of predominately nitrogen, oxygen, and water
vapour). However, other gases or compositions of gases may come
into play. Following a urine discharge the column of urine in the
hose will gradually sink to an equilibrium level such that the
pressure in the hose above the urine surface essentially
corresponds to the pressure of the surrounding environment. A minor
column of urine may be present due to a capillary effect and
resistance in the membrane, however without entailing a substantial
pressure effect on the surface of the corona.
[0023] The aperture provided in the distal part of the contact
member or the discharge conduit may have any suitable dimension The
longest diagonal of the aperture may be larger than the diameter of
the discharge conduit. However, to avoid a weakening of the
discharge conduit, it is preferred that the aperture has a longest
diameter less than the diameter of the discharge conduit, or the
aperture may extend throughout the circumference of the discharge
conduit. A suitable longest diagonal of the aperture is about 0,25
to 0,75 times the inner diameter of the discharge conduit
Preferably the circumference of the aperture is a circle, however
other geometrical shapes might be suitable, such as ovals or
polygons. Further suitable shapes are constituted by organic
shapes. If desired, more than one aperture may be present in the
device. The aperture is preferably positioned at a part of the
discharge conduit close to the urethral orifice or the distal part
of the contact member to obtain sufficient ventilation. Generally,
it is to be avoided to arrange the aperture in a part of the
discharge conduit intended to engage with a connector linking the
device of the invention with a hose member, to prevent the risk of
insufficient gas communication between the inner surface of the
membrane and the interior of the discharge conduit. A preferred
position of the aperture is in the proximal part of the discharge
conduit close to the urethral orifice in a position of use.
[0024] The membrane is fastened to the surface surrounding the
aperture, the membrane being capable of selectively passing gases
but retaining urine. During discharge of urine from the urethral
orifice the membrane effectively prevent urine from penetration and
thus secure a sealed urine flow passage. Following the discharge of
urine gas from the surrounding environment is penetrating the pores
of the membrane and consequently, the column of urine in the hose
is levelled. The membrane suitably maintains the desired
selectivity at the relatively low pressures normally expected
during use of the catheter device according to the invention.
Normally, the water entry pressure of the membrane should be at
least 100 mbar above ambient pressure.
[0025] The membranes is generally a thin, hydrophobic, porous sheet
having the ability of allowing gas, i.e. air, to penetrate but not
urine, which is retained. A wide range of materials may be used for
the membrane. Prefer red materials are generally polymers with a
low surface tension to water. Examples of suitable polymers are
polyethylene, polypropylene, polyurethane, and
Polytetrafluorethylene (PTFE). Membranes of PTFE are commercially
available under various trademarks, e.g. Goretex.RTM.. A preferred
membrane of polyethylene is commercially available under the
trademark Tyvek.RTM..
[0026] While the membrane in one aspect of the invention is
designed to retain urine at least at the relatively low pressures
expected during normal use, it may be desirable, in another aspect
of the invention, to use a membrane which at pressures above the
level normally expected during use, is adapted to allow the passage
of urine to avoid backing up of urine against the penis, creating a
risk for reflux, or for ballooning of the foreskin. As an example,
a sudden rise in pressure is obtained if the hose is kinked. In
accordance with a second aspect of the invention the membrane may
be adapted to allow the passage of urine at pressures over 80 mbar
above ambient pressure, preferably over 100 mbar above ambient
pressure.
[0027] The fastening of the membrane to the surface surrounding the
aperture is normally conducted in order to secure a watertight
attachment of the membrane around the aperture. Any suitable method
of fastening may be applied, including adhering, riveting, partly
is dissolution by solvents, mechanical stress, or welding. Various
suitable welding methods exist e.g. thermal, high frequency,
ultrasonic, induction, or laser welding. In one aspect of the
invention, an adhesive is used for adhering the membrane to the
surface surrounding the aperture, since this method provides a
simple and cost-effective way to obtain an effective attachment of
the membrane to the surface surrounding the aperture. In another
aspect of the invention, a rivet is used to fasten the membrane to
the surface surrounding the aperture, whereby the membrane is fixed
between the male and the female parts of the rivet to providing an
effective mechanical attachment of the membrane to the surface
surrounding the aperture.
[0028] In still another aspect of the invention, fastening of the
membrane to the surface of the aperture is obtained by melting the
surface surrounding the aperture to an opposite surface of the
membrane by welding or exposure to solvents. It is, in general,
preferred to use welding, which includes applying an amount of heat
sufficient to melt a part of the plastic material, allowing
penetration of the melted plastic material into the pores of the
membrane and subsequent allowing solidification of the plastic
material. Thus, a simple and reliable way to attach the membrane to
the surface around the aperture is obtained. A method especially
suitably for attaching the membrane to the surface surrounding the
aperture is ultrasonic or thermal welding.
[0029] In some embodiments of the invention it is advantageous to
depress or sink an area surrounding the aperture and arrange the
membrane in this depression. In such embodiments a space above the
external surface of the membrane is generally obtained which allow
sufficient ventilation of gases to and from the membrane
surface.
[0030] In a preferred embodiment of the invention the contact
member is integrally connected with the discharge conduit via the
opening formed in the distal end section of the contact member.
This embodiment makes it possible in a single component of the
catheter device to integrate several functions, thus, increasing
the industrial processability and securing a sealed urinary flow
passage. In some areas of application, it may be useful to connect
the discharge conduit to the opening formed in the distal end
section of the contact member through a stretchable link to
maintain the intimate engagement of the contact member with the
penis in a position of use even under tensile load conditions
acting on the discharge conduit. The stretchable link may for
instance be a bellows-shaped member.
[0031] In a preferred embodiment of an external urinary catheter
device according to the invention the contact member adapted for
arrangement in engagement with a penis may constitute an inner
member arrangeable in a position of use between the foreskin and
the corona of the penis, whereby the device may further include an
outer holder member adapted to be positioned against the external
surface of the foreskin to provide a sealed contact.
[0032] In case the contact member is an inner member arrangeable in
a position of use between the foreskin and the corona of a penis it
may comprise a shoulder-like ledge at a substantially plane
abutment face of the inner member around and substantially
perpendicular to the discharge conduit to retain the inner member
in contact with the corona solely by means of the foreskin
contacting the outer side of the contact member. An inner member of
this kind is disclosed in EP 706 355 B1, the entire disclosure
thereof being incorporated herein by reference.
[0033] Another suitable inner member which is arrangeable between
the foreskin and the corona of a penis or solely on the corona of a
penis e.g. in the absence of foreskin in case of circumcising,
comprises a plurality of leaves connected to a housing. The leaves
are comprised of a film having an adhesive layer on their interior
surface thereof to secure an attachment of the device to the corona
of a penis. Preferably, the film as well as the adhesive layer is
vapour permeable to increase the comfort of the wearer. An inner
member of this kind is disclosed in U.S. Pat. No. 5,263,947 and
U.S. Pat. No. 54263,947, the entire disclosure thereof being
incorporated herein by reference.
[0034] For fastening the inner member in a position of use, it may
be advantageous to provide the catheter device according to the
invention with an outer holder m ember. The outer holder member is
preferably formed in a distal end section with an opening for the
discharge conduit and arrangeable in said position of use, in a
substantially fixed axial position with respect to the discharge
conduit for circumferential engagement with the external side of
the foreskin. An outer holder member of this kind is disclosed in
EP 760 356 B1, the entire disclosure of which is incorporated
herein by reference.
[0035] The outer holder member may be made of any suitable soft
elastic, semi-rigid or rigid material such as the plastic materials
mentioned, above for the contact member or, alternatively, it may
be made in the form of a web of textile material like gauze,
hydro-colloid skin adhesive covered with a film, or non-textile
material. For improved engagement with the external side of the
foreskin the inner engagement surface of the outer holder member
may be coated with a layer of a skin-friendly adhesive, e.g. a
hydro-colloid skin adhesive. Such an adhesive layer may be
dimensioned with controlled adhesive properties and/or be applied
in various patterns as known in the art to control the adhesive
force. By use of an adhesive layer the length of the outer holder
member in the position of use may be reduced to cover an even
shorter part of the foreskin order to increase comfort in
connection with wear or removal of the catheter device.
[0036] The inner member may be permanently connected with a
surrounding outer holder member having an opening for the discharge
conduit by connection means. Suitably, said connection means is
designed also to comprise the shield for the catheter according to
the invention. Thus, the shield is preferably an extended part of
the distal end section of the outer holder member. The connection
means serving the dual purpose of permanently connecting the
contact member with the outer holding member and shielding the
membrane is in one aspect of the invention an essentially tubular
member arranged around and having walls substantially parallel to
the axis of the discharge conduit and integrally connected to the
opening of he outer holder member.
[0037] The preferred materials for the individual parts of the
device usually provides for an inherent adherence between the inner
face of the tubular member and the outer face of the discharge
conduit, if the individual parts of the catheter are properly
designed. However, the arrangement of the membrane between the
tubular member and the discharge conduit may jeopardise the
inherent adherence because the materials for the membrane usually
do not exhibit the adherence properties. Therefore, in another
aspect of the invention, the inner member is fixed in at least an
axial direction relative to the outer holder member by fastening
means. As used in the present description and claims, the term
fixed is to be understood asian adherence between the tubular
member and the discharge conduit, which may allow for some
flexibility due to softness and/or shape of the materials used,
[0038] In an embodiment of the invention, the outer holder member
is fixed in the axial direction by providing the discharge conduit
with a ledge outside the outer edge of the tubular member. The
ledge secures that the outer holder member connected to the tubular
member is not moved substantially in the axial direction, when the
outer holder member in use is pulled back and forward. However, a
minor free fit can be allowed if considered expedient, e.g. for
customizing the catheter to the anatomy of the individual user.
[0039] The ledge may extend over the entire circumference of the
discharge conduit or a part thereof. In another embodiment the
inner face of the tubular member and the outer face of the
discharge conduit may be provided with corresponding recesses and
ledges to secure a locked position of the parts of the device at
least in the axial direction. If the tubular member is of a
resilient material the fastening may be provided by one or more
ledges in the inner face of the tubular member and/or the outer
face of the discharge conduit without corresponding recesses in the
counterpart.
[0040] The outer holder member and the inner member may be fixed in
an axial as well as a rotational direction by fastening means.
Suitably, the fixation is provided by fastening a tubular member
integrally connected with the outer holder member to the discharge
conduit, which is connected to the inner member. The fastening
means may be of any suitable type. Especially, the fastening means
may be conducted as described for the fastening of the membrane to
the surface surrounding the aperture. In some practical designs of
the device the tubular member may be attached to the discharge
conduit by thermal or ultrasonic welding. The welding may be
conducted in an area, in which a part of the membrane is sandwiched
between the tubular member and the discharge conduit to provide for
the dual function of fastening the membrane to the surface
surrounding the aperture and fixing the tubular member to the
discharge conduit The welding may be a point welding. In this case,
preferably more than one welding is provided to ensure that the
stress delivered to the outer holder member during application or
carrying of the device is more equally distributed. Preferably 2, 3
or 4-point weldings are provided.
[0041] In still, another embodiment of the invention, the fastening
of the outer member relative to the inner member in at least the
axial direction can be provided by mechanical means. As an example,
the area of the tubular member above the transition for the
invertible outer holder member may be provided with a collar band
or a resilient member, which is able to tighten the tubular member
to the discharge conduit. The fastening may also be provided by a
membrane device. The membrane device may be installed in an
aperture through the tubular member as well as the discharge
conduit. The membrane device has the ability to retain the tubular
member and the discharge conduit in position relative to each other
and to provide for the compulsory membrane. The membrane device may
be locked in position in the aperture by any suitable fastening
means. As an example, the membrane device may be formed as a rivet
or the device may be adhesively bonded to the surface surrounding
the aperture.
[0042] The contact member adapted to be in engagement with the
penis, may in an aspect of the invention be adapted to be
positioned on the external face of a penis to provide a sealed
contact. To ensure an effective sealing between the contact member
and the penis the contact member is suitably of a length covering
the extreme portion, e.g. the foreskin or the corona, as well as
the main body of the penis. An aperture can suitably be provided in
a proximal part of the discharge conduit and covered with a
membrane A shield may be provided over the membrane as a separate
or integral tubular member with an internal diameter substantially
corresponding to or slightly smaller or greater than the external
diameter of the discharge conduit to fix the membrane. A stiffening
member may be arranged inside the discharge conduit to provide a
suitable abutment for the tubular member. The tubular member can be
provided with one or more flaps for facilitating the removal of the
device
[0043] The urinary catheter of the invention comprises at least one
vent, which is arranged for allowing the gases, e.g. air, to be in
substantially unhindered contact with the external surface of the
membrane. The vent may be provided in any suitable way to ensure
that the gases virtually unhindered can be conveyed from or to at
least a part of the surface of the membrane, Thus, vents may be
provided in the shield, the discharge conduit or both.
Alternatively, the vent may be one or more hollow fibres or the
like provided between the inner face of the shield and the outer
surface of the discharge conduit to allow gas communication between
the external face of the membrane and the surrounding
environment.
[0044] In an aspect of the invention the vent is a single aperture
provided in the shield. The aperture in the shield covers
preferably the entire active membrane area to allow sufficient
ventilation, however, especially in embodiments where the inner
face of the shield is not in direct contact with the membrane, it
may be desirable to provide the catheter according to the invention
with an aperture smaller than the active membrane area to obtain an
extended protection of the membrane.
[0045] In another aspect of the invention, the shield is provided
with a plurality of apertures for ventilation. This aspect is of
particular interest when a space above the external surface of the
membrane is provided, because the entire membrane area may be
active. A space above the external membrane may be provided e.g by
fasting the membrane with a rivet or by attaching the membrane in a
depression of the external surface of the discharge conduit. A
plurality of relatively small apertures relative to a single larger
aperture is regarded to be more effective for protecting the
membrane since sharp or pointed devices to a larger extent is
prevented from coming into intimate contact with the membrane from
the outside of the catheter device.
[0046] A vent passage may also be provided using one or more tracks
for channelling the gases to or from the external surface of the
membrane to the surrounding environment, In particular, one or more
track(s) may be provided in the inner face of the shield to
establish a vent passage from the external surface of the membrane
to the exterior of the catheter device.
[0047] In one aspect of the invention a plurality of tracks
substantially parallel to the axis of the discharge conduit are
formed in the inner face of the shield in a part or the entire
circumference thereof establishing a vent passage from the external
surface of the membrane to the exterior of the catheter device. The
aspect of using tracks in the entire circumference of the inner
surface of the shield could be advantageous from a production point
of view, as the assembling of the catheter is thereby made
independent of the relative position of the shield and the membrane
due to the rotational symmetry of the shield.
[0048] The depression receiving the membrane may be provided with
one or more depressed track(s) extending in a distal direction
beyond the edge of the shield, said track (s) establishing a vent
passage from the external surface of the membrane to the exterior
of the catheter device. This alternative is attractive from a
production point of view since the mould in which the device is
formed, may be designed to provide an impression in the catheter
part, said impression having the dual purpose of receiving the
membrane and establishing an effective ventilation through the
track (s). Moreover, the shield may have a tubular rotational
symmetrical shape mating it possible to assemble the catheter
without observing the relative position of the shield and the
membrane.
[0049] To obtain a large cross-section of the vent(s) one or more
track(s) may be provided in the discharge conduit as well as the
inner face of the shield, said tracks in common providing one or
more channels for ventilation.
[0050] The track (s) provided in the discharge conduit and/or
the-inner face of the shield may have any suitable shape. Normally,
the tracks are parallel to the axis of the discharge conduit to
obtain the shortest channel. Other shapes may be considered to
obtain specific properties of the catheter. As an example, the
track may be provided with one or more bends to trap dust and to
avoid penetration of pointed devices. As another example, tracks on
the discharge conduit may be thread-like, whereby the gas is
conducted around the axis of the discharge conduit.
[0051] The invention also relates to a method for production of an
external urinary catheter device for the relief of male urinary
incontinence, which comprises the steps of
[0052] providing a catheter part comprising a contact member which
is adapted to be engaged with a penis; an opening formed in a
distal end section of the contact member and positioned
substantially opposite the urethral orifice in the position of use;
and a discharge conduit connected with the opening to provide a
sealed urine flow passage extending in a substantial axial
direction towards the exterior of the catheter device,
[0053] providing an aperture in a distal part of the contact member
or in the discharge conduit,
[0054] attaching a membrane to the surface surrounding said
aperture, the membrane being capable of selectively passing gases
but retaining urine,
[0055] providing a protective shield for at least partly covering
the membrane, and
[0056] arranging at least one vent for allowing gases to be in
substantially unhindered contact with the external surface of the
membrane.
[0057] The catheter part comprising the contact member, opening and
discharge conduit may be assembled of individual members or be
produced in one piece. It is preferred to produce the catheter part
in one piece due to the process economy by integrally connecting
the contact member to the discharge conduit via the opening formed
in the distal end section of he contact member. The catheter part
may suitably be produced by plastic injection moulding using the
polymer materials previously mentioned.
[0058] The aperture may be provided in any suitably way ensuring
that gases substantially unhindered can communicate with the
internal face of the membrane. In case the catheter part is
produced in one piece by plastic injection moulding the mould is
suitably adapted to provide the aperture during manufacture of the
catheter part.
[0059] The membrane fastened to the surface surrounding the
aperture is suitably fastened such that it is secured that a
waterproof attachment is obtained The fastening procedure may be
any suitable method securing a waterproof attachment, including
adhering, riveting, partly dissolution by solvents, and welding. A
preferred method of attachment comprise melting the surface
surrounding the aperture to an opposite surface of the membrane. A
preferred method of fastening the membrane to the surface
surrounding the aperture is conducted by welding. Various welding
methods are suitable, including ultrasonic, high frequency,
induction, laser, and thermal welding. It is in general preferred
to conduct the fastening by ultrasonic or thermal welding.
[0060] In an aspect of the invention, the above method comprises
the further step of providing the catheter part with an outer
holder member for fastening the contact member in the position of
use, wherein the outer holder member is formed in a distal end
section with an opening for said discharge conduit and arrangeable
in a position of use, in a substantially fixed axial position with
respect to the discharge conduit for circumferential engagement
with the external side of the foreskin.
[0061] In one preferred form of the method a dip forming process is
used for manufacture of the external urinary catheter device for
the relief of male urinary incontinence, comprising the steps
of
[0062] a) providing a liquid polymer solution or emulsion
comprising a polymer and a solvent or a diluent in an amount
sufficient for permitting dip forming,
[0063] b) providing a form having a first part for forming a
contact member adapted to engage with a penis, a second part for
forming an opening in the distal end section of the contact member
and a third part for forming a discharge conduit, the first, second
and third part being integrally connected,
[0064] c) dipping said form in said solution or emulsion,
[0065] d) removing the form from the solution or emulsion,
[0066] e) allowing the solvent or the diluent to evaporate, and
[0067] f) optionally, repeating the steps c), d), and e) until the
device has attained the desired wall-thickness, and
[0068] wherein, prior to dipping according to step c) or during
evaporation according to step e), a membrane capable of selectively
passing gases, but retaining urine, is arranged at the part of the
form for forming the distal part of the contact member or the third
part of the form forming the discharge conduit.
[0069] During the manufacture it should be ensured that the polymer
film resulting from step e) is prevented from coming into contact
with the internal and the external face of the membrane or the
polymer film is only releaseably attached to the membrane surface
to allow the provision of an aperture and a vent on the internal
and the external face of the membrane, respectively.
[0070] The liquid polymer solution or emulsion for performing the
dip forming process according to the invention may comprise any
polymer material, which is suitable for engagement with the
sensitive skin of the penis. Examples of suitable polymers include
SBS, SIS, SEBS, natural rubber latex, SEPS, polyisoprene,
polychloroprene, nitril rubber, silicone rubber, curable liquid
silicone, polyurethane and any combination and quality thereof.
[0071] In the instance the liquid polymer is a solution, the
solvent for dissolving the polymer is suitably an inert solvent of
an aromatic or aliphatic nature or a combination thereof. However
any solvent capable of creating a stable solution may be applied.
The amount of solvent is appropriately sufficient for obtaining a
solution without precipitations of polymer. In general the amount
of solvent is higher than the minimum required for obtaining a
solution to obtain a viscosity suitable for dip forming. A
preferred amount of solvent is from 400 to 1200% by weight, based
on the amount of polymer.
[0072] When the liquid polymer is an emulsion, the polymer is
diluted with a suitable diluent. Preferably, the liquid polymer
also contains an emulsifying agent to stabilize the emulsion. A
suitable diluent is water. It is generally preferred that the
emulsion contains sufficient diluent so as to obtain a viscosity of
100 cp to 1000 cp. The emulsion may optionally comprise a suitable
coagulation agent, such as Ca(NO.sub.3).sub.2 or CaCl.sub.2, to
obtain an increased wall-thickness. Furthermore, the emulsion may
contain a curing agent. The curing agent may e.g. be activated by
heat, moisture, ultra violet light, or electron beam. For certain
kinds of polymers, e.g. silicone, it is possible to prepare a
liquid polymer suitable for dip forming without the usage of a
diluent.
[0073] The form for dipping into the polymer solution or emulsion
is appropriately adapted for receiving a membrane in the part of
the form for forming the distal part of the contact member and/or
in the third part of the form for forming the discharge conduit.
The membrane may according to the invention be provided prior to
dipping or during the evaporation.
[0074] In case the membrane is provided prior to dipping suitable
means is provided for securing that the final device is not covered
with a polymer film resulting from the evaporation step e). Various
means exist including providing the intended active membrane area
with a coating, which repels the liquid polymer, using a material
for the membrane, which in itself repels the polymer solution, or
alternatively removing a releasable attached polymer film from the
membrane surface with suitable means or covering the intended
active membrane area with a removable item.
[0075] A preferred method of avoiding a polymer film is to press a
central part of the membrane against the form from the external
side of the membrane by a suitable tool, which covers the part of
the membrane intended to be the active membrane area. While the
central part of the membrane area is pressed against the form,
edges and corners of the membrane sheet is embedded in the polymer
matrix during the dip forming It may be advantageous to provide the
membrane on a suitable carrier, wherein the carrier material
surrounds the active membrane area and is adapted to be able to
anchor the membrane in the polymer matrix. Thus, the membrane is
shielded as the edges and corners is embedded in the polymer
matrix, whereby the risk of deteriorating the membrane during use
is reduced. Furthermore, a vent passage can be provided by the
pressing tool.
[0076] It may be preferred to attach the membrane prior to the
dipping according to step c) to a raised platform to increase the
anchoring effect of the material surrounding the active membrane
area and to provide for an aperture having a less tendency to be
occluded by the polymer solution during dipping. Preferably, the
membrane is kept on the platform during the dip forming procedure
by a suitable pressing means, which may allow for the production of
a vent passage.
[0077] The membrane may also be provided prior to or during
evaporation according to step e) or curing if a curing agent is
provided in the polymer liquid. Suitably, a sufficient amount of
solvent is allowed to evaporate to essentially preserve the
dimension stability of an aperture being provided in the polymer
film. A membrane sheet comprising an area intended to be active in
the final device is arranged, such that it covers the aperture and
the area of the membrane surrounding the area intended to be active
is attached to the area surrounding the aperture. The attachment
can be effected in any appropriate way, e.g. by pressing the
surrounding area of the membrane into the still fluid polymer
matrix or adhering the surrounding area of the membrane to the area
surrounding the aperture by any suitable means following
evaporation of an essential amount of the solvent. A shield may be
provided aiming at protecting the membrane by a repetition of the
steps c), d) and e). It must be secured during the repetition that
at least one vent is arranged for allowing gases to be in
substantially unhindered contact with the external surface of the
membrane. The means for providing the vent can be similar to the
means for avoiding the polymer film resulting from the evaporation
step e), as discussed above. A preferred method is to press a tool
against a central part of the external surface of the membrane to
protect the intended active membrane area against coming into
contact with the polymer solution.
[0078] In another preferred form of the method an external urinary
catheter device for the relief of male urinary incontinence is
manufactured by a process, comprising the steps of
[0079] providing a mould comprising a matrix and a core member
defining a mould cavity for plastic injection moulding, wherein the
cavity comprising a first part for forming a contact member adapted
to engage with a penis, a second part for forming an opening in the
distal end section of the contact member and a third part for
forming a discharge conduit, said first, second and third parts
being integrally connected,
[0080] injection of a liquid plastic material into the cavity of
the mould,
[0081] solidification of the liquid plastic material, and
[0082] recovering the moulded device, from the mould, and
[0083] wherein a membrane capable of selectively passing gases but
retaining urine is arranged at the part of the cavity for forming
the distal part of the contact member or the third part of the
cavity for forming the discharge conduit.
[0084] The liquid plastic material for the injection moulding
process is typically a melted thermoplastic material, which is
solid at normal ambient temperatures or a curable liquid polymeric
material such as liquid silicone.
[0085] During the injection moulding procedure according to the
above process it should be ensured that neither the internal face
nor the external face of the membrane is occluded by plastic
material. In an aspect of the process of the invention the internal
face of the membrane is covering an aperture and/or the external
face of the membrane is protected with a shield having a vent.
[0086] A vent allowing gases to communicate with the external face
of the membrane may be provided by pressing a central part of the
membrane against the core by a suitable tool from the matrix side.
In addition or alternatively, an aperture allowing urine and gas to
communicate with the interior of the membrane surface may be
provided by pressing a central part of the membrane against the
matrix with a suitable tool from the core side. Suitably, the part
of the pressing tool, which faces the membrane, has an area, which
may cover a part of the membrane intended to be the active membrane
area in the final device. The part of the membrane not pressed with
the tool it embedded in the polymer matrix during the plastic
injection moulding and provides for an attachment of the membrane
to the polymer matrix. To ensure a proper attachment, the membrane
may be provided on a carrier having properties, which effectively
anchor the membrane to the polymer matrix.
[0087] It may be advantageous to design the mould with a core
member and/or a matrix, which comprise a raised platform as the
tool for pressing the membrane against the matrix and/or the core.
In such an embodiment the membrane is arranged within the cavity by
pressing the two raised platforms against the membrane. This
embodiment ensures the production of a device wherein an aperture
as well as a vent is provided. Furthermore, the membrane is
shielded from deterioration due to the embedment of the edges and
corners of the membrane sheet.
BRIEF DESCRIPTION OF THE DRAWINGS
[0088] FIG. 1 shows a sectional view of an embodiment of the
invention with an outer holder member in an application
position.
[0089] FIG. 2 shows a sectional view of the embodiment depicted in
FIG. 1 with the outer holder member in a position of use.
[0090] FIG. 3 shows an enlarged view of the embodiment disclosed in
FIGS. 1 and 2 with the layers in the vicinity of the membrane
partly broken away.
[0091] FIG. 4 shows a detail of a second embodiment of the
invention with the shield partly broken away.
[0092] FIG. 5 shows a sectional view of the detail of the second
embodiment in FIG. 4. The section is indicated by V in FIG. 4.
[0093] FIG. 6 shows a front view of a detail of a third embodiment
of the invention.
[0094] FIG. 7 shows a sectional view of the detail of the
embodiment of FIG. 6. The section is indicated by VII in FIG.
6.
[0095] FIG. 8 shows a sectional view of a detail of the embodiment
shown on FIGS. 6 and 7. The section is indicated by VIII in FIG.
6.
[0096] FIG. 9 shows a front view of a detail of a fourth embodiment
of the invention.
[0097] FIG. 10 shows a sectional view of a detail of the embodiment
indicated in FIG. 9. The section is shown by X in FIG. 9.
[0098] FIG. 11 shows a sectional view of a detail of the embodiment
shown in FIGS. 9 and 10. The section is prepared as indicated by XI
in FIG. 9.
[0099] FIG. 12 shows a detail of a front view of a fifth embodiment
of the invention.
[0100] FIG. 13 shows a sectional view of a detail of the embodiment
shown in FIG. 12. The section is indicated in FIG. 12 at XIII.
[0101] FIG. 14 shows a detail of a front view of an embodiment with
a ledge that provides for fastening of the tubular member in an
axial direction.
[0102] FIG. 15 shows a sectional view of a detail of the embodiment
shown in FIG. 14
[0103] FIG. 16 shows a detail of a front view of an embodiment,
wherein the fastening means is provided by a point welding.
[0104] FIG. 17 shows a detail in perspective, wherein vents are
provided in the interior face of the tubular member.
[0105] FIG. 18 shows a detail of a front view, wherein a membrane
device fastens the tubular member to the discharge conduit.
[0106] FIG. 19 shows a sectional view of the embodiment shown in
FIG. 18. The section is indicated in FIG. 18 at XIX.
DETAILED DESCRIPTION OF THE INVENTION
[0107] In the various figures of the drawing identical parts of
various embodiments of the external urinary catheter device of the
invention of parts having the same function have been indicated by
identical reference numerals.
[0108] The catheter device shown in FIGS. 1, 2, and 3 comprises a
contact member 1 formed with an opening 5, which in a position of
use as shown in FIG. 2 is situated opposite the urethral orifice in
the corona 3 of a penis 4. A distal end section 6 of the contact
member 1 surrounds the opening 5 and joins a discharge conduit 7 by
which the catheter may be connected e.g. with a hose member,
through which discharges of urine may flow from the contact member
into a collection bag not illustrated. Thereby, a sealed urine flow
passage is provided to extend in a substantially axial direction
from the inner side of the contact member 1 facing the urethral
orifice towards the exterior of the catheter device.
[0109] As shown in FIG. 2 the contact member 1 is formed to be
placed in use under the foreskin 2 of the penis 4 in contact with
the corona 3.
[0110] In the distal end section 6 around the discharge conduit 7
the contact member 1 is designed with increased form stability so
as to form a shoulder-like ledge 13 having e.g. a substantially
flat end face, so that in use the contact member 1 is retained by
the foreskin 2.
[0111] To provide an improved sealing effect against the corona 3
the inner side of the contact member 1 is coated with a layer 19,
of a skin-friendly adhesive as used for medical devices intended to
be in contact with sensitive skin tissue.
[0112] In the embodiment shown, the discharge conduit 7 and the
contact member 1 are connected with a surrounding outer holder
member 12 having an opening for the discharge conduit 7 via the
tubular connection member 20. As shown in FIGS. 1 and 2, the outer
holder member 12 is formed as an invertible substantially
bowl-shaped member, which from the inverted application position in
FIG. 1 can be brought into the position of use by tilting it around
the, transition to the connection member 20. An annular applicator
not shown in the figures for engagement with the extreme portions
of the outer holder member 12 may, be used to invert the outer
holder member 12 from the application position depicted in FIG. 1
to the position of use depicted in FIG. 2. Such an annular
applicator will be effective to facilitate accurate positioning of
the contact member 1 relative to the corona during application of
the catheter device.
[0113] The inner engagement surface of the outer holder member 12
is partly or totally coated with a layer 21 of a skin-friendly
adhesive for improved engagement with the external surface of the
foreskin 2. The provision of the adhesive is not compulsory,
however, and may be dispensed with, since a sufficient holding
force may be obtained by other means, e.g. dimensioning of the
outer holder member with a length so as to cover, in the position
of use, the entire external side of the foreskin surrounding the
corona.
[0114] In order to facilitate removal of the catheter device after
use the distal end of the tubular connection member 20 is formed
with a projecting flap 22, which may serve as a grip which can be
operated to remove the outer holder member 12 by pulling back the
projecting flap 22 in a direction towards the inverted position,
from which the holder member was originally applicated.
[0115] As shown in detail in FIG. 3 an aperture 8 is provided in a
proximal part of the discharge conduit 7 relatively close to the
urethral orifice in a position of use. A membrane 9 capable of
selectively passing gases, but retaining urine, is covering the
aperture 8 and attached to the surface area of the discharge
conduit surrounding the aperture 8 by means of an adhesive 23. The
membrane 9 is in turn covered with a shield 10, which is a part of
the tubular connection member 20, for providing protection of the
membrane. A single vent 11 is provided in the shield 10 for
allowing gases to be in substantially unhindered contact with the
external surface of the membrane. The vent 11 in the shield 10 has
a dimension corresponding to the dimension of the aperture 8
allowing the active membrane area virtually unhindered to
communicate with the surrounding environment, while preventing the
edges and corners of the membrane to be exposed to mechanical wear,
thus reducing the risk of deterioration of the membrane.
[0116] FIGS. 4 and 5 show an embodiment of the invention using a
rivet 24 to fasten the membrane to an area of the discharge conduit
surrounding the aperture. The membrane is fastened to the orifice
of the rivet by clamping between the male 25 and the female 26 part
of the rivet 24. The male part 25 of the rivet 24 shown on FIG. 5
provides a raised platform for the shield 10, whereby an increased
clearance between the external side of the membrane and the shield
is formed. The shield is provided with a plurality of apertures 14
as vents allowing a virtually unimpeded diffusion of gases between
the space above the membrane surface and the surrounding
environment.
[0117] FIGS. 6, 7, and 8 show an embodiment of the invention where
the membrane is depressed in the surface of the discharge conduit 7
and tracks 18 are provided for ventilation. A hand-like depression
is cast in the outer face of the discharge conduit said depression
comprising a carpus 27 and three finger-like tracks 18 extending in
a distal direction. The carpus 27 of the hand-like depression is
provided with a membrane 9 attached to the area around the aperture
by welding. A tubular shield 10 is covering the carpus 27 and a
part of the finger-like tracks 18 but riot the fingertips. During
use of the catheter device of the invention air may be vented
through the openings at the fingertips and conducted via the
fingers covered by the shield 10 to the external surface of the
membrane 9.
[0118] FIGS. 9, 10, and 11 disclose an embodiment of the invention,
where the membrane in depressed in the surface of the discharge
conduit and tracks in the inner face of the shield provide for the
ventilation. A circular depression 28 is formed in the discharge
conduit 7 in an area around the circular aperture 8. A membrane 9
is attached to the depressed area around the aperture by welding. A
tubular shield 10 is covering the depression and extents over the
circumference thereof. Three tracks 29 are provided in the inner
face of the shield 10 to establish a vent passage from the external
surface of the membrane to the exterior of the catheter device. In
operation, air is sucked in at the opening formed by the tracks 29
in the edge of the shield 10. The air is subsequently conducted
through the tracks to the external surface of the membrane,
[0119] FIGS. 12 and 13 show an embodiment of the invention, in
which the vent passage is provided by a plurality of tracks formed
in the inner face of the shield. The membrane 9 is provided and
covers the aperture as explained for the embodiment according to
FIGS. 1, 2, and 3. A tubular shield 10 is surrounding the part of
the discharge conduit harbouring the aperture covered with the
membrane. The edge of the tubular shield extends above the upper
edge of the membrane. A plurality of tracks 30 substantially
parallel to the axis of the discharge conduit is formed in the
inner face of the shield in the entire circumference thereof. In
operation, air is sucked in at the openings formed by the tracks 30
in the edge of the shield 10 and subsequently conveyed to the
external surface of the membrane. Thus, the tracks 30 establish a
vent passage allowing air from the exterior of the catheter to come
into contact with the surface of the membrane.
[0120] FIGS. 14 and 15 show an embodiment of the invention, in
which the outer holder member 12 is impeded from moving in an axial
direction when stressed with a forward or backward pulling force.
When the outer holder member is pulled forward, that is towards the
penis e.g. during application, the outer holder member is halted
against axial movement by the contact member and during use the
tubular connection member connected with the outer holder member is
halted against axial movement by the ledge 31 provided on the
discharge conduit 7 just above the upper edge of the tubular
member. This embodiment is of special interest, when the adherence
between the inner face of the tubular connection member and the
external face of the proximal part of the discharge conduit is
absent or reduced, e.g. due to lack of or reduced inherent
adherence between the membrane and the inner face of the tubular
connection member.
[0121] In the embodiment shown in FIG. 16 the outer holder member
and the inner member is fixed in an axial as wells a rotational
direction by an ultrasonic point welding 32. The point welding is
conducted in an area, wherein the membrane 9 is not sandwiched.
Another point welding not shown in the figure is provided on the
diagonally opposed face of the device. The embodiment is provided
with a single projecting flap 22. Alternative means of fixing the
outer holder member with respect of the inner member could be
foreseen such as use of a membrane device arranged in an aperture
going through the tubular member as well as the proximal part of
the discharge conduit
[0122] FIG. 17 discloses a detail of an embodiment where a tubular
member covering the entire surface of the membrane shields the
membrane. For allowing gases to communicate with the exterior of
the membrane, tracks are provided in the inner face of the tubular
member.
[0123] FIGS. 18 and 29 depict an embodiment where the tubular
connection member is fastened no the discharge conduit by use of a
membrane device 34. The membrane device comprises a housing and a
membrane 9, the membrane being supported by corrugations 35. The
corrugations provide for tracks, which are extended in a part of
the discharge conduit. The membrane is placed in an aperture going
through the tubular connection member as well as the proximal part
of the discharge conduit securing a locked position in an axial and
a rotational direction of the outer holder member relative to the
contact member. Finger-like channels 18 are formed in the external
face of the discharge conduit to provide for gas communication
between the external surface of the membrane and the surrounding
air. The finger-like channels are partly covered by the tubular
connection member, whereby the fingertips are not covered, however,
and secure a proper ventilation.
[0124] While in the foregoing, embodiments of the invention have
been disclosed in considerable detail for purpose of illustration,
it will be understood by those skilled in the art that many of
these details may be varied without departing from the spirit and
scope of the invention. Thus, individual features of the various
described embodiments may to a wide extent be interchanged and the
provision of an outer holder member as disclosed in the described
embodiment may be dispensed with as known per se, e.g. from EP-A-0
706 355.
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