Source: https://patents.google.com/patent/CH702752A1/en
Timestamp: 2019-12-08 12:02:12
Document Index: 147197760

Matched Legal Cases: ['art 1', 'art 1', 'art 1', 'art 1', 'art 1', 'art 11', 'art 1', 'art 1']

CH702752A1 - Coupling part of a drainage tube unit. - Google Patents
Coupling part of a drainage tube unit. Download PDF
CH702752A1
CH702752A1 CH00191/10A CH1912010A CH702752A1 CH 702752 A1 CH702752 A1 CH 702752A1 CH 00191/10 A CH00191/10 A CH 00191/10A CH 1912010 A CH1912010 A CH 1912010A CH 702752 A1 CH702752 A1 CH 702752A1
CH00191/10A
2010-02-16 Application filed by Medela Holding Ag filed Critical Medela Holding Ag
2010-02-16 Priority to CH00191/10A priority Critical patent/CH702752A1/en
2011-02-10 Priority claimed from US13/024,628 external-priority patent/US8801684B2/en
2011-08-31 Publication of CH702752A1 publication Critical patent/CH702752A1/en
A coupling part (1) of a drainage tube unit for aspirating body fluids or secretions by means of a suction pump comprises a drainage channel (12) with a patient-side drainage connection (11) and a pump-side drainage orifice for connection to a drainage tube (2), a service channel (15) having a Pump-side Servicemündung for connection to a service hose (3) and a connecting channel (14) for connecting the service channel (15) and drainage channel (12). The coupling part (1) further comprises an air-permeable and liquid-impermeable filter (4), wherein the filter (4) separates the service channel (15) from the drainage channel (12). The inventive coupling part (1) with its filter (4) enables a reliable pressure measurement.
The present invention relates to a coupling part of a drainage tube unit according to the preamble of claim 1. It relates in particular to a patient-side connection part.
For aspirating body fluids or fluids in the medical field, for example, after surgical procedures, but also in the wound drainage, the chest tube or the suction of body fats, drainage pump systems are used. These drainage pumping systems typically include a suction pump, one or more fluid collection containers, and a drainage tube connection between the patient and the fluid collection container. The fluid collection container may be releasably attached to the housing of the drainage pump or it may be connected to the pump via a vacuum hose.
By means of the suction or vacuum pump in the fluid collection a negative pressure is generated, the fluid or secretion is sucked from a cavity of the patient via the drainage tube into the sump and collected there. Filters arranged on the pump-side outlet of the collecting container protect the suction pump from any contamination by the extracted fluid.
It is also known, in addition to the drainage line to run a service line from the pump to the patient, for example, as a measuring line for determining flow and pressure differences or for supplying air or gas to rinse the cavity. Examples of these are US Pat. Nos. 5,738,656 and 5,134,996, both of which disclose double or multi-lumen hoses.
Further, WO 2008/141 470 discloses a drainage tube unit for aspirating body fluids by means of a suction pump. This hose unit comprises a pump-side connection part, a patient-side connection part, a drainage tube and at least one service tube. The service hose can be used for the above actions. The hoses are held with a first end in the patient-side connection part and with a second end in the pump-side connection part. In this case, the ends of the tubes in the patient-side connection part are held separately from one another in the respective connection parts and connected to one another via a connection channel. This drainage tube unit is inexpensive to produce and simple and safe in use.
Such measurements of changes in pressure are important tools for physicians and nurses. Pressure changes during suction give, for example, information on the functionality of the suction pump, the tightness of the hose connections and the healing process.
It is also known to use hydrophobic filter to avoid contamination of the suction pump. For example, US 4,731,260 discloses a fluid container having a cylindrical filter cartridge.
It is an object of the invention to provide a drainage tube unit, wherein it is ensured that the service line can not be clogged by sucked secretions.
This object is achieved by a coupling part of a drainage tube unit having the features of claim 1.
The inventive coupling part of a drainage tube unit for aspirating body fluids or secretions by means of a suction pump comprises: a drainage channel having a patient-side drainage connection and a pump-side drainage orifice for connection to a drainage tube, a service channel having a pump-side service orifice for connection to a service tube, and a connection channel for connecting the service channel and drainage channel. The coupling part further comprises an air-permeable and liquid-impermeable filter, wherein the filter separates the service channel from the drainage channel.
Preferably, this coupling part is a patient-side connection part or a patient-side end plug of a drainage tube unit.
Thanks to this filter in the coupling part is made possible that an air exchange between service channel and drainage channel can take place. However, it is prevented at an early stage that body fluids and extracted tissue parts can get into the service line. Pressure measurements and flushing with air or gas can thus be carried out unhindered at any time by means of the service channel.
Preferably, the filter is arranged in the drainage channel, so that it also protects the connection channel. In a preferred embodiment, the connecting channel has a first end which opens into the drainage channel, wherein the filter closes this first end. The cross sections of the connecting channel and the service channel are preferably both smaller than that of the drainage channel.
In order to optimize a pressure measurement, a free space is formed between an outer periphery of the filter and an inner wall of the drainage channel. Preferably, this free space is annular in cross section.
In a preferred embodiment, the filter is tubular. Preferably, it is coaxial with the drainage channel.
Preferably, the filter is formed as an insert element, wherein it can be inserted preferably via a suction pump-side end of the drainage channel in its ready-to-use position in the interior of the coupling part. Preferably, it is pressed in its position, so that this press pack between the filter and the inner wall of the coupling part ensures that no secretion fluid can enter the service channel.
The filter has a filter function performing filter material which is hydrophobic and preferably also formed oliophobic. The filter can be made entirely of this filter function performing filter function. Preferably, it is then formed in one piece and / or self-supporting.
In a preferred embodiment, however, it has a support body and a filter function performing filter element. The filter element is arranged on the and / or in the support body. It is preferably designed as a membrane. Preferably, the support body is formed as a hollow cylinder and has at least one, preferably at both ends a radially outwardly projecting flange. Preferably, it has longitudinal webs or reinforcing ribs. This support body can be produced easily and true to mass, z. B. plastic injection molding. Furthermore, the filter element can be easily attached to it. For example, it can be arranged inside the support body or the support body is wrapped by him. The filter element can also be sprayed onto the inside or outside of the support body. If the filter element is mounted on the inside of the support body, then the rigidity of this filter element increases.
In a variant of the invention, the drainage channel is formed in a straight line over its entire length. The drainage channel preferably has a step, which serves as a stop surface for the filter. Preferably, only a single drainage channel is present in this case.
In this and other variants of the invention, the filter has a passageway and is arranged in the coupling part, that its passage channel is traversed by the body fluid during suction.
In other variants of the invention, the filter is arranged at a location in the coupling part, which is not traversed by the body fluid during aspiration. This embodiment is particularly suitable for coupling parts which have two or more patient-side drainage connections and thus serve for branching the drainage line.
The filter need not necessarily be located in the drainage channel, but may be seated at another suitable location as long as it separates the drainage channel from the service channel, i. prevents fluid coming from the drainage channel from entering the service channel without passing through the filter.
Preferably, the coupling part is formed by a patient-side connecting part, as disclosed in WO 2008/141 470, wherein it is provided according to the invention with a filter, preferably a filter cartridge. However, it is also possible to provide differently shaped coupling parts according to the invention with a filter.
Preferred embodiments of the invention are described below with reference to the drawings, which are merely illustrative and not restrictive interpreted. In the drawings show: <Tb> FIG. 1 <sep> is a longitudinal section through a coupling part according to the invention with hoses arranged therein in a first embodiment; <Tb> FIG. 2 <sep> a support body according to the invention of a filter in a perspective view; <Tb> FIG. 3 <sep> a longitudinal section through the support body according to FIG. 2 in a perspective view with a filter element arranged on the support body; <Tb> FIG. 4 a view of a coupling part according to the invention according to a second embodiment from above; <Tb> FIG. 5 <sep> is a longitudinal section through the coupling part according to FIG. 4 in a perspective illustration and <Tb> FIG. 6 <sep> is a longitudinal section through the coupling part according to FIG. 4.
In Fig. 1, a first embodiment of the inventive coupling part 1 is shown with hoses 2 and 3 arranged therein.
The coupling part has a main body 10 and a patient-side drainage connection 11 arranged thereon.
Preferably, the coupling part 1 is made of plastic and injection molding. In the preferred exemplary embodiment illustrated here, the base body 10 and the drainage connection 11 are formed integrally in one piece.
The main body 10 has two mutually parallel but spaced from each other extending mouths for patient-side ends of the two tubes 2, 3. The one hose is a drainage hose 2, the second hose is a service hose 3. The service hose 3 preferably serves to measure the pressure in the region of the drainage connection 11. Alternatively or additionally, the service hose 3 can also be used for flushing with air or gas. Its diameter is preferably smaller than the diameter of the drainage tube 2. Both tubes 2, 3 are preferably formed in a single lumen and extend at least in the region of the coupling part 1 separated from one another. They are preferably made of silicone or PVC. The hoses 2, 3 are inserted into the mouths and held therein. Preferably, they are glued or welded to the coupling part. Other fixation types are also possible.
At the opposite end of the base body 10 is in the patient-side drainage port 11 via. This is preferably formed conically stepped, wherein it tapers towards its free open end. He thus has a Christmas tree shape in cross section. The drainage port 11 extends in this example in axial alignment with the pump-side mouth for the drainage tube 2. Between this mouth and the patient-side free end of the drainage port 11 extends a drainage channel 12 which is formed here straight along its entire length.
The diameter of the pump-side mouth for the service hose 3 is correspondingly smaller than that of the pump-side mouth for the drainage hose 2. This second mouth is offset from the first mouth in the body and it leads to a straight and parallel to the drainage channel 12 extending service channel 15. Preferably, the service channel 15 tapers in the interior of the main body 10 and thus forms a step 150. This step 150 serves as a stop for the patient-side end of the service hose 3.
The service channel 15 terminates in the base body 10 and there opens into a connecting channel 14, which preferably extends perpendicular to the service channel 15. The connecting channel 14 has the same or a smaller diameter than the service channel 15. It terminates on the one hand in the drainage channel 12, wherein it preferably opens perpendicular to the longitudinal direction of the drainage channel 12 in this. Its other end forms an opening to the outside, which is preferably perpendicular to the pump-side mouths of the drainage channel 12 and the service channel 15. It is also possible that the connecting channel has an angle, that it is curved and / or that it opens at a different angle into the drainage channel 12 or the service channel 15.
The outwardly leading opening of the connecting channel 14 is closed with a closure lid 13. In Fig. 1, it is shown in the closed state. Preferably, it is made in one piece with the remaining coupling part 1. It has a closure band 130, which is integrally formed with a first end on the base body 10. At a second end of the closure strip 130, a plug 131 is formed, which in the outwardly leading opening of the connecting channel 14 can be inserted and this air and liquid tightly closed.
According to the invention, a filter 4 is arranged in the coupling part 1, which is permeable to air, but liquid-tight, i. E. for liquids not permeable, is formed. This filter 4 separates the service channel 15 from the drainage channel 12. Fluid, which is sucked from a suction pump connected to the drainage tube 2 from a cavity of the patient, can not get directly into the service channel 15, but must flow through the filter. This can prevent that sucked liquid, tissue particles or other solid particles in the service channel 15 and the service hose 3 can get and clog them.
Preferably, the filter 4 is arranged in the drainage channel 12, wherein it closes the mouth of the connecting channel 14 in the drainage channel 12 and is arranged in this area. In this example there is a gap between filter 4 and muzzle. The resulting free space 5 is preferably annular and extends radially about the entire longitudinal central axis of the drainage channel 12. This distance facilitates the pressure measurement in the drainage channel 12, wherein the pressure in this area is measured.
Preferably, the filter 4 is designed as an insert element, which can be fixed body 10 or in the drainage port 11. Preferably, it is hollow cylindrical or tubular, wherein it is coaxial with the drainage channel 12 in the mounted state. The filter 4 has a material performing the filter function, here a filter element 44 which extends along the shell of the hollow cylindrical shape. As a result, fluid drawn out of the cavity of the patient flows through the drainage channel 12 without penetrating the filter element 44. The annular clearance 5, which is connected to the service channel 15, but is located on the other side of the filter element 44th
In the transition from the base body 10 to the patient-side drainage connection 11, the drainage channel 12 has a step 120. The drainage channel 12 in the drainage connection part 11 therefore has a smaller diameter than the section of the drainage channel 12 in the base body 10. This step 120 serves as a stop for the filter 4. The remaining section of the drainage channel 12, ie the pump-side section, preferably has an inner diameter , which is at least equal to the outer diameter of the filter 4. This allows the filter 4 in a simple manner from the pump-side mouth forth through the drainage channel 12 push up to stop 120 or press. Preferably, the pump-side end of the filter 4 then serves as a stop for the drainage tube 2. Preferably, a press pack between filter 4 and inner wall of the remaining coupling part 1 is present, so that no secretion fluid can get into the service channel 15 and thus carried out a pressure measurement in this channel uninfluenced can be.
The filter 4 may consist entirely of the filter element 44, which is designed to be self-supporting. Preferably, however, the filter 4, as shown here, a dimensionally stable support body 40, on which the filter element 44 is arranged. A preferred embodiment of the support body 40 is shown in Fig. 2. It is designed dumbbell-shaped and has two opposing end flanges 41 with an enlarged diameter. These two end flanges 41 are connected to one another via longitudinal webs 42, wherein through the longitudinal webs 42 through windows 43 are formed. Through these windows 43, air can enter the connection channel 14 and the service channel 15. The support body 40 is preferably made of plastic or metal. Preferably, it is integrally formed.
In Fig. 3 is a possible variant for the arrangement of the filter element 44, which exercises the filter function shown. The filter element 44 is wound between the two end flanges 41 about the longitudinal webs 42, so that it closes the window 43 It thus forms together with the end flanges 41, the outer circumference of the filter element 4. Preferably, the filter element 44 in the assembled state has a smaller outer diameter As the support body 40. It has in the developed state preferably a rectangular basic shape.
The filter element 44 is preferably made of a hydrophobic and in particular of an additional oliophobic material. Preferably, the material is relatively flexible, so that it can be wrapped around the support body 40 in a simple manner.
Alternatively or additionally, the filter element 44 may also be arranged on the inside of the support body 40. As a result, it has an increased stability.
The filter element 44 may be sprayed, glued, welded or otherwise connected to the support body 40.
Instead of webs and windows and a plurality of slots or other shaped openings may be provided in a self-contained base body of the support body. These slots or openings are then covered by the filter element.
The filter, i. the support body 40 and the self-supporting filter element 44 may also have a different cross-sectional shape instead of a round cross-section. For example, it may be oval or polygonal, in particular four- or triangular.
The same filter element 4 can also be used in another embodiment of the coupling part 1 according to the invention. This is shown in FIGS. 4 to 6. The basic structure corresponds to the embodiment already described, so that the same parts are provided with the same reference numerals. Again, a base 10 is present. However, this has three ends and is thus formed y-shaped. A first, pump-side end in turn has two mutually spaced openings for a drainage tube 2 and a service hose 3 (see Fig. 5 and 6). However, there are now two patient-side ends, which are preferably identical. At each end there is a patient-side drainage connection 11, 11. Both are preferably the same length and with the same cross section of the drainage channel 12, 12 is formed. The pump-side single-lumen drainage channel 12 thus branches within the main body 10 into two preferably identical drainage channel branches 12, 12. The diversion preferably takes place in the suction direction in front of the mouth of the service channel 14 into the drainage channel 12. D. h. the drainage channel 12 in the base body 10 has a branch extending over the branch of the drainage channel branches 12, 12, which preferably forms the patient-side rectilinear extension of the drainage channel 12. Preferably, this extension is long enough to accommodate the filter 4, without this filter 4 projects into the region of the branches to the drainage channel boxes 12, 12 in. As a result, aspirated fluid does not flow through the filter 4. By this arrangement, an early saturation of the filter material is prevented.
Again, the filter 4 can be pushed back over the pump-side mouth of the drainage channel 12 in its position of use or press. However, it can also be inserted from a patient-side, lying between the two drainage connections 11, 11 patient-side end of the base body 10 in this (this variant is not shown here).
Instead of the filter insert mentioned above, other filters can be used in both embodiments described with reference to FIGS. 1 to 6. Furthermore, the described filter can also be used in further embodiments.
The inventive coupling part with its filter allows reliable pressure measurement.
[0049] <Tb> 1 <sep> coupling part <Tb> 10 <sep> base <tb> 11, 11 <sep> Patient-side drainage port <Tb> 12 <sep> drainage channel <tb> 12, 12 <sep> drainage canal branch <Tb> 120 <sep> Level <Tb> 13 <sep> cap <Tb> 130 <sep> stringer <Tb> 131 <sep> Plug <Tb> 14 <sep> connecting channel <Tb> 15 <sep> Service Channel <Tb> 150 <sep> Level <Tb> 2 <sep> drainage tube <Tb> 3 <sep> Service hose <Tb> 4 <sep> Filters <Tb> 40 <sep> support body <Tb> 41 <sep> end flange <Tb> 42 <sep> longitudinal web <Tb> 43 <sep> Window <Tb> 44 <sep> filter element <Tb> 5 <sep> Space
A coupling part (1) of a drainage tube unit for aspirating body fluids by means of a suction pump, comprising: a drainage channel (12) having a patient-side drainage connection (11) and a pump-side drainage orifice for connection to a drainage tube (2), a service channel (15) with a pump - side service port for connection to a service hose (3) and a connection channel (14) for connecting the service channel (14) and the drainage channel (12), characterized in that the coupling part (1) further comprises an air-permeable and liquid-impermeable filter (4) and in that the filter (4) separates the service channel (15) from the drainage channel (12).
2. Coupling part according to claim 1, wherein the filter (4) in the drainage channel (12) is arranged.
3. Coupling member according to one of claims 1 or 2, wherein between an outer periphery of the filter (4) and an inner wall of the drainage channel (12), a free space (5) is formed.
4. Coupling member according to claim 3, wherein said free space (5) is annular in cross-section.
5. Coupling part according to one of claims 1 to 4, wherein the filter (4) is tubular.
6. Coupling part according to one of claims 1 to 5, wherein the filter (4) coaxial with the drainage channel (12).
7. Coupling part according to one of claims 1 to 6, wherein the connecting channel (14) has a first end which opens into the drainage channel (12) and wherein the filter (4) closes this first end.
8. Coupling part according to one of claims 1 to 7, wherein the filter (4) has a support body (40) and a filter function performing filter element (44), wherein the filter element (44) arranged on and / or in the support body (40) is.
9. Coupling part according to claim 8, wherein the support body (40) is formed in a hollow cylindrical shape and has at least one, preferably at both ends a radially outwardly projecting flange (41).
10. Coupling part according to one of claims 8 or 9, wherein the supporting body (40) has longitudinally extending webs (42).
11. Coupling part according to one of claims 1 to 10, wherein the drainage channel (12) is rectilinear over its entire length.
12. Coupling member according to claim 11, wherein the drainage channel (12) has a step (120) which serves as a stop surface for the filter (4).
13. Coupling member according to one of claims 1 to 12, wherein the filter (4) has a passage and that it is arranged in the coupling part (1), that its passage channel is traversed by the body fluid during suction.
14. Coupling part of one of claims 1 to 10, wherein the filter (4) is arranged at a location in the coupling part (1), which is not traversed by the body fluid during the suction.
15. Coupling part according to one of claims 1 to 14, wherein two or more patient-side drainage connections (11, 11) are present.
CH00191/10A 2010-02-16 2010-02-16 Coupling part of a drainage tube unit. CH702752A1 (en)
CH00191/10A CH702752A1 (en) 2010-02-16 2010-02-16 Coupling part of a drainage tube unit.
CN201080063928.4A CN102753220B (en) 2010-02-16 2010-11-11 Coupling part of a drainage tube unit
DK10781803T DK2536448T3 (en) 2010-02-16 2010-11-11 Connecting part to a drain hose unit
BR112012020583A BR112012020583A2 (en) 2010-02-16 2010-11-11 coupling part
JP2012553164A JP5625072B2 (en) 2010-02-16 2010-11-11 Drainage tube unit connection
EP20100781803 EP2536448B1 (en) 2010-02-16 2010-11-11 Coupling part for a drainage tube unit
KR1020127021459A KR101787707B1 (en) 2010-02-16 2010-11-11 Coupling part of a drainage tube unit
PL10781803T PL2536448T3 (en) 2010-02-16 2010-11-11 Coupling part for a drainage tube unit
PCT/CH2010/000283 WO2011100851A1 (en) 2010-02-16 2010-11-11 Coupling part of a drainage tube unit
US13/024,628 US8801684B2 (en) 2010-02-16 2011-02-10 Coupling part of a drainage tube unit
CH702752A1 true CH702752A1 (en) 2011-08-31
ID=42308318
EP (1) EP2536448B1 (en)
JP (1) JP5625072B2 (en)
KR (1) KR101787707B1 (en)
CN (1) CN102753220B (en)
BR (1) BR112012020583A2 (en)
CH (1) CH702752A1 (en)
DK (1) DK2536448T3 (en)
PL (1) PL2536448T3 (en)
WO (1) WO2011100851A1 (en)
2010-02-16 CH CH00191/10A patent/CH702752A1/en not_active Application Discontinuation
2010-11-11 PL PL10781803T patent/PL2536448T3/en unknown
2010-11-11 EP EP20100781803 patent/EP2536448B1/en active Active
2010-11-11 DK DK10781803T patent/DK2536448T3/en active
2010-11-11 WO PCT/CH2010/000283 patent/WO2011100851A1/en active Application Filing
2010-11-11 BR BR112012020583A patent/BR112012020583A2/en not_active IP Right Cessation
2010-11-11 CN CN201080063928.4A patent/CN102753220B/en active IP Right Grant
2010-11-11 JP JP2012553164A patent/JP5625072B2/en active Active
2010-11-11 KR KR1020127021459A patent/KR101787707B1/en active IP Right Grant
JP5625072B2 (en) 2014-11-12
EP2536448A1 (en) 2012-12-26
CN102753220A (en) 2012-10-24
JP2013519458A (en) 2013-05-30
WO2011100851A1 (en) 2011-08-25
KR20120127457A (en) 2012-11-21
PL2536448T3 (en) 2014-07-31
KR101787707B1 (en) 2017-10-18
DK2536448T3 (en) 2014-03-31
CN102753220B (en) 2015-01-21
BR112012020583A2 (en) 2016-07-19
EP2536448B1 (en) 2014-01-08
AU2007247698B2 (en) 2010-01-28 Suction pump unit
ES2580133T3 (en) 2016-08-19 System to provide continuous drainage in negative pressure wound therapy
2015-09-30 AZW Rejection (application)