GB2039745A - Wound drainage device - Google Patents

Abstract

A device 10 for removing fluids from a wound. The device includes a housing 20 having therein an expandable and collapsible passive member 40 which divides the interior of the housing into a first and a second chamber 38 and 42 respectively. Means are provided to draw the passive member so as to increase the volume of the first chamber and create a negative pressure therein. Conventional wound tubing connected to the first chamber permits fluids to be drawn from the wound into the first chamber 38. The drawing means in the embodiment illustrated comprises a bellows 80 in communication with the second chamber 42. <IMAGE>

Description

SPECIFICATION Wound drainage device This invention relates to a device for automatic removal of fluids from a wound.

the use of suction devices to remove body fluids from a wound is known to the art. Such devices are employed to reduce or remove the body fluids which normally collect at a wound site after surgery.

Body fluids which collect at a wound, if left to remain especially in a closed wound, may cause complications in the healing process and thereby reduce the chance of a successful convalescence.

Moreover, not only will a dry wound area accelerate the healing stge but will also promote cicatrization.

Known typical suction devices are both disclosed and illustrated in U. S. Patent No.

3,809,086 to Schachet et al.; U. S. Patent No.

3,845,765 to Ikeda; U. S. Patent No. 3,889,677 to Nehring; U.S. Patent No. 4,058,123 to May; U.S. Patent No. 4,085,751 to Dodge; and U.S.

Patent No. 4,112,947 to Nehring.

The Schachet et al. patent is directed to a wound suction device including a vessel having therein an elastic sheet diaphragm which is sealed to the walls of the vessel. Movement of the diaphragm by a plate with an actuating means decreases the volume of the vessel which results in the creation of a suction force upon release of the actuating means. Provision is made to lock the actuator means in a position such that the resilient diaphragm remains displaced.

The device disclosed in the Ikeda patent includes a rigid outer vessel accommodating a flexible bag within. The interior of the flexible bag is in communication with the interior of the outer vessel whereby the interior of the flexible bag can be evacuated without its collapse as a result of the equalization of pressure within and without the bag.

The self-contained fluid evacuator of U. S.

Patent 3,889,677 includes a substantially rigid container with an inflatable member therein. A means mounted on the container is provided for inflating the inflatable member. A valve means responsive to pressure differences between the inflation means and the inflatable member permits a higher rate of fluid flow into the inflatable member than without.

U. S. Patents 4,058,123 and 4,112,947 disclose a combined irrigator and evacuator for bathing a wound with an irrigating solution and for removal of fluid therefrom. The apparatus comprises a rigid housing forming a chamber, a biased means dividing the chamber into two sections, a sealing means to prevent fluid flow between the sections, and access means to each section. Depression of the dividing means against its bias produces an increased volume in the irrigating section. Release of the solution from the irrigating section permits the dividing means under bias to return to its original position. During operation, the biasing means pumps fluid from the irrigation section to the wound thereby expanding the evacuation section to create a negative pressure and cause fluid flow therein.A selective rate control flow means provides for simultaneous expulsion of solution from the irrigation section and the admission of fluid from the wound into the evacuation section. Preferably the dividing means is a resilient diaphragm.

The Dodge patent discloses a drainage apparatus including a fluid drainage collection chamber with a liquid seal chamber disposed therein and above the collection chamber. An opening in the upper wall of the liquid seal chamber provides fluid communication between the two chambers. Fluid from the wound passes into the liquid seal chamber which has an initial quantity of fluid and eventually overflows from that chamber into the drainage collection chamber.

Although each of the above-mentioned patented devices is useful in varying degrees, they all suffer from disadvantages to some degree. The body fluids which are collected in typical suction devices sometimes contain a large number of viruses and other pathogenic microorganisms.

Persons handling such drainage devices during collection and disposal of body fluids are thus exposed to a high risk of infection during use.

Such exposure of the user to infection exists in the devices disclosed in U.S. Patents 3,809,086 and 3,889,677 which disclose removal of the body fluids after collections.

Additionally, suction drainage devices wherein the suction means can communicate with the ambient and also with the collection chamber permit possible contamination of the wound by entry of bacteria and the like along the suctionevacuation flow. The Ikeda and Dodge patents both disclose devices wherein communication between the suction means and the collection chamber is possible thus permitting contamination of the wound.

Moreover, some typical known suction devices possess either complicated or specially required structure which not only increases the cost of construction but also makes operation difficult.

U.S. Patents 3,809,086,4,058,123 and 4,112,947 disclose multiple-component biasing means. Each of these along with U. S. Patent 3,889,677 also disclose a preferred elastomeric member which upon returning to its original form increases the volume of the collection chamber to produce a negative pressure therein. Eventual fatigue of these elastomeric members further decreases the reliability of such devices.

The Ikeda and Dodge patents disclose devices generally limited to upright operation since fluids therein may otherwise gravitationally spill from chambers disposed within.

The device of the present invention is intended to improve over the apparatus discussed above and to overcome the limitations found therein.

According to the invention there is provided a device for removal of fluids from a wound comprising: a. a housing having side walls and at least one end wall at one end thereof: b. an expandable and collapsible passive member, said member being airtight and watertight, said member being disposed within the housing and sealingly connected at its periphery to the side walls of the housing, thereby separating the interior of the housing into a first and a second chamber, said first chamber being contiguous with said end wall, said member being substantially expanded toward the end wall and substantially conforming to the inside of the side walls of the housing; c. a means for drawing the passive member toward the other end of the housing thereby increasing the volume of the first chamber and creating a negative pressure therein.

In one embodiment of the present invention, the passive member is sealed at its periphery along the edges of the other end of the housing and a plate member is affixed to the other end the housing to seal the second chamber. A remote suction means is attached to a hollow tube integral with the plate member and communicating with the second chamber. Upon application of a suction through the plate member tube, the passive member collapses into the second chamber thereby increasing the volume of the first chamber and creating a negative pressure therein. A hollow tube integral with the end wall and communicating with the first chamber is connected to conventional wound tubing that at its one end is disposed adjacent a wound thereby permitting fluids to be drawn into the first chamber.

In an alternative embodiment, an elastic bellows is connected to the plate member to provide a portable and hand operated suction means. A valve means permits discharge of the air within the bellows into the ambient upon compression while simultaneously preventing entry into the second chamber. Expansion of the bellows then provides suction to the second chamber. Consequently, subsequent recharging of the bellows is permitted without adversely affecting the level of negative pressure then within the second chamber.

In order that the invention may be better understood, an embodiment thereof will now be described by way of example only and with reference to the accompanying drawings in which:~ Figure 1 is a partial cross sectional view of an exemplary embodiment of a device according to the present invention; Figure 2 is an enlarged view of a partial section of Figure 1; Figure 3 is a vertical cross sectional view of a group of housings of the device in Figure 1 in stacked array.

Figure 1 illustrates an exemplary embodiment in vertical cross section of a device 10 according to the present invention.

Although reference herein is made to directions with respect to the device 10 as illustrated in Figure 1, such reference is simply for the sake of convenience and is not intended to limit the device 10 in structure or operation in any way whatsoever.

The device 10 comprises a generally cylindrical rigid housing 20 having side walls 22 and an end wall 24 at one end thereof. The side walls 22 preferably are tapered toward the end wall 24.

The other end of the housing 20 is open. A passive, i.e., non-elastic, member 40 is disposed within the housing 20 with its periphery 41, shown in Figure 2, in fluid tight arrangement with an edge lip 32 of the housing 20. The passive member 40 is both expandable to a substantially fully extended state and collapsible from said baglike extended state. In its extended state, the passive member 40 is of a dimension to substantially conform to the tapered side walls 22 of housing 20 so as to constitute a bag-like structure as shown in Figure 1. In this manner, the passive member 40 divides the interior of housing 20 into a first chamber 38 and a second chamber 42, the purpose of which will be explained herein.

The end wall 24 centrally includes a frustoconical section 25 extending toward the open end of housing 20 and terminating in a generally circular disk 26 which has an opening 27. A hollow tube 28 integral with disk 26 and extending therefrom away from the open end of housing 20 and communicatively aligned with opening 27 permits communication of the first chamber 38 with the outside of the housing 20. A cap 29, removably placable over hollow tube 28, is attached to the hollow tube 28 by a strand 30 which terminates at one end into a ring 31 that is press fitted over hollow tube 28. Thus cap 29 when in position over hollow tube 28 completely seals the first chamber 38 from the ambient outside the housing.

A plate member 70 is sealingly attached to the open end of housing 20 whereby the second chamber is sealed from the ambient outside the housing 20. Referring to Figure 2, the sealing of the plate member 70 to the open end of housing 20 is shown in detail. The plate member 70 has a plate surface 72 which at its outer edges extends as a flange 71 generally transverse to plate surface 72. A circular gasket is seated as shown in Figures 1 and 2. A series of threads 75 on the inside surface of plate flange 71 and a cooperating series of threads 35 on the outside surface of housing flange 33 permit the screwing of plate member 70 over the open end of housing 20 as shown in Figure 2. In this fashion, the gasket 73 provides a fluid tight seal between the bottom of plate surface 72 and the upper edge of housing flange 33.

The plate member 70 centrally has an opening 77. A hollow tube 78 integral with the plate member 70 and extending into the second chamber is communicatively aligned with the opening 77. The opening 77 of plate member 70 permits the application of a suction of the second chamber 42.

The suction can be supplied, if desired, by a remote means (not shown) by way of suitable tubing and connections (not shown) with the opening 77. Alternatively, the hollow tube 78 can extend upwardly from the outer surface of plate member 70 to accommodate suitable tubing (not shown) extending from the remote suction means.

Alternatively, the suction means is an elastic bellows 80 having a generally circular cross section and a diameter approximately that of the plate member 70. The bellows 80 has an upper surface 84 and a lower surface 86 which are substantially parallel to each other and to the plate surface 72. The lower surface 86 has centrally a hollow tube 82 which communicates with the interior of the bellows 80 and extends from the lower surface 86 into the plate tube 78 as shown in Figure 1. The tubes 78 and 82 are suitable dimensioned to provide an air tight seal between the respective contacting tube surfaces.

When the suction force is provided by a bellows 80, the plate member 70 preferably has integral side walls 74 of a thickness approximately that of plate member 70 and of an outside diameter approximately equal to the diameter of the bellows lower surface 86. The upper edges 76 of the side walls 74 are adjacent the bellows lower surface 86 thereby creating a spaced separation 94, the purpose of which will be explained herein.

The bellows tube 82 has a hollow vent tube 87 which is integral with tube 82 and extends transversely from tube 82. Vent tube 87 is in communication with the interior of bellows tube 82 and thereby the interior of bellows 80.

A one-way valve 90 is sealingly inserted within tube 82 at its farthest end from the bellows 80 to permit entry of air from the second chamber into the bellows 80. Additionally another one-way valve 92 is sealingly inserted into the ambient through the spaced separation 94.

The device 10 described above provides the user with a simple and easily operable wound suction device. Upon receipt of the device 1 0, the user would remove cap 29 and attach suitable wound tubing (not shown) to tube 28. The user then would compress the bellows 80 to activate the device 10. During compression, air within the bellows 80 would be expelled therefrom through bellows tube 82, vent tube 87, out one-way valve 92, and would escape through separation 94 provided as described above. Upon release of the bellows 80, the resiliency of bellows 80 will cause the bellows 80 to expand and draw air from the second chamber 42 through one way valve 90 and tube 82 into the interior of bellows 80.

However, the one-way valve 92 will seal during the evacuation of air from the second chamber 42 thereby preventing drawing any ambient air into the bellows 80.

The tube 82 can be made substantially rigid so as to prevent the lower surface 86 of bellows 80 from coming in contact with the upper edges of the side walls 74 during compression and thereby preventing the air within the bellows 80 from bleeding off into the ambient. Alternatively the side walls 74 can have perforations to permit such air bleeding.

The application of suction to the second chamber will draw the passive member 40 toward the plate member 70 and thereby collapse the passive member 40. Simultaneously the volume of the first chamber is increased whereupon a negative pressure is created therein which provides a suction force that draws bodily fluids from a wound through the conventional wound tubing into the first chamber 38.

If during the process of drawing fluids from the wound it is desired to recompress the bellows 80, the valve means provided by one-way valves 90 and 92 permit such recharging of the bellows while maintaining the present level of negative pressure then within the second chamber 42.

During the collapse of the passive member 40 within the housing 20, it is possible that the passive member could collapse across the opening of tube 78 and cut off the suction to the second chamber 42. In order to avoid this potential problem, the plate tube 78 can be provided with cutouts 79 circumferentially along the edge of tube 78. In this fashion, a path for suction to the second chamber 42 can be maintained even when the passive member 40 collapses to seal the opening of tube 78.

The housing 20 is preferably made of transparent plastic and can have etched graduations 110 thereon as shown in Figure 1.

The user will therefore be able to visibly inspect the proper operation of the device 10.

Additionally, he can measure the amount of fluid collected upon holding the housing 20 end wall 24 down and comparing the fluid level against the graduations 110.

Preferably the housing 20, plate member 70, and passive member 40, are made by injection molding of suitable plastic material. The bellows 80 is made by blow molding. The gasket 73 is preferably made of rubber and secured to the inside of plate surface 72 thereby providing a fluid tight seal upon securing plate member 70 to housing 20. Advantageously the housing 20 is substantially rigid thereby avoiding the possibility of inadvertent compression by a patient rolling over onto the device 10. Also the device 10 provides a self contained sealed unit upon replacing cap 28 which avoids the danger of user infection by removing the need of the user having to empty the device 10 after use.

If desired, the device 10 can be safely transported by the user, e.g., to a pathology laboratory for subsequent testing of the fluids removed from a wound, also without danger of user infection.

The device 10 also provides for the avoidance of contamination of the wound with possible bacteria or the like in the ambient. The passive member 40 separates the suction means, preferably the bellows 80 whose interior at the time of charging comes into contact with the ambient, from the first chamber 38 and thereby the wound.

The device 10 as disclosed herein is not orientation sensitive and can be utilized in any position. If desired, a loop 88 can be attached to the upper surface 84 of bellows 80 to allow attaching the device 10 to the patient. In this manner the patient is permitted free movement with the attached device 10.

The final assembly of the device 10 is not limited to the means described above. The valves 90, 92 which are respectively inserted into the tube 82 and over tube 87 to create fluid tight seals can also be glued into and over the respective tubes 82, 87. The plate member 70 instead of being screwed to the outer surface of housing flange 33 can be constructed without the need of threads 35,75 so as to permit press fitting of plate surface 72 over housing flange 33 in fluid tight arrangement. Alternatively the plate surface 72 can be glued or ultrasonically welded to the housing flange 33. However, the passive member 40 is preferably ultrasonically or thermally welded to the edge lip 32 of housing 20.Assembly of the device 10 is not limited to gluing, press fitting, or ultrasonic welding but may be accomplished by other conventional means known and appreciated by those skilled in such arts including but not limited to mechanical means such as screws.

Referring to Figure 3, a number of housing 20 are shown in stacked relation which is facilitated by the tapering of the housings 20 and the conforming shape of passive member 40. In this fashion the housings 20 can be conveniently stored until needed. The cap 29 over housing tube 28 maintains a sterile environment inside the first chamber 38. When needed for removal of fluids from a wound, a housing 20 is removed from the other stacked housings 20. A plate member 70 preferably with a bellows 80 is attached to the housing 20 to seal the second chamber 42. The cap 29 is removed and conventional wound tubing (not shown) is connected to housing tube 28. The device 10 is then activated by compression of bellows 80 and fluids from a wound are drawn into the first chamber 38.

In an alternative embodiment (not shown) the disk 26 is integrally made of rubber and has a thickness which permits piercing the disk 26 with one end of a hollow thin walled needle (not shown). The disk 26 maintains a fluid tight seal about the wall of the needle in contact with the rubber of disk 26. The needle has a diameter suitable to pass body fluids into the first chamber 38. At its other end the needle is attached to conventional tubing which communicates with the wound area to be drained. In this fashion, a sterile environment is maintained in the first chamber 38 throughout the operation of connecting the device 10 to conventional wound tubing.

The device described above is designed to provide a suction means which is isolated from the collected body fluids to prevent possible contamination of the wound. The device is also designed to permit use of a remote suction source capable of providing whatever degree of suction is required. In an alternative embodiment, the device can be used with a directly attachable suction source, preferably a bellows pump, which provides a portable device free of the limitations of a fixed suction means. The device is economically designed to permit upon separation of the vacuum source total discarding after collection of body fluids to be drained from the wound thereby reducing the danger of user infection. The device is inexpensive and totally discardable, and is simple and easy to use.

Claims (11)

1. A device for removal of fluids from a wound comprising: a. a housing having side walls and at least one end wall at one end thereof; b. an expandable and collapsible passive member, said member being airtight and watertight, said member being disposed within the housing and sealingly connected at its periphery to the side walls of the housing, thereby separating the interior of the housing into a first and a second chamber, said first chamber being contiguous with said end wall, said member being substantially expanded toward the end wall and substantially conforming to the inside of the side walls of the housing; c. a means for drawing the passive member toward the other end of the housing thereby increasing the volume of the first chamber and creating a negative pressure therein.

2. The device of claim 1 wherein said passive member is sealingly connected at its periphery to the other end of the housing.

3. The device of claim 2 further including a means for providing communication between the first chamber and the wound from which fluids are to be removed.

4. The device of claim 3 wherein the communicating means comprises a hollow tube.

said tube affixed at its one end to the end wall of the housing and communicating with the first chamber therein, whereby the first chamber is in fluid communication with the outside of the housing.

5. The device of claim 4 further including a plate member sealingly affixed to the other end of the housing thereby sealing the second chamber at the other end of the housing, said plate member having an opening communicating with the second chamber of the housing whereby the second chamber is in communication with the - outside of the housing.

6. The device of claim 5 wherein the drawing means comprises a suction means connected to said opening of the plate member such that application of suction to said second chamber draws the passive member toward the plate member thereby increasing the volume of the first chamber and creating a negative pressure therein.

7. The device of claim 6 wherein the suction means comprises a bellows affixed to the plate member and communicatively aligned with said opening of the plate member whereby compression and release of said bellows produces a suction force which draws the passive member toward the plate member.

8. The device of claim 7 further including a valve means providing for release of air from the bellows during compression thereof while at the same time preventing such air from entering the second chamber, thereby sealing off the second chamber during compression of the bellows.

9. The device of claim 8 wherein the housing is substantially rigid and substantially cylindrical.

10. The device of claim 9 wherein the side walls are tapered toward the end wall.

11. A device for removal of fluids from a wound, substantially as hereinbefore described with reference to the accompanying drawings.