WO2005013878A2

WO2005013878A2 - Air-cushioned support system for use as patient lying surface, especially for operating tables

Info

Publication number: WO2005013878A2
Application number: PCT/EP2004/007624
Authority: WO
Inventors: Andreas Horn
Original assignee: Andreas Horn
Priority date: 2003-07-23
Filing date: 2004-07-10
Publication date: 2005-02-17
Also published as: DE10333742A1; WO2005013878A3

Abstract

The invention relates to an air-cushioned support system for use as a patient lying surface, especially for operating tables or hospital beds, also for use in domestic nursing or care for the elderly. The inventive system is primarily used to prevent hypothermia by storing the body heat and in the prophylaxis and therapy of bedsore. The aim of the invention is to overcome the disadvantages of the known state of the art and to provide a support system that substantially meets the medical requirements, is easy and inexpensive to produce and is suitable for single use. For this purpose, the invention provides an air-cushioned support system which comprises at least one first flexible layer or film (1) having a defined number of spaced-apart fluid-filled static cushions (2) that are covered by at least one further covering film (4) which forms the surface used by the patient and which is linked with the first film (1) and/or the cushions (2). The interstices between the individual cushions (2) of the first film (1) and the covering film (4) form a hollow space (5) that extends across the entire useful area and that serves as a collecting space for any liquids that might ensue from the operation or as a heating zone or as a massaging zone. The static cushions, which are preferably filled with air, can be adapted to the specific requirements and are shaped in such a manner that the body surface of the patient rests thereon only in certain points. The patient's positioning in only certain points allows for an improved circulation of the blood in the tissue and contributes to the prophylaxis of bedsore at least when the patient has to rest for longer periods of time.

Description

description

Air-cushioned support system as a patient bed, especially for operating tables

The invention relates to an air-cushioned support system as a patient bed, in particular for operating tables or sick beds, also in the field of home nursing or elderly care, and is used primarily for the prophylaxis and therapy of pressure ulcers.

Various types of documents are already known as so-called mattresses for positioning patients on operating tables, e.g. Gel pads (DE 87 07 337 U1) or as airflow mattresses (DE 195 14 295 A1 and DE 297 21 132 U1).

The latter are equipped with pressure control and heating or also with a cooling device and have a structure similar to conventional air mattresses with one or more air chambers. The air chambers have a large number of small openings in the manner of a micro-perforation on the top of the lying surface, through which a constant air flow is formed on the surface of the air mattress. The air mattress is connected to a compressor via a flexible pipe system. A cooling device in the form of a heat exchanger is interposed for cooling the air. Instead of a cooling device, a heating device can also be interposed. The aforementioned airflow mattresses are intended for multiple use and are very costly to manufacture. After use, the mattresses must be cleaned, sterile packed and stored again. After repeated use, it cannot be ruled out that germs and microorganisms can settle at the seams, which represent a considerable risk potential when using the mattresses in an operating room. Mattresses that are no longer usable must be disposed of as special waste, which causes additional costs.

Criteria for operating table pads are in particular their disinfectability, the guarantee of a constant body temperature of the patient, a usability in high-frequency surgery and an X-ray permeability as well as an almost absolute pressure relief. A problem that has hitherto received little attention is the formation of moisture on the top of the surface. In certain operations, a relatively large amount of liquid, such as blood or irrigation liquid, can get onto the operating table and cause the patient to open on a damp surface. If coagulation devices are necessary, there is therefore a risk of burns to the skin in the area of the attached electrodes. The previously known operating table pads do not have an effective drainage system. The invention has for its object to provide an air-cushioned support system as a patient bed, especially for operating tables, which largely meets the medical requirements, is simple and inexpensive to manufacture and is suitable for single use.

According to the invention the object is achieved by the features specified in claim 1. Advantageous refinements and developments are the subject of claims 2 to 17.

The proposed support system consists of at least a first flexible film, with a defined number of fluid-filled static cushions spaced apart from one another, as the base unit. The static pillows, which are preferably filled with air, can be adapted to the respective requirements. Depending on the body weight of the patient and the weight distribution when the patient is lying down, the pillows can be arranged in the form of equally spaced rows both in the longitudinal and in the transverse direction. Taking into account the weight distribution, the size of the individual pillows can be designed differently. Smaller cushions can be arranged in the edge zones and larger cushions can be arranged in places which are exposed to a greater load. The shape of the individual pillows is such that the patient's body surface only rests in a punctiform manner. The pillows pointing upward preferably have the shape of a hemisphere or parabola. The static cushions forming an air cushion ensure an even distribution of the contact pressure created by the weight of the patient and a pressure relief, which mean comfortable positioning for the patient. The punctiform positioning of the patient improves the blood flow to the tissue and, at least in the case of prolonged storage, makes a decisive contribution to pressure ulcer prevention.

Even the smallest movements or changes in position of the patient move the fluid in the static pillow, for example air, or distribute it differently, thereby achieving what is known as an auto massage in the area of the patient's body surface in contact with the pillow. This effect also enables the support system to be used in physiotherapy and in the wellness area, particularly for treatment of disorders of the lymphatic system. One idea of the invention is to use the flexible film with the pillows pointing upwards with at least one further film, as a so-called final film to span, which forms the actual lying area or usable area. This film consists of a hygienically safe and skin-friendly material and is connected on the circumference to the first flexible film, e.g. B. by welding. This creates a cavity that extends over the entire lying surface, due to the free spaces between the individual static cushions, which are delimited at the top by the overlapping cover film. This cavity is used as a functional space for further measures to improve the effectiveness of the support system. In certain operations, an extremely large amount of fluid, such as blood and irrigation fluid, can accumulate on the operating table and thus on the patient support and affect the positioning of the patient. One possibility now consists in using the cavity formed as a collecting space for such liquids. To do this, it is only necessary to provide the end foil, above the free spaces between the individual cushions, with holes through which the liquid accumulating on the support can drain into the cavity. Due to the punctiform support of the patient on the static pillow forming the air cushion, the corresponding openings in the cover foil are at a somewhat lower level so that the existing liquid can run off without any problems. In addition, flexible hoses with a plurality of openings can be placed in the cavity, which are guided outside the support for the discharge of accumulated liquid and are connected to a collecting line to which a suction device is connected. The liquid can thus be discharged continuously or discontinuously from the collecting space. Another alternative embodiment of the support system consists in that a base made of a liquid-absorbing material is arranged below the first flexible film, the underside of which is equipped or covered with a liquid-repellent coating or film. The liquid-absorbing base can either be designed as a separate unit and placed under the support or else connected to the lower flexible film as a unit. In both cases there are additional holes in the lower flexible film, which are arranged congruently to the holes made in the end film. Since in this case the entry of liquid into the intermediate space is to be prevented, the edge portions of the openings delimiting the openings of two congruent holes are connected to one another in a liquid-tight manner either directly or via interposed spacer rings. As a result, the support system has a large number of vertical channels through which the liquid can run off and is absorbed by the absorbent pad. The underlay can be equipped with a material known as a super absorber, which consists of is known in the field of hygiene, and is also biodegradable. This ensures environmentally friendly disposal of the underlay. The cavity of the support system can then be used for further measures such. B. a temperature control can be used, the following options are provided. In addition, a large number of air-permeable pores are introduced into the closing film. Warm air, which is formed in a separate unit, is continuously fed into the cavity of the support system via a side connection welded on at a defined pressure. The warm air emerging from the pores reaches the patient's body evenly from below. The point-like support of the patient on the pillow has an advantageous effect, since sufficient warm air also reaches the body outside the support points. This favors an almost dry positioning of the patient. Possible body wetness, for example due to perspiration, is thus eliminated immediately. In cases where air turbulence is undesirable, a closed heating system can alternatively be used. For this purpose, the end foil is designed to be airtight or watertight and the intermediate space is connected to a corresponding warm air or hot water circuit station via flexible lines. The corresponding units, including the necessary control and regulating units for generating hot air or hot water, are known per se and can be used without problems for the intended temperature control of the cavity. Instead of hot air or hot water generating devices, cooling devices can also be used, in particular during neurosurgical interventions that require a lowering of the patient's body temperature. Another important measure in the context of pressure ulcer prophylaxis during surgery is good blood circulation to the skin. The proposed invention, individually or in combination with drainage / drainage, also enables an additional massage of the patient's body surface lying on the support system. In order to form the intermediate space of the support system as an additional massage zone, it is provided to manufacture the cover film from a thin-walled, stretchable, elastic film which expands under the influence of a pulsating air flow and returns to its starting position relatively quickly. Below this cover film, a non-stretchable, relatively stable film or intermediate layer is attached to the first flexible film, which is distributed over the surface and is provided with circular openings. It is also possible to dispense with the arrangement of an intermediate layer and to firmly connect the stretchable end foil to the static pillows at the points of contact. Using a suitable unit and a proper duct system, the cavity is supplied with a pulsating air flow. As a result, the stretchable closing film in the area of the circular openings of the intermediate layer or in the area between the individual cushions is stretched upward in a roughly hemispherical manner and impulsively resumes its starting position due to its resilience. The one taking place

Contact with the patient's body surface causes a superficial skin massage, which leads to a significant improvement in the microcirculation in the blood vessels. The proposed support system can, due to the cavity formed, be adapted to the respective requirements, be equipped with different functional units either individually or in combination.

A decisive advantage for practical use is that the support system can be manufactured in various variants at extremely low cost and contributes to a significant reduction in health care costs. The base system as a base model can even be manufactured as a ready-made endless web. The support system is suitable for single use due to the low material and manufacturing costs. This results in considerable cost savings in hospital operations, since there is no need for time-consuming cleaning work, disinfection and sterile repackaging, as well as intermediate storage, as is required with the expensive mattresses used to date.

The film used to manufacture the support system should be transparent to X-rays and, if necessary, also suitable for use in high-frequency surgery. In addition to the main area of application as an operating table pad, the pad system can also be used in intensive care units and in the area of home nursing and elderly care, in particular for prophylaxis against decubitation in bedridden patients, as well as in emergency medicine. If necessary, the support system, especially for the latter area of application, can also be equipped with an insulating film, preferably made of aluminum, arranged underneath the flexible film. An aluminum pad still has the advantage, especially for young children and

Newborns that the support system can be adapted or modeled to the body shape directly on site.

Another advantage of the proposed support system is that it has a good insulating effect due to the fluid-filled static cushions. The body heat of the patient lying on the surface heats up the fluid medium in the static pillows and is stored in them and released again when necessary. This heat exchange becomes an independent one Body temperature regulation achieved over a longer period of time, which helps to prevent hypothermia in the patient during surgery. The term support system in the sense of the present invention is also understood to mean supports of smaller dimensions, which are only intended for certain body areas, such as the head or extremities.

The invention will be explained in more detail below using a few examples. Show in the accompanying drawing

1 shows a first embodiment variant of the support system, in a simplified perspective view, FIG. 2 shows a section along the line A-A in FIG. 1,

3 shows a second embodiment variant of the support system with a liquid suction, in a simplified perspective view, FIG. 4 shows a section along the line A-A in FIG. 3,

5 shows a third embodiment variant of the support system with a warm air zone and a liquid-absorbing support, in a simplified perspective view, FIG. 6 shows a section along the line AA in FIG. 5, FIG. 7 shows the detail “X” in FIG. 5 as a top view , in an enlarged view and

8 shows a fourth embodiment variant of the support system with a massage zone, as a simplified sectional illustration,

The support system shown in FIG. 1 consists of a first flexible film 1, known as a base film, with air-filled static cushions 2 arranged on one side, which have the shape of a parabola. The static air cushions 2 are arranged as parallel rows 3 and are each at a distance of approximately 0.5 cm. The individual air cushions 2 have a maximum diameter of approximately 3 cm and a height of approximately 1.5 cm. The film 1 with the air cushions 2 is produced from two or three-layer films, for example by coextrusion. By adjusting the welding electrodes and regulating the air supply, foils with pillows of different sizes of up to several cm can be produced at the desired intervals. The flexible film 1 can therefore also be a multi-layer film. A closing film 4 is loosely stretched over the cushions 2 of the film 1 and is equipped on the upper side with a skin-friendly and body-friendly lamination. Such films are known from the field of medical technology. The top of this film 4 forms the lying surface for the patient. The edge portions 4a of the end foil 4 are all-round with the foil 1 Welding connected. The weld seams are labeled 4b. There is also the possibility of additionally connecting the end foil 4 by an adhesive coating on the upper side of the pillows 2. A cavity 5 is formed by the available spaces between the cushions 2 and the covering film 4 spanning them, which is intended, according to the embodiment shown in FIGS. 1 and 2, as a collecting space for fluids, such as blood, rinsing fluid, etc., that arise due to operation. So that liquid that collects on the surface of the closing film 4 can run off into the collecting space 5, there are 4 holes 6 in the closing film, which are each arranged in the areas that cover the free space between the individual cushions 2. The individual holes 6 have a size of about 0.3 to 0.5 cm in diameter. This variant is characterized by a particularly cost-effective production and is used, for example, as an operating table support for operations that only require a short duration of the operation. For other purposes, such as in emergency medicine, an insulating film 19 can be arranged below the flexible film.

The embodiment shown in FIGS. 3 and 4 is intended for those applications in which large amounts of liquid are generated during the operation, which make a separate liquid suction necessary. The basic structure of the support system shown in these figures is analogous to that in FIGS. 1 and 2. In addition, small openings are provided on a transverse or longitudinal side of the support system in the area between the rows 3, through which flexible hoses 7 into the space between the rows of cushions 3 are inserted. After the tubes 7 have been inserted, the openings are closed again in a liquid-tight manner. The flexible hoses 7 are equipped with suction openings 7a and are connected outside the support system to a collecting line 8, which is connected to a suction device (not shown in more detail). If necessary, liquid is sucked out of the collecting space 5 via an automatic control. Due to the suction effect generated, the edges of the cover film surrounding the holes 6 are additionally pulled down slightly, thereby promoting the outflow of the liquid into the collecting space 5.

In contrast to the embodiment according to FIG. 1, this support system has different pillows 2a and 2b in size. The larger pillows 2b are located in the middle area of the support system, that is, where the greatest stress is expected from the patient. A further embodiment variant is shown in FIGS. 5 to 7. The cavity 5 serves as a warm air zone. On one side of the support system, a connection piece 9 is welded, via which warm air, which is generated in an external device, is blown into the cavity 5 forming the warm air zone. The closing foil 4 is provided with a large number of small pores 10, through which the warm air blown into the cavity 5 can escape and which forms a warm air cushion directly below the patient's body surface. In addition, this variant, which is used for long-lasting operations, can also be combined with drainage. In addition to the pores 10, holes or openings 11 are also arranged in the closing film 4, which are each located in the areas between the individual cushions 2. Holes or openings 12, which are congruent with the openings 11 in the end film 4, are likewise arranged in the first flexible film between the cushions 2. The edges of two congruent holes 11, 12 are connected to one another in a liquid-tight manner via a flexible intermediate ring 13, for example by welding. As a result, the support system has a plurality of vertical channels 14 through which the liquid can run downward, it being ensured that no liquid gets into the cavity 5. To hold the liquid, a base 15 which holds the liquid is attached to the underside of the flexible film 1. The pad 15 consists of a layer 15a of absorbent material and a liquid-tight cover 15b. Materials known from the field of hygiene can be used as the absorbent material. So-called superabsorbents made from biodegradable substances are particularly suitable. The base 15 can also be designed as a separate unit which is placed under the support system. The aforementioned version can also be equipped with a closed heat cycle system. In this case, the closing film 4 is airtight or liquid-tight, and therefore has no pores for air to escape. Then there is an outlet connection on the opposite side of the connection connection 9. The nozzles are connected to a suitable device for generating hot air or hot water, so that either hot air or hot water can be passed through the closed cavity 5. In this case, a uniform and constant heating of the support system is achieved without air being whirled up. Another embodiment variant with a massage zone is shown in FIG. The closing film 4 is airtight and consists of a stretchable, elastic material with sufficient resilience to return to the initial state relatively quickly after partial stretching. A thin-walled special film is preferably used for this. A non-stretchable, relatively stable intermediate layer 16 with circular openings 16a is arranged below this film 4. The openings 16a are located above the free space, in each case between individual cushions 2, and have a diameter of approximately 1 cm. At least the end film 4 is in an analogous manner as in the embodiment according to Fig. 1 connected to the flexible film 1 all around. The intermediate layer 16 can additionally be connected to the film 1 or the end film 4 or to the top of the pillows 2 to fix the position. The cavity 5 is connected on one side to a connecting piece 17 which is connected to a unit for generating a pulsating air flow stands. The air can also be heated, so that hypothermia of the patient can be avoided. By introducing a pulsating air flow into the cavity 5, the locations of the closing film 4, which are located directly above the circular openings 16a of the intermediate layer, are expanded approximately in the form of a semicircular ball 18, which returns to its initial state after the air flow has been relieved of pressure. A skin massage of the patient's body surface lying on the support system is achieved by the partial, impulsive movements of the end foil 4. This variant of the support system can, if necessary, also be equipped with drainage / drainage in accordance with the embodiment shown in FIG. 3.

Instead of air, the individual static cushions 2, 2a, 2b can also be filled with a suitable gas or a liquid. When using the proposed support systems in emergency medicine, it can be useful to equip the flexible film from below with an aluminum film, which provides additional insulation and protection against hypothermia. An aluminum foil also opens up the possibility of individually adapting the support system to the body shape, since the aluminum foil maintains its predetermined position without external influences. The support system intended for single use can be inexpensively manufactured in different sizes, depending on the patient's body weight.

Claims

claims

1. Air-cushioned support system as a patient bed, in particular for operating tables, consisting of at least one first flexible layer or film (1) with a defined number of fluid-filled static cushions (2, 2a, 2b) spaced apart from one another by at least one other Usable area for the patient-forming cover film (4) is spanned, which is connected to the first film (1) and / or the pillows (2, 2a, 2b), the free spaces between the individual pillows (2, 2a, 2b) The first film (1) and the end film (4) are formed in a cavity (5) which extends over the entire usable area and which preferably serves as a collecting room for fluids resulting from operational reasons or as a temperature zone or as an additional massage zone.

Support system according to claim 1, characterized in that holes (6) for draining liquid are arranged in the closing film (4), each of which is located above the free spaces between the individual cushions (2, 2a, 2b).

3. support system according to one of claims 1 or 2, characterized in that in the cavity (5) flexible hoses (7) are arranged with a plurality of openings (7a) for the discharge of accumulated liquid, which are guided outside the support system and in a collecting line (8) open, which is connected to a suction device.

4. support system according to claim 1, characterized in that in the first film (1) and in the end film (4) between the pillows (2, 2a, 2b) holes (11, 12) for draining liquid are arranged congruently ,

5. Auflagage system according to claim 4, characterized in that the edge portions delimiting the openings of two congruent holes (11, 12) are connected to each other either directly or via interposed spacer rings (13) and form drainage channels (14).

6. support system according to one of claims 4 or 5, characterized in that below the first film (1) a base (15) made of a liquid-absorbing material (15a) is arranged, the underside of which with a liquid-repellent coating or film (15b ) is equipped.

7. support system according to claim 6, characterized in that the liquid-absorbing material (15a) is a biodegradable superabsorbent.

8. support system according to one of claims 1 to 7, characterized in that to form a tempering zone in the end film (1) air-permeable pores (10) are arranged and the cavity (5) is in communication with a hot air generating unit and continuously hot air from flows through the pores (10).

9. support system according to one of claims 1 to 7, characterized in that to form a temperature zone, the end film (1) is air and liquid-tight and the cavity (5) via flexible lines to a warm or cold air or warm or Cold water circuit station is connected.

10. Support system according to one of claims 1 to 7, characterized in that to form a massage zone, the end film (1) consists of a stretchable, elastic film, and below this a non-stretchable intermediate layer (16) with a plurality of round openings (16a ) is arranged, and the cavity (5) is connected via a flexible line to a unit generating a pulsating air flow, bulges (18) forming immediately above the openings (16a), which return to their starting position.

11. Support system according to one of claims 1 to 7, characterized in that to form a massage zone, the end film (1) consists of a stretchable, elastic film which is firmly connected to the individual static pillows (2, 2a, 2b), and the cavity (5) is connected via a flexible line to a unit generating a pulsating air flow, bulges (18) forming in the area between the individual cushions (2, 2a, 2b), which return to their starting position.

12. Support system according to one of claims 1 to 11, characterized in that the upper side of individual cushions (2, 2a, 2b) is connected point-wise to the end film (1) or the intermediate layer (16) arranged below the end film (1).

13. Support system according to one of claims 1 to 12, characterized in that the static cushions (2, 2a, 2b) are arranged as rows (3) and at equal distances from one another.

14. Support system according to one of claims 1 to 13, characterized in that the pillows (2, 2a, 2b) are designed differently in size depending on the weight and the weight distribution of the patients.

15. Support system according to one of claims 1 to 14, characterized in that the liquid-absorbing base (15) is connected to the first flexible film (1).

16. Support system according to one of claims 1 to 15, characterized in that a further film as an insulating film (19) is arranged below the first flexible film (1) or the base (15).

17. Support system according to one of claims 1 to 16, characterized in that the insulating film (19) is designed as an individually adaptable to the body shape of the patient aluminum foil.