DEVICE FOR THE ULTRASOUND TREATMENT OF OPEN WOUNDS

Abstract

An ultrasound-assisted wound cleanser in the form of a handheld device includes an integrated vibration motor, an integrated ultrasound generator, an integrated energy source for the vibration motor and the ultrasound generator, and a replaceable cleansing attachment which can be driven by the vibration motor for abrasively removing wound coatings. The cleansing attachment has an acoustic transducer which is designed to convert the electric oscillations generated by the ultrasound generator into sound waves, a device for reinforcing and/or distributing and/or transferring the ultrasound waves, and bristles and/or lamellas for the abrasive removal. Further, a method for cleansing wounds includes moving a cleansing attachment with bristles for abrasively removing wound coatings by a vibration motor. The cleansing attachment is oscillated by an ultrasound generator, and the oscillations for supporting the removal of wound coatings are transmitted into the wound via a transmission medium.

Claims

1. An ultrasound-assisted wound cleanser in the form of a handheld appliance with an integrated vibration motor, an integrated ultrasound generator, an integrated energy source for the vibration motor and for the ultrasound generator, and a replaceable cleansing attachment which can be driven by the vibration motor for the purpose of abrasively removing wound coatings, wherein the cleansing attachment has an acoustic transducer, which is designed to convert the electric oscillations generated by the ultrasound generator into sound waves, a device for strengthening and/or distributing and/or transmitting the ultrasound waves, and bristles and/or lamellas for the abrasive removal.

2. The ultrasound-assisted wound cleanser as claimed in claim 1, characterized in that the bristles and/or lamellas are designed in such a way that they protrude past the other structural parts of the cleansing attachment during the wound cleansing.

3. The ultrasound-assisted wound cleanser as claimed in claim 1, characterized in that the cleansing attachment has a bristle ring for the abrasive removal.

4. The ultrasound-assisted wound cleanser as claimed in claim 3, characterized in that the cleansing attachment has a further bristle ring which is arranged surrounding the device for strengthening and/or distributing and/or transmitting the ultrasound waves, in such a way that a propagation of aerosols is suppressed.

5. The ultrasound-assisted wound cleanser as claimed in claim 1, characterized in that the handheld appliance has a cleansing attachment identification device.

6. The ultrasound-assisted wound cleanser as claimed in claim 1, characterized in that the vibration motor operates with an adjustable frequency of 100 to 5000 Hz.

7. The ultrasound-assisted wound cleanser as claimed in claim 1, characterized in that the ultrasound generator generates a frequency of 20 kHz to 2 MHz, preferably 20 kHz to 1 MHz, more preferably 20 kHz to 500 kHz, more preferably 20 kHz to 100 kHz, more preferably 20 kHz to 50 kHz.

8. The ultrasound-assisted wound cleanser as claimed in claim 1, characterized in that the frequency generated by the ultrasound generator is adjustable.

9. The ultrasound-assisted wound cleanser as claimed in claim 1, characterized in that the energy source is an accumulator which can preferably be charged via an inductive charger.

10. A method for cleansing wounds, in which method a cleansing attachment with bristles for abrasively removing wound coatings is moved via a vibration motor, the cleansing attachment is oscillated via an ultrasound generator, and the oscillations for assisting in the detachment of wound coatings are transmitted into the wound via a transmission medium.

11. The method as claimed in claim 10, characterized in that the cleansing attachment is moved in rotation, in particular in intermittent rotation.

12. The method as claimed in claim 10, characterized in that the vibration motor generates a vibration with a frequency of 100 to 5000 Hz.

13. The method as claimed in one of claims 10, characterized in that the transmission medium is a water-based medium or a gel.

14. The method as claimed in claim 13, characterized in that the water-based medium or gel contains a solvent or a disinfectant, in particular polyhexamethylene biguanide, to kill germs.

15. The method as claimed in claim 10, which method is carried out using an ultrasound-assisted wound cleanser as claimed in claim 1.

16. A wound-cleansing system comprising: an ultrasound-assisted wound cleanser in the form of a handheld appliance with an integrated vibration motor, an integrated ultrasound generator, an integrated energy source for the vibration motor and for the ultrasound generator, and a replaceable cleansing attachment, which can be driven by the vibration motor for the purpose of abrasively removing wound coatings, wherein the cleansing attachment has an acoustic transducer, which is designed to convert the electric oscillations generated by the ultrasound generator into sound waves, a device for strengthening and/or distributing and/or transmitting the ultrasound waves, and bristles and/or lamellas for the abrasive removal, and a transmission medium for transmitting the oscillations into the wound.

17. The wound-cleansing system as claimed in claim 16, wherein the transmission medium is a gel or a water-based medium.

18. The wound-cleansing system as claimed in claim 17, wherein the transmission medium contains a solvent or a disinfectant, in particular polyhexamethylene biguanide, to kill germs.

Description

[0026] Further features and advantages of the invention will become clear from the following illustrative embodiments described with reference to the figures, in which:

[0027] FIG. 1 shows an ultrasound-assisted wound cleanser in the form of a handheld appliance according to the invention,

[0028] FIG. 2 shows an alternative cleansing attachment of a wound cleanser according to the invention, and

[0029] FIG. 3 shows a part of a further alternative cleansing attachment according to the invention.

[0030] FIG. 1 shows an ultrasound-assisted wound cleanser 1 according to the invention in the form of a handheld appliance. The wound cleanser comprises a base 2 and a replaceable cleansing attachment 3. The base 2 comprises an accumulator 12 and an inductive changer 11 for charging the accumulator 12. The base 2 moreover comprises an ultrasound generator 13, i.e. a generator for generating a high-frequency current. The frequency of the high-frequency current is adjustable between 20 kHz and 2 MHz via the control switch 18. The adjusted frequency is shown on the optical display element 19. The high-frequency current generated by the ultrasound generator 13 is conveyed via contact points 17a, 29a in the base 2 and in the cleansing attachment 3 and via an electrical lead 28a to an acoustic transducer 24. The acoustic transducer 24 is arranged in the front area of the cleansing attachment 3, the bristle head 31. The acoustic transducer 24 converts the high-frequency current into high-frequency ultrasound waves. A piezo crystal is used as acoustic transducer 24. The acoustic transducer 24 is connected to a counterweight 25, which is used as an inertial mass for generating the ultrasound waves and thus serves for the directed propagation of the sound waves. In addition, the sound waves are transmitted via a sonotrode 21 into the wound that is to be treated.

[0031] The base 2 further comprises a vibration motor 15. The output shaft of the vibration motor 15 is connected with form-fit engagement to the cleansing attachment 3 via a plug-in connector 30, in order to set bristles 22, 23 of the cleansing attachment into an intermittent rotary or linear movement via a mechanism not shown.

[0032] The wound cleanser 1 additionally has a system for identifying the attached cleansing attachment 3. For this purpose, a random access memory 14 is connected by contact points 17b, 29b and an electrical conductor 28b to a chip 26 in the cleansing attachment 3. Identification of the cleansing attachment ensures that the base 2 detects what kind of cleansing attachment 3 is involved and knows the technical data, for example nature of the bristles, functions of the cleansing attachment and the technical parameters of the latter. This makes it possible, on the one hand, that the cleansing attachment 3 is controlled according to its constraints. On the other hand, identification of the cleansing attachment ensures that each bristle attachment is used only once, so as to suppress transmission of germs. Moreover, identification of the cleansing attachment can eliminate the use of unapproved or incorrect cleansing attachments. To ensure also that an already used cleansing attachment cannot be used in connection with a second base 2, the use is stored on the chip 26 of the cleansing attachment 3.

[0033] The cleansing attachment 3 also has UV diodes 27 in its front area. The UV diodes emit UV radiation during the treatment, i.e. during operation of the wound cleanser 1, in order to kill germs. The UV diodes 27 are connected to the base 2 via the electrical conductor 28c and the contact points 29c and 17c and are accordingly controlled by said base 2.

[0034] To control the functions of the wound cleanser 1, such as ultrasound generation, vibration, UV irradiation and identification of the cleansing attachment, the base 2 has a control board 20. The latter is connected to the individual modules such as ultrasound generator 13 and vibration motor 15. In addition, the control board 20 is connected to the operating switch 18 and to a screen as visual display element 19, in order to adjust the various functions and modes or to display the current operating mode.

[0035] In its front area, the cleansing attachment 3 has a bristle ring 22, which encircles the acoustic transducer or the sonotrode 21 and suppresses the propagation of aerosols. The bristle ring 22 forms, as it were, a protective shield that avoids contamination of the environment. The bristles 23 arranged centrally on the cleansing head are provided for the mechanical or abrasive removal of wound coatings. When using the wound cleanser 1, in particular for cleansing chronic wounds, a cleansing attachment 3 packaged as a sterile disposable product is first of all placed onto the base 2. The cleansing attachment is identified by the cleansing attachment identification electronics, and the latter ascertain whether the cleansing attachment 3 is a suitable one. The operating parameters, for example the frequency and amplitude of the ultrasound generator, the frequency of the vibration motor and the use of the UV diode, are preselected via the operating switch 18.

[0036] The wound is pre-treated with a gel, i.e. a pain-relieving or numbing gel with disinfection substances is introduced into the wound. After a predefined duration of action, the wound is cleaned using the wound cleanser 1. On the one hand, fibrin coatings, i.e. products of blood coagulation, are removed from the wound by mechanical abrasion by means of the bristles 23. On the other hand, microcavitation is generated in the wound by the ultrasound, as a result of which the biofilm with its bacteria is forced open. After the cleansing attachment 3 has been put into operation, it is labeled in the chip 26 as having been used, such that further use of the same cleansing attachment 3 is prevented. This also serves to prevent inadvertent re-use on the next patient and therefore to prevent contamination. The cleansing attachment 3 is thus disposed of after it has been used once to clean a wound.

[0037] FIGS. 2 and 3 show alternative embodiments of the cleansing attachment 3. The design of the cleansing attachments 3 differs depending on the type of wound that is to be cleaned. For deeper wound areas or wound pockets, the cleansing attachment 3 has a corresponding length and is optionally flexible, i.e. bendable to adapt to the shape of the wound. In contrast to the cleansing attachment 3 according to FIG. 1, the cleansing attachment shown in FIG. 2 has two bristle rings 22, 23. Both bristle rings 22, 23 are arranged concentrically around the sonotrode and protrude past the latter in the longitudinal direction of the bristles, such that an exposed cleansing surface is formed. The bristles 22, 23 and the bristle head 31 are inclined by a predefined angle with respect to the main orientation of the cleansing attachment 3.

[0038] The embodiment according to FIG. 3 differs from the embodiment according to FIG. 2 in that the cleansing attachment has no UV diodes for killing germs. In addition, the bristle head 31 is inclined by 90 to the main direction of extent of the cleansing attachment 3.

LIST OF REFERENCE SIGNS

[0039] 1 wound cleanser [0040] 2 base [0041] 3 cleansing attachment [0042] 11 inductive charger [0043] 12 accumulator [0044] 13 ultrasound generator [0045] 14 random access memory [0046] 15 vibration motor [0047] 16 plug-in device [0048] 17a, b, c contact points [0049] 18 switch [0050] 19 optical display [0051] 20 control board [0052] 21 sonotrode [0053] 22 first bristle ring [0054] 23 second bristle ring [0055] 24 acoustic transducer [0056] 25 counterweight [0057] 26 chip [0058] 27 UV diode [0059] 28a, b, c electrical conductor [0060] 29a, b, c contact points [0061] 30 plug-in connector [0062] 31 bristle head