DE10049068A1 - Radiation device for use in treating ear conditions, such as tinnitus, using low level laser light therapy, has an ear piece that can be precisely positioned in the user's ear to ensure that the radiation is effective - Google Patents

Abstract

Irradiation device comprises power supply, timer, dosimetry device for adjustment and control of the light power, a safety device that automatically shuts off the device when a threshold power level is exceeded and a combined light emission unit and meter to ensure a constant power level. A position element ensures that the light beam enters the ear and has dimensions matched to an individual ear to ensure that the radiation acts on the correct part of the ear.

Description

The invention relates to an irradiation device, in particular for irradiating a Ear area of a patient, with a light emission unit and with it radiation-connected connected supply unit, wherein the light emission unit at least one radiation source which emits incoherent radiation, and has at least one positioning element.

The so-called tinnitus is an inner ear disorder that is characterized by a sound in the ear, a whistling, roaring or ringing that has no external sound source is assignable, expresses. The therapeutic approaches are very diverse. A therapeutic one Approach is the irradiation with laser light in the low-energy range, which too Low-level laser therapy (LLLT) is called. This radiation stimulates according to experimental studies of cell metabolism, which has beneficial effects on that Tinnitus has happened.

A well-known treatment device for the therapy of tinnitus, which has a low-level Has laser irradiation device, the so by means of a fastening device Can be attached to a patient's ear that the laser beam on at least one Affects the area of the ear is described in WO 96/36396. That revealed The device is carried by the patient for the duration of the treatment. The low Level laser irradiation device can be in the fastening device itself be accommodated, preferably a light guide device is provided, over which the laser beam emitted by the laser irradiation device may be  a lens is supplied, from which the beam finally emerges and towards irradiating areas, such as the eardrum. It can the fastening device is an existing device, such as a spectacle frame be or a specially designed bracket that can be attached to the ear or an in the ear insertable part. Another known treatment device based on the LLLT is described in DE 298 08 193 U1.

However, the low-level laser irradiation device can also be used separately, for example in a bag can be carried, the laser beams then via a flexible Light guide device get to the ear.

However, it is disadvantageous that the known radiation devices, for. T. a lot of space and is therefore not particularly comfortable for the patient. This is under due to the fact that the low-level laser irradiation device is usually connected to a control element. Next to it preferably a light guide device and a lens are used. The laser beam must also be positioned carefully and precisely. Furthermore, the Use of lasers requires additional protective devices that prevent that areas other than the intended areas are irradiated by the laser.

The latter disadvantage occurs in the device described in JP 102 86 277 A Irradiation of an ear area does not occur. This device is in a headphone arranged and has a series of tiny battery-operated color lamps, with which the ear area, in particular can be heat treated. The device is also used in the treatment of tinnitus. However, the points in this Document described device no means for exact positioning of the Light sources and is therefore not particularly useful for the therapy of tinnitus suitable.

Accordingly, it is the object of the invention to provide an irradiation device Provide initially mentioned type that takes up little space, essential is easier to use and ensures exact positioning.

This object is achieved by an irradiation device according to the features of the independent claim.

Advantageous configurations are described in the subclaims.

An irradiation device according to the invention for irradiating an ear area a patient has a supply unit and a light emission unit, wherein the supply unit is a device for supplying power to the Irradiation device, a timer for determining the duration of the irradiation, a Dosimetry device for setting and controlling the light output and a Safety device for automatic shutdown of the radiation device Includes exceeding a predetermined threshold and Light emission unit a light power measuring device for preservation and Determination of a constant light output during the irradiation of the ear area and the positioning element is detachably fastened in the ear of a patient, the shape, length and diameter of the positioning element are individually and organ-specifically designed such that the incoherent radiation acts on a predetermined area of the ear. This is the inventive one Understanding that incoherent rays have comparable cell metabolism have stimulating effects like coherent radiation and therefore for Therapy of tinnitus or vertigo can be used. This could be done through numerous experimental investigations can be proven.

The radiation device according to the invention can therefore be a simple one Contain radiation source that emits incoherent radiation. This allows the Irradiation device can be kept small. In addition, the Reduced costs and the effort to manufacture the radiation device, since none  Lasers, no separate light guide devices, optics and no special ones Precautions or devices are necessary to prevent unwanted radiation with high-energy coherent radiation. Through those listed Simplifications also increase patient comfort. The Irradiation device according to the invention basically consists of a Supply unit and a light emission unit. The supply unit can with a suitable carrying device (e.g. belt, belt, ...) can be worn on the body. The light emission unit is positioned in the ear canal. By separating this In both elements, the light emission unit can advantageously be kept small become. Supply unit and light emission unit are over one radiation-conducting cable connected to one another, in one embodiment the Cable is firmly connected to the light emission unit and to the supply unit a plug connection is formed. Due to the special design of Light emission unit and supply unit according to this embodiment can these devices can only be used in combination. Can advantageously a constant light output during the Irradiation of the ear area can be achieved and determined. It is about advantageously an active feedback control of the emitting light output. This also makes it possible to increase the radiation characteristics of the emitter monitor, which also reflects the wear of the emitter. Furthermore is guaranteed by the dosimetry device that an individual radiation or Treatment of the inner ear can be carried out. For this an acoustic Frequency range gradually z. B. with a switch or a special acoustic Frequency continuously z. B. with a potentiometer of tinnitus noise adjusted and thus the light output according to the known light transmission to the inner ear or to the cochlea. According to the invention, the shape that Length and diameter of the positioning element individually and are organ-specific, it is guaranteed that the incoherent radiation acts on a predetermined area of the ear and thus a maximum Treatment success guaranteed. It also increases through this individual Design of the positioning element of comfort for the patient clearly. There  the positioning element is detachable in the ear, especially in the outer auditory canal can be introduced, elaborate fastening devices on the patient's head superfluous. This in turn means enormous treatment comfort for the Patient. The positioning element can be in a helmet, an eyeglass frame, a Earrings, a hearing aid, headphones, a headband or an ear hook be integrated. This allows, among other things, existing fastening devices can be used.

An advantageous further development of the invention provides that the light emission unit is positioned in such a way that the incoherent radiation acts on areas of the middle ear and / or inner ear via the external auditory canal and in particular the eardrum, the irradiated areas of the middle ear and / or inner ear due to their respective Distance to the radiation source can be assigned to a certain acoustic frequency range and the positioning of the light emission unit takes place according to an audiometrically determined acoustic frequency range of a chronic complex inner ear disorder of a patient. This is based on the finding that tinnitus is a disease of the cochlea located in the inner ear, which is located behind the eardrum, so that radiation on the eardrum from the external auditory canal can advantageously affect the target organ, the cochlea. In addition, this result according to the invention is based on the knowledge that the transmission of the light is damped in particular by the scattering in the bone. Since the cochlea is helical, the individual turns are at different distances from the radiation source in the ear canal. Each position in the turn corresponds to a certain acoustic frequency. The tinnitus noise can be defined audiometrically in the frequency range and thus assigned to a corresponding position in the cochlear windings. Taking into account the measured transmission of the light and an exact position of the radiation source, it can thus be calculated according to the invention under which light parameters the necessary light dose can or must be applied in a predetermined area of the cochlea (winding). Adjacent turns are therefore either underdosed (distance to the radiation source is greater) or overdosed (distance to the radiation source is smaller). Neither dose range induces a detectable biomodulative effect. Biomodulative effects are particularly induced when the light dose is between 4 and 8 J / cm ² .

Another advantageous development of the invention is that the radiation source there is at least one light emitting diode. First, LEDs are particularly inexpensive, secondly, a light-emitting diode can be designed so small that it can be positioned directly in the inner ear. The LED also develops one certain controllable heat that can be positively effective for treatment can be viewed (combination therapy). If necessary, by means of Irradiation device even targeted heating of cold ears.

Another advantageous development of the invention provides that the Radiation source through at least one radiation conduction element with the Positioning element is connected. In this case, the radiation source does not have to necessarily have dimensions that make it possible to directly point the radiation source to direct or position the ear area to be irradiated.

Another advantageous development of the invention provides that the Light emission unit at least one detection unit for determining the distance the radiation source to the eardrum. The detection unit can be used be connected to at least one radiation line element, the Radiation line element is guided past the radiation source and to Forwarding remission values of the eardrum to the detection unit is trained. In addition, the detection unit can have a control device, the control device for remission values outside a predetermined one Tolerance range an activation of the radiation source and an associated Prevents radiation of incoherent radiation. This ensures that the Distance between the radiation source and the eardrum is clearly defined and the dosimetry is thus optimized. For remission values outside of a  The therapeutic emission cannot be started within the tolerance range. Within the emitted light output can be regulated within the tolerance range and is therefore a reproducible dosimetry guaranteed. In another embodiment of the Invention can also light into this radiation guide element or this detection fiber another wavelength, d. H. different from the wavelength of that of the Radiation source of emitted light, for the improvement of the reflectance measurement be coupled.

Another advantageous development of the invention provides that the Radiation source and / or the flexible radiation conduction element in the Positioning element are formed.

Another advantageous development of the invention provides that Positioning element is a flexible cylinder with an opening along the cylinder. A positioning element shaped in this way enables insertion into the outer one Ear canal and also the placement of the radiation source and / or the Radiation conduction element in the opening of the cylinder.

Another advantageous development of the invention provides that the Radiation source emits invisible radiation, which is also positive May have an impact in the treatment of tinnitus. Is in the invention Guiding light is implemented despite the use of invisible radiation emitting radiation source an alignment of the ear area to be irradiated guaranteed.

Another advantageous development of the invention provides that the Supply unit a switch for manual on / off switching of the Irradiation device, a capacity test unit for a battery and / or Battery, an indication of the duration of radiation with an acoustic and / or optical Signal output at the end of radiation and an adjustable activation protection has device.  

Another advantageous development of the invention provides that the Safety device for automatically switching off the radiation device has a temperature sensor. The temperature measurement can be done via the The forward voltage of the light-emitting diode is determined.

Another advantageous development of the invention provides that the Light emission unit a counting mechanism for the passive limitation of the Has lifetime of the radiation source. This ensures that the Radiation source even before radiation fluctuations occur due to high Lifespan can be replaced, ensuring a constant radiation output at all times given is.

The radiation device according to the invention is used in therapy a chronic complex inner ear disorder of a patient, especially in the Treatment of tinnitus and vertigo.

Claims (17)

1. Irradiation device, in particular for irradiating an ear area of a patient, with a light emission unit and a supply unit connected to it in a radiation-conducting manner, the light emission unit having at least one radiation source which emits incoherent radiation and at least one positioning element, characterized in that the supply unit has a device for supplying voltage of the irradiation device, a timer for determining the duration of the irradiation, a dosimetry device for setting and controlling the light output and a safety device for automatically switching off the irradiation device when a predetermined threshold value is exceeded, and the light emission unit has a light power measurement device for maintaining and determining a constant light output during the irradiation of the Has ear area and the positioning element is releasably attached to the ear of a patient t, the shape, the length and the diameter of the positioning element being individual and organ-specific, such that the incoherent radiation acts on a predetermined area of the ear. 2. Irradiation device according to claim 1, characterized,  that the light emission unit is positioned such that the incoherent Radiation through the external ear canal and the eardrum to predetermined Areas of the middle ear and / or inner ear acts, the irradiated Areas of the middle ear and / or inner ear due to their respective distance a certain acoustic frequency range for the radiation source are to be assigned and the positioning of the light emission unit accordingly an audiometrically determined acoustic frequency range chronic complex inner ear disorder occurs in a patient. 3. Irradiation device according to one of the preceding claims characterized, that the radiation source consists of at least one light emitting diode. 4. Irradiation device according to one of the preceding claims, characterized, that the radiation source with at least one radiation conduction element the positioning element is connected. 5. Irradiation device according to one of the preceding claims, characterized, that the light emission unit has at least one detection unit for determination of the distance of the radiation source to the eardrum. 6. Irradiation device according to claim 5, characterized, that the detection unit with at least one radiation conduction element is connected, wherein the radiation guide element at the radiation source is passed and for the transmission of remission values of the eardrum is designed to the detection unit. 7. Irradiation device according to claim 5 or 6,  characterized, that the detection unit has a control device, the Control device for remission values outside a predetermined one Tolerance range an activation of the radiation source and thus combined radiation of incoherent radiation prevented. 8. Irradiation device according to one of the preceding claims, characterized, that the radiation source and / or a flexible radiation conduction element in the positioning element are formed. 9. Irradiation device according to one of the preceding claims, characterized, that the radiation source emits invisible radiation. 10. Irradiation device according to claim 9, characterized, that a guide light is implemented in the irradiation device. 11. Irradiation device according to one of the preceding claims, characterized, that the positioning element is a flexible cylinder with an opening along the Cylinder. 12. Irradiation device according to one of the preceding claims, characterized, that the supply unit has a switch for manual on / off switching of the Has irradiation device. 13. Irradiation device according to one of the preceding claims, characterized,  that the supply unit is a capacity test unit for a battery and / or has a battery. 14. Irradiation device according to one of the preceding claims, characterized, that the supply unit an indication of the duration of radiation with a has acoustic and / or optical signal output at the end of radiation. 15. Irradiation device according to one of the preceding claims, characterized, that the supply unit has an adjustable activation protection device having. 16. Irradiation device according to one of the preceding claims, characterized, that the safety device for automatic shutdown of the Irradiation device has a temperature sensor. 17. Irradiation device according to one of the preceding claims, characterized, that the light emission unit has a counting mechanism for passive limitation has the life of the radiation source.