DE19918288A1 - Ear reflectometer; has measuring point to fit in ear canal and device to observe ear canal, which includes light conductor coupled between lens at measuring point and eye piece or viewing device - Google Patents

Abstract

The reflectometer has a measuring point (1) that fits inside the ear canal and a device to observe the ear canal (20). The device to observe the ear canal includes a light conductor (5) coupled at one end to a lens (6), which is arranged at the front end of the measuring point, and coupled at the other end to an eye piece (8) or viewing device (9). A light source (4) illuminates the ear canal.

Description

The invention relates to an ear reflectometer with an observation device.

A conventional ear reflectometer measures the condition of the middle ear by transmission of sound waves with different frequencies and registration of the right on the eardrum inflected sound waves. It usually has a measuring tip in which a sound source and a microphone are arranged such that when using the reflectometer from the Sound source Sound waves through an end of the measuring tip towards the ear canal the eardrum emitted and sound waves reflected from there through the Mi microphone can be received. This can ge the impedance of the eardrum will measure. The impedance of the middle ear changes with the amount of fluid that has accumulated in the middle ear. When using a conventional Ear reflectometer, the measurement result is noticeable by the respective geometry of a Ear canal determined. Bends can direct sound propagation towards the Prevent the eardrum whose impedance is to be determined. Here is a subjectively cor correct seating of the measuring tip in the ear does not guarantee correct alignment of the loudspeaker chers and the microphone on the eardrum. In the worst case, one leads partially Covering the field of view of the loudspeaker and the microphone by, for example, a Skin fold to a strong directional dependence of the measured or reflected sound waves and thus too coarse incorrect measurements with poor reproducibility.

From US-A-4,434,800 a device for ear examination is known, in which in a measurement tip a sound source and a light source are arranged. By sending out Sound waves cause the eardrum to vibrate. From the light source to the Ge visible light emitted by the ear canal is reflected by the vibrating eardrum. The reflected light is transmitted through a beam splitter to a photodetector and an eyepiece fed so that the ear canal is viewed and the measuring tip in the direction of the trom can be aligned.

In US-A-5,239,984 an additional device for an otoscope is described, through which the image information supplied by the otoscope on the one hand the eyepiece of the additional device and on the other hand, it is fed through a beam splitter to a video camera. This makes it possible  the treating physician, the image information in a practical way on a display device To have available, which facilitates the alignment of the measuring tip in the ear canal.

The present invention has for its object to provide an ear reflectometer, in which the correct alignment of the measuring tip in the ear canal can be checked.

This object is achieved in that an ear reflectometer according to the invention with egg ner observation device is provided, which preferably has a light guide. On A particularly advantageous light guide for an ear reflectometer according to the invention is a Glass fiber bundle that extends from the front end of the measuring tip to an eyepiece or egg NEM image capture device, and through which the ear canal can be viewed. At A preferred embodiment of an ear reflectometer according to the invention is at the front Ren end of the probe tip a lens to which the light guide with one end is coupled. The other end of the light guide is with the eyepiece and / or the image connected device. An ear reflectometer according to the invention preferably contains also a light source for illuminating the ear canal, which is advantageous in the measurement tip is arranged so that by an existing at the front end of the probe tip light can enter the ear canal.

In another embodiment of an ear reflectometer according to the invention, the Light guide a coupling point at which light emitted by the light source into the light guide can be coupled. The light guide then guides the light to its front end and radiates it into the ear canal.

Light emitted by the ear canal is absorbed by the lens and by the light head to the eyepiece. This makes it possible for a treating person to take the measurement align the tip correctly in the ear canal so that impedance measurements are reliable and repro can be carried out. The image available on the eyepiece formation can advantageously be achieved by using a beam splitter or the like a video camera can be fed to a screen. The invention thus enables image Images of the inner ear canal and the eardrum during treatment.

Exemplary embodiments of the present invention are described below with reference to the figures explained in more detail. In a schematic representation:  

Fig. 1 shows a first embodiment of an ear reflectometer according to the invention, wherein the light source is connected to the light guide via a branch;

Fig. 2 shows a second embodiment of an ear reflectometer according to the invention, in which the light source is arranged independently of the light guide in the measuring tip.

In Fig. 1, the basic structure of a first embodiment of the present invention is shown. The ear reflectometer 10 according to the invention has a measuring tip 1 with a sound outlet opening at its front end, which, as shown in Ge, is inserted into the ear canal 20 to determine the sound impedance of the eardrum 30 . For this purpose, a sound source 2 , for example a loudspeaker, and a microphone 3 in miniature size are installed in the reflectometer 10 in a manner known per se, through which the impedance of the eardrum can be measured over a specific sound frequency range. The auditory canal is illuminated by visible light from a light source 4 , which is coupled into a light guide 5 via a branch. At the end of the light guide 5 on the auditory canal side, it is coupled to a lens 6 . The light cone 7 emerging through the lens 6 illuminates the auditory canal 20 . A large part of the light reflected back from there arrives again through the lens 6 and is focused by the latter onto the light guide 5 . The light guide 5 is coupled at its end opposite the end on the auditory canal end to an eyepiece 8 through which the auditory canal and the alignment of the measuring tip 1 in the auditory canal can be viewed. However, it can also be provided, as indicated by an arrow, to feed the image information present on the eyepiece 8 to a viewing device 9 , for example a screen, via a video camera.

In FIG. 2, a second embodiment is shown of an ear reflectometer 10 in which the light source 4 is arranged separately in the probe-tip 1. In this case, it is advantageous if the inner walls of the measuring tip 1 are designed to be reflective. In principle, however, the light source 4 can also be inserted in a suitable manner outside the measuring tip 1 together with the measuring tip 1 into the auditory canal. The latter is admittedly in use because the light source 4 must always be adjusted. However, there are more possibilities in the positioning of the light source 4 and the preferred illumination of certain parts of the auditory canal.

The radiation from the light source 4 does not necessarily have to be in the visible spectral range. If, for example, there is no direct visual inspection through the eyepiece and the image information is only processed electronically and displayed on a visual device or recorded by a video camera, an infrared-emitting light source can also be used, for example. If necessary or desirable, it is also possible to arrange a plurality of light sources whose emitted light radiation according to the first exemplary embodiment can be coupled into the light guide by means of a plurality of branches.

The light guide, which can consist of a flexible or rigid glass fiber bundle, thus forms an endoscope according to the present invention, at one end of which the lens 6 is located and at the other end of which the eyepiece 8 is coupled. With a correspondingly large opening angle of the lens 6 and optimal illumination of the auditory canal, the endoscope enables a direct view into the auditory canal. The lens 6 is preferably not much larger than the diameter of the light guide, so that there is still enough space for the sound outlet at the front end of the measuring tip.

In the ear reflectometer according to the invention, video recordings of the ear canal and are made from the eardrum, which are also saved for possible later evaluations can be saved. A direct examination of the ear canal and its morphology this becomes possible. Questions about the curvature of the ear canal and the amount of Oh Lard can be clarified. It can be examined to what extent these factors influence an impedance measurement or how an impedance measurement can be improved can. At the same time as the impedance measurement of the eardrum, the direct view in provided an additional examination method for the ear canal. A diagnosis pathological changes (e.g. a fluid accumulation in the middle ear) is this safer possible. The treating person also has the option of giving the patient pictures to show his own ear canal and eardrum and so z. B. Diagnosis and Thera explain and present pie in a more understandable way. In the arrangement according to the invention it is also possible to make a rough measurement error, such as when placing it directly the probe tip on tissue is recognizable.

Claims (5)

1. ear reflectometer with a measuring tip that can be inserted into an ear canal and a device for observing the ear canal, which preferably has a light guide ( 5 ). 2. ear reflectometer according to claim 1, characterized in that the observation device has at least one lens ( 6 ) which is arranged at a front end of the measuring tip ( 1 ), and that the light guide ( 5 ) with its one end to the Lens ( 6 ) is coupled. 3. ear reflectometer according to claim 1 or 2, characterized in that the light guide ( 5 ) is connected at its other end to an eyepiece ( 8 ) and / or an image recording device ( 9 ). 4. ear reflectometer according to claim 1, 2 or 3, characterized in that it has a light source ( 4 ) for illuminating the ear canal. 5. ear reflectometer according to claim 4, characterized in that the light guide ( 5 ) has a coupling point, at which light emitted from the light source ( 4 ) can be coupled into the light guide ( 5 ) and through the light guide ( 5 ) into the auditory canal can be radiated.