WO1997042869A1 - Device for detecting carious tooth material, and/or especially tooth-coloured tooth restoration - Google Patents

Abstract

A device for detecting carious tooth material and/or tooth-coloured tooth restoration is to provide a means by which dental caries can be precisely detected and localised. This is achieved by a laser source (1) to which is connected a first optical fibre (2), the free end of which can be directed on the tooth material, and a system (3, 4) for receiving the light emitted by the tooth material after laser irradiation or the light from the laser source scattered on the tooth material, said system (3, 4) being connected to an optical evaluation unit (5). There is at least one optical filter in the path of the emitted or scattered light to suppress reflected or scattered laser radiation of unchanged wavelength.

Description

"Device for the detection of carious tooth substance and / or tooth-colored tooth restorations in particular"

The invention relates to a device for the detection of carious tooth substance and / or in particular tooth-colored tooth restorations.

When treating carious teeth, it is necessary to completely remove the diseased tooth structure and it is desirable to maintain the healthy tooth structure as much as possible. This requires a reliable distinction between sick and healthy substance. Furthermore, before restoring a tooth, all residual portions of old fillings must be removed, and as gently as possible.

This dental diagnosis is currently usually carried out by manual scanning and audiovisual testing with the aid of a mouth mirror and probe. Hardness, gloss, color and so-called "denti" are the decisive criteria when differentiating carious and healthy tooth substance. However, the diagnostic results are subjectively influenced by nature. The assessment can be influenced by different colorations and hardness or scratchability of the hard tooth substances as well as by the tooth-like color in composite-compomer or ceramic restorations. to be pregnant. Problems can arise, particularly when treating a profunda cavity, and may have further therapeutic consequences if only very thin layers of hard substance are left over the tooth nerve and if the probe itself is scanned or if the assessment is incorrect, either an accidental The pulp is in danger of opening or residual caries is left. In addition to the disadvantages of this subjective diagnosis, it is a further disadvantage that such a manual inspection can be time-consuming and is therefore often only applied to a limited number of test points.

It has therefore already become known to objectively detect carious tooth hard substance by staining with color solutions. In practice, however, this measuring method has so far scarcely become established due to the additional work steps required.

It has also been proposed (DE 40 15 066 AI) to use a so-called differential reflectometry for the diagnosis of dental hard substances. UV light generated by a xenon lamp is directed onto the hard tooth substance via a light guide and the light reflected by the hard tooth substance is guided into a spectrometer and the reflection curves obtained are waved. evaluated depending on length. It should have been found that healthy and carious tooth substance has a clearly different reflectivity, which should make a distinction possible. This method has not yet become established in practice and is also relatively complex since, in addition to the actual dental treatment apparatus, corresponding optical devices with a UV lamp (xenon lamp) are required.

The object of the invention is to provide a solution with which carious tooth diseases can be recognized as precisely as possible and precisely localized.

This object is achieved according to the invention with a device of the type described in the introduction by means of a laser source to which a first optical fiber is connected, the free end of which can be directed onto the tooth substance, and a device for collecting the radiation emitted or emitted by the tooth substance after laser radiation The light scattered on the tooth substance and originating from the laser source, which is connected to an optical evaluation unit, with at least one optical filter for suppressing reflected or scattered laser light with unchanged wavelength in the light path of the emitted or scattered light is arranged. It has surprisingly been found that laser light, in particular the light of a laser emitting in the near infrared range, is suitable for distinguishing hard tooth substances according to their nature. It has been shown that, depending on the nature of the tooth substance, the light emitted or scattered by the tooth substance has clearly different spectra. This is due in particular to the Raman scattered light of the inorganic (above all hydroxyapatite) and organic (especially collagen) components contained in different proportions in the hard dental substances (enamel, cement, dentin) and a comparatively broadband emission from carious Hard tooth substances (probably fluorescence from microbial metabolites) are returned. The ratios of the Raman intensities are known to be suitable as a measure of the type and mineral content of the hard tooth substances. The intensity of the comparatively broadband emission or its relationship to that of the Raman bands can be used as a measure of the condition of the hard tooth substance. It has also been shown that the Raman scattered light of the restorations differs clearly in terms of spectral distribution from the Raman signals of the hard tooth substances and a pronounced broadband emission of carious substances. With the device according to the invention, an objective tooth condition diagnosis is thus possible no longer necessary to rely solely on the subjective judgment of the dentist. The device according to the invention can advantageously be used in particular when a laser for removing tooth substance is already used as the dental treatment apparatus. This then only needs to be provided with appropriate additional equipment.

In order to achieve the best possible "collection" of the light emitted or scattered by the tooth substance, it is advantageously provided that the device for collecting the light emitted or scattered by the tooth substance has a second optical fiber, which in the optical evaluation unit opens.

According to a first embodiment, it is advantageously provided that an optic for focusing the laser and for collecting the emitted or scattered light is arranged at the free end of the first optical fiber and the second optical fiber. As an alternative to using the optics, one or more optical fibers for the emitted or scattered light can, for example, be arranged concentrically around the first fiber, in order to enable simple handling and a space-saving arrangement of the apparatus to be inserted into the patient's mouth. By an appropriate arrangement of the free ends of the fibers for the emitted or scattered light near the free end of the first fiber, the emitted or scattered light can be collected.

Alternatively, it can also be provided that at the free end of the first and second optical fibers an optical system is provided for connecting the laser to a third optical fiber and for transmitting the light emitted or scattered by the tooth substance from the third optical fiber into the second optical fiber, wherein the third optical fiber serves as a light path for the laser light and the emitted or scattered light.

With regard to the device part to be inserted into the patient's mouth, a device designed in this way requires even less space, since in principle only one optical fiber is required in the end region. This optical fiber is suitable for guiding the light in both radiation directions, since the light coming from the laser and the light emitted or scattered (used for detection) have clearly different wavelengths.

It is particularly advantageously provided that in the light path of the emitted or scattered light (in one of the optics or in the evaluation unit) at least one optical one Filter for suppressing reflected or scattered laser light with an unchanged wavelength is arranged. This filter serves to suppress the laser light which is thrown back considerably more intensely than the signals to be evaluated.

The optical evaluation unit preferably has optical elements for filtering and / or spectrally decomposing the emitted or scattered light (e.g. filters or light-decomposing components such as prisms or gratings) and one or more photoelectric detectors. By suitably arranging one or more photoelectric detectors in the evaluation unit, it is possible in a simple manner to determine characteristic intensities for carious tooth substance compared to healthy tooth substance and thus to identify carious tooth substance.

Advantageously, the device is further characterized in that the optical evaluation unit has a display or registration device for light intensities which are unusual for detected healthy tooth substance, as a result of which the dentist is given a display and also an automatic registration option for the tooth image.

In a particularly advantageous further embodiment It is provided that the optical evaluation unit is equipped with a circuit for controlling an ablation device for carious tooth substance. If the device is equipped in this way, it is possible to make the removal of hard tooth substance dependent on the dental substance diagnosis carried out simultaneously or promptly, that is, independently of any possible usage errors. The ablation device can only be activated in the case of carious tooth substance or is deactivated as soon as there is no more carious tooth substance. This clearly prevents unnecessary removal of healthy tooth substance.

It can be particularly advantageously provided that the laser source itself is designed as an ablation device for carious tooth substance. Alternatively, it can also be provided that a further laser source connected to a further optical fiber is provided as the removal device for carious tooth substance. With such equipment, only an optical device part for detection and removal and no mechanical removal device can be inserted into the patient's mouth. In addition, the ablation laser can be switched off very quickly using the control circuit, as a result of which unnecessary ablation can be avoided even better. The invention is explained in more detail below with reference to the drawing, for example. This shows in:

1 is a schematic diagram of a device according to the invention according to a first embodiment,

2 shows a schematic diagram of a device according to a second embodiment,

Fig. 3 is a schematic diagram of a device according to a third embodiment and

4 shows a representation of the spectra of light emitted or scattered on healthy and carious tooth hard substances when excited with laser beams.

A device according to the invention for the detection of carious tooth substance initially has a laser source 1, preferably a laser being used which emits radiation in the near infrared range. Such or a similar laser source 1 has already been used, for example, to remove hard dental substance. At the output of the laser source 1, a first optical fiber 2 is arranged, which supplies the laser light originating from the laser source 1 to the hard tooth substance indicated by 10 of a patient.

In the exemplary embodiment according to FIG. 1, this first optical fiber 2 is provided at the free end with optics 3 for focusing the laser beam on the tooth material (not shown). At the same time, this optics 3 is provided with optical elements which make it suitable for collecting the light emitted or scattered by the tooth material, the optics additionally being equipped with filters for filtering out interfering light components. A second optical fiber 4 is connected to the optics 3 and serves to return the light emitted or scattered by the tooth substance. This second optical fiber 4 ends at the end in an optical evaluation unit, generally designated 5. The optical evaluation unit 5 has optical elements (not shown) for filtering and / or specular decomposition, i.e. for wavelength-selective detection of the emitted light, on (wave selection e.g. through filters or light-separating components such as prisms or gratings). In addition, one or more photoelectric detectors are suitably arranged in order to be able to carry out the wavelength-selective detection.

As FIG. 4 shows, it has been found that the spectra of the healthy and carious tooth hardness Clearly distinguish between substance emitted or scattered light. If one compares, for example, the respective spectra (intensity in arbitrary units plotted on the Y axis, energy difference of the light quanta plotted on the X axis relative to the excitation), it is found that in particular in the range from 1000 to approximately 2500 cm ^"1 very different courses between the curves for healthy and carious tooth hard substance are obtained. If, for example, one or two detectors are distributed in this area in the optical evaluation unit 5, the values determined by these detectors can be very easily determine whether the tooth substance currently being examined is healthy or diseased without the need for complex evaluation elements, the detectors could also be arranged or designed such that signals from healthy and carious tooth substance are measured separately and their ratio (s) can be used to determine the state of the disease The optical evaluation unit 5 can also be made more complex if a very precise diagnosis is desired.

The optical evaluation unit 5 also preferably has a display or registration device 6 for light that is unusual for detected healthy tooth substance. intensities to inform the dentist of the diagnostic result or to register it automatically. In addition, the device 6 can also be equipped with an electrical circuit for controlling an ablation device 11 if automatic control of the ablation device 11 is desired in such a way that the device 11 for removing carious tooth substance is only recognized when carious defects are detected can be activated, ie it is then possible to automatically control the device 11 by means of the device according to the invention such that essentially only carious tooth substance is removed from it. The removal device can be particularly advantageously a laser, in particular the laser source 1 itself.

FIG. 2 shows an alternative embodiment of the device according to FIG. 1, the same reference numerals as in FIG. 1 being used. In contrast to the embodiment according to FIG. 1, there is an optical system 8 for connecting the laser to a third optical fiber 9 and for forwarding the emitted or scattered light from the third fiber 9 into the second fiber 4 at the free end of the first and second optical fibers 2 , 4 provided. The third optical fiber 9 serves as a light path both for the laser light coming from the laser source 1 and for the light emitted or scattered by the tooth substance, which in the optics 8 into the second light guide fiber 4 is steered. A lens 7 can be arranged at the free end of the third optical fiber 9.

FIG. 3 shows a further embodiment of a device according to the invention, the same reference numerals as in the previous figures being used, provided the same parts are affected. In contrast to the embodiment according to FIG. 1, no optics 3 are required in this variant, rather one or more optical fibers 4 are preferably arranged concentrically around the free end of the first optical fiber 2 for the light emitted or scattered by the tooth substance 10. The optical fibers 4 open directly into the optical evaluation unit 5. This embodiment leads to a particularly space-saving arrangement of the apparatus to be inserted into the patient's mouth. The light emitted or scattered by the tooth substance 10 is collected by the optical fibers 4 by suitably arranging their free ends near the free end of the first optical fiber 2.

Of course, the invention is not limited to the exemplary embodiments shown. Further configurations are possible without leaving the basic idea. In particular, it is also advantageously provided that the optics 3 or 8 and / or the optical evaluation unit 5 Filters, not shown, are provided, which are arranged in the light path of the emitted or scattered light. These filters are used to suppress reflected or scattered laser light with unchanged wavelength, in order to achieve a better evaluation of the light emitted or scattered by the tooth substance, since the reflected laser light is normally considerably more intensive than the signals to be evaluated.

Claims

Expectations:

1. Device for the detection of carious tooth substance and / or tooth-colored tooth restorations in particular, characterized by a laser source (1) to which a first optical fiber (2) is connected, the free end of which can be directed onto the tooth substance, and a device ( 3, 4) for collecting the light emitted by the tooth substance after laser irradiation or the light scattered on the tooth substance originating from the laser source, which light is connected to an optical evaluation unit (5), the light path of the emitted or scattered light, at least one optical filter for suppressing reflected or scattered laser light with an unchanged wavelength is arranged.

2. Device according to claim 1, characterized in that the device for collecting the light emitted or scattered by the Zahnsubs¬ dance has a second optical fiber (4) which opens into the optical evaluation unit (5).

3. Device according to claim 2, characterized in that at the free end of the first optical fiber (2) and the second optical fiber (4) there is an optical system (3) for focusing the laser and for collecting the emitted or scattered light.

4. The device according to claim 2, characterized in that at the free end of the first (2) and the second Licht¬ optical fiber (4) an optical system (8) for connecting the laser to a third optical fiber (9) and for forwarding the of Tooth substance emitted or scattered light from the third optical fiber (9) is provided in the second optical fiber (4), the third optical fiber (9) serving as a light path for the laser beam and the emitted or scattered light.

5. Apparatus according to claim 3 or 4, characterized in that the optics (3) and / or the optics (8) contains elements for filtering the laser light and / or the emitted or scattered light.

6. The device according to claim 4 or 5, characterized in that at the free end of the third optical fiber (9) a further optics (7) for focusing the laser and Collection of the emitted or scattered light is provided.

7. The device according to claim 1 or one of the following, characterized in that the optical evaluation unit (5) has optical elements for filtering and / or spectral decomposition of the emitted or scattered light and one or more photoelectric detectors.

8. The device according to claim 1 or one of the following, characterized in that the optical evaluation unit (5) has a display or registration device (6) for light intensity unusual for detected healthy tooth substance.

9. The device according to claim 1 or one of the following, characterized in that the optical evaluation unit (5) is equipped with a circuit for controlling a removal device for carious Zahnsubs¬ dance.

10. The device according to claim 9, characterized in that the laser source (1) is designed as a removal device for carious tooth substance.

11. The device according to claim 9, characterized in that a further, re, connected to a further optical fiber laser source is provided as a removal device for carious tooth substance.