DE202014104228U1 - Radiating tip for a dental laser - Google Patents

Abstract

Radiation tip for a dental laser for soft tissue treatment as part of a paradontosis treatment, characterized in that the front area of the radiation tip is beveled and an angle α, which is formed by an axis through the radiation tip and a beveled front surface of the radiation tip , is in a range from 45 to 65 °.

Description

The invention relates to a radiating tip for a dental laser for soft tissue treatment in the context of a periodontal treatment. In the mouth of a patient usually erosions of solid material are made by drilling. Alternative ablation methods have emerged in recent years, as conventional drilling is associated with anxiety for many people. In particular, the use of lasers in dentistry has proved particularly versatile. Lasers can be used both in dental surgery, in root canal treatments, in the control of periodontal disease for the preparation of cavities, and in pediatric dentistry. Laser procedures in dentistry are characterized by the fact that they cause relatively little pain and that the patient is not confronted with the usual drilling noise, which leads to anxiety in a large number of people.

The known devices make it possible to process both carious dentin and non-carious softened dentin. The disadvantage of this is that, as in conventional drilling, caries removal also healthy hard tooth substance is removed, so that an unnecessary degradation of the hard tooth substance takes place.

In the prior art, for example, pure erbium lasers are described, as well as diode lasers, CO2 lasers or neodymium lasers. A disadvantage of the abovementioned laser types is that as a rule a high energy density is used. This can be affected by the thermal load healthy tissue or tooth substance. Furthermore, the use of ultrasound, strong radio waves or other waves is described in the prior art.

In the US 2007/0042315 A1 discloses a radiation device for a dental laser, with which the laser radiation is guided into the application area in the oral cavity of the patient. A disadvantage of this radiating device is that the front end of the radiating tip terminates in the front region with a plane front surface perpendicular to the side walls of the tip. This leads to a radiation of the laser light, which is made equally strong in all directions. A targeted, focused application to a narrow range of application is not possible with a newly designed front surface. This results from the construction of the beam path of the laser light by the emitting device.

The object of the invention is thus to provide a radiation tip for a dental laser, which focuses the laser light in only one spatial direction and, moreover, does not have the disadvantages and deficiencies of the prior art.

The object is solved by the features of the independent claims. Further advantageous embodiments are described in the subclaims.

In a first aspect, the invention relates to a radiation tip for a dental laser for soft tissue treatment in the context of a periodontal treatment, wherein the front portion of the emission tip is chamfered and an angle α formed by an imaginary axis through the emission tip and a beveled front surface of the emission tip is in a range of 45 to 65 °. For example, the x-ray source or x-ray tube is located next to the stool of the dentist. By suitable conduit means, e.g. Fiber optic cable, the generated laser light is directed into the handpiece of the dental laser. Using suitable optics, the laser light is guided into a radiation tip. A preferred radiating tip according to the invention has a circular base and has a preferred length of 10 to 15 mm. The front region of the tip does not consist of a plane perpendicular to the side walls of the Abstrahlspitze, flat front surface, but is chamfered.

It was completely surprising that the laser light can be directed in such a way that it only propagates in one spatial direction due to the beveled design of the front region of the emission tip. According to the invention, it is provided that the beveled front surface, which forms the front region of the emission tip, and an imaginary axis through said emission tip form an angle in the range of 45 to 65 °. Said angle range has proven to be particularly suitable to meet the practicalities in the application of the emission peak in the mouth area. The oblique configuration of the front portion of the Abstrahlspitze represents a departure from the hitherto technically customary, since the experts had previously assumed that flat front surfaces of the Abstrahlspitze allow a particularly simple handling of the Abstrahlspitze. However, as a result of the radiation of the laser radiation occurring in all spatial directions in flat front surfaces, there is an unnecessary and undesirable exposure of healthy tooth substance and healthy gums. This unnecessary irradiation of non-treatable tissue and tooth substance can be substantially reduced by the use of a radiating tip according to the invention.

The beam path of the laser light in the emission tip of the dental laser can be described by means of the law of reflection. Accordingly, the angle of incidence of the laser beam on the front surface of the Abstrahlspitze is equal to the angle of failure at which the laser beam leaves the Abstrahlspitze. The corresponding construction of the beam path can in 1 be traced.

It is preferred that the radiating tip according to the invention is used in the context of a restoration of a diseased paradont, for decontamination, for the ablation of dental hard tissue and / or for the therapy in the presence of peri-implantitis.

In a preferred embodiment of the invention, the angle α between the tip axis and the front surface of the emission peak is between 45 and 50 °. It was completely surprising that the active power of an emission tip according to the invention with bevelled front surface allows a particularly gentle removal, for example, of carious tooth substance. The reason for this lies in the correlation between angular range and spot size of the laser beam. A spot in the sense of the invention is the area which is irradiated by the laser light. Said angle range represents an optimal compromise between a large spot, which allows a quick and for the patient less stressful treatment, and a small spot with a high energy density of the laser light in a relatively small area.

Furthermore, it was completely surprising that the tooth roots are significantly less irritated or damaged by the use of an emission tip according to the invention than with the methods described in the prior art.

It was further completely surprising that a radiation tip can be provided for a dental laser whose absorption spectrum is in the range of water. Advantageously, the energy of the laser light is thereby absorbed, above all, by water molecules which are located in the area of application of the emission tip. It has been found that the angle between the imaginary axis through the emission tip and the bevelled front surface is correlated with the size of the spot irradiated by the laser light. As a result, the optimal emission tip can be selected for the treatment of individual clinical pictures in the mouth area by using differently bevelled front surfaces.

It could be shown that the smaller the included angle, the smaller the area irradiated by the laser light (spot). Advantageously, the use of a radiating tip according to the invention whose included angle is in the range of preferably 45 to 50 ° leads to particularly large spots. Large spots are preferred because they can be used extensively. Working flatly allows the treatment to be carried out quickly, which is desirable, above all, in the case of patients who suffer from a high level of stress associated with dental treatment.

In a further preferred embodiment of the invention, the laser radiation is emitted by the emission tip, in particular at a 90 ° angle to the imaginary axis, through the emission tip in a spatial direction leading away from the tooth. By using a radiation tip that allows such a radiation of the laser light, the tip, which is attached to a handpiece, particularly easy and safe to be managed and handled. It could be shown that the defined radiation of the laser light at a right angle contributes to a particularly efficient treatment of the patient.

It is further preferred that the emission tip is attachable by means of a device for locking and / or attachment to the head piece of a hand-held device of a dental laser. A locking and / or attachment of the head piece to a hand-held device of a dental laser advantageously allows rapid replacement of different emission tips with different action characteristics. The average person skilled in the art knows that different medical conditions or treatment purposes and the use of differently designed radiating tips is required. It was therefore quite surprising that radiation tips can be provided which can be fastened or locked in a particularly simple and easy manner to the head piece of a dental laser handpiece.

In a further preferred embodiment, the laser radiation originates from a gas laser, a solid-state laser and / or a laser diode. For the purposes of this invention, a gas laser is a laser having a resonator filled with gas as the active medium for generating high radiation powers. The spectrum that gas lasers can cover ranges from ultraviolet to infrared. In order to achieve the emission of laser light, electrons of the active medium must be brought to a higher energy level. The process used for this is called "pumping"

The pumping of the laser is advantageously carried out by electrical gas discharge. However, it may also be preferable to pump with microwaves, visible light, or by a chemical reaction of the active medium.

As a solid-state laser in the context of the present invention, optically excited lasers are referred to. They contain an active medium of a crystalline or amorphous solid. In the case of solid-state lasers, visible light or infrared radiation is used for pumping.

An advantage of using solid-state lasers is that they can be operated both continuously and pulsed. This allows flexible use of the laser light of a solid-state laser in dentistry. In particular, solid state lasers provide increased efficiency, high beam quality and performance compared to conventional CO ₂ lasers.

A laser diode in the sense of this invention is a semiconductor component that is related to a light-emitting diode (LED), which, however, generates laser radiation. The region of the p-n junction of the laser diode is heavily doped and operated at high current densities. This achieves a spectrum from infrared to ultraviolet.

In laser diodes, a p-n junction is operated with heavy doping at high current densities. The laser light is produced by the recombination of electrons and holes, ie defects in the solid, at the transition between the p- and n-doped region. In this case, a population inversion is first produced by electric pumping, which then leads to the radiation of radiation in the wavelength range of laser light. The choice of semiconductor and dopant material determines the emitted wavelength. Another name for laser diode is semiconductor laser. The terms are used synonymously in the context of this application. Advantageously, all mentioned laser types work in the thermal range.

In an advantageous embodiment of the invention, the solid-state laser is a mixed crystal laser, wherein the wavelength of the solid solution laser is in a range of 1000 to 3000 nm.

It is also preferred if the laser is an erbium laser with a wavelength of 2940 nm. The medical lasers mentioned here penetrate up to 100 μm into the tissue. A particular advantage of these lasers is that both hard and soft tissue can be processed.

In a further preferred embodiment of the invention, the laser diode is a diode having a wavelength of 600 to 870 nm. Thus, laser diodes have an absorption spectrum in the range of melanin and hemoglobin. Laser diodes achieve a penetration depth of up to 1 cm, which is achieved, inter alia, by initiating the emission tip. Laser diodes and CO2 lasers are advantageously used exclusively in soft tissue treatment.

In another preferred embodiment, the power of the dental laser is in the range of 3 to 20 watts.

In a preferred embodiment of the invention, the length of the emission tip is in a range of 10 to 15 mm. It has been shown that a length between 10 and 15 mm allows a particularly simple handling of the emission tip. The emission tip of the preferred length can be securely guided in pockets between gum and tooth and operated there. Due to the preferred size, there is no undesirable interaction with the teeth of the second jaw and the greatest possible freedom of movement of the treating physician is ensured.

In a further advantageous embodiment of the invention, the diameter of the emission tip is in a range of 0.9 to 1.1 mm. It was completely surprising that a radiating tip could be provided which combines the features of optimum spot size, energy density and breaking strength. The radiation tip with the preferred diameter of 0.9 to 1.1 mm allows a high treatment safety due to its good breaking strength. Likewise, radiating tips with a preferred diameter allow a secure hold in the handpiece, which has a positive effect on the life of the radiating tip.

It is preferred if the material of the emission tip is selected from the group comprising sapphire, synthetic sapphire, quartz, glass fiber and / or polymer, or a combination thereof. When using radiation tips made of, for example, polymer or polymer, there may be an energy loss due to radiation leakage on the sides of the emission tip. Such an energy loss is advantageously prevented by a reflection jacket which reflects the radiation emitted to the outside back into the emission tip. This saves energy and resources and avoids the irradiation of unwanted tissues. Advantageously, such energy loss is not observed at sapphire or synthetic sapphire radiation tips.

In a further aspect, the invention relates to a set of radiation tips wherein the radiation tips of the set have different angles α between the tip axis and the bevelled front surface. The provision of a set of radiation tips ensures optimal Treatment success, as the treating physician can select for different requirements between different radiation tips. As a result, for example, the unnecessary impairment of healthy gums and tooth material is avoided and the radiation exposure for the patient is reduced.

In a further preferred embodiment of the invention, the emission tips of the set irradiate differently sized treatment surfaces as a function of the angle α. The utilization of the relationship between angle and spot size is a major merit of the invention. Deviating from the usual use of flat front surfaces in the front region of the emission tip now a Abstrahlspitze is provided, the front surface is chamfered. Differently pronounced slants lead to different spot sizes and energy densities, whereby the attending physician can select a suitable radiating tip depending on the nature of the tissue or tooth material to be treated. As a result, both flat treatment sites, such as the chewing surfaces of molars, as well as small treatment areas can be optimally supplied.

The invention will be explained in the following with reference to a figure by way of example, but without being limited to these. It shows:

1 Beam path through a radiating tip according to the invention

1 shows the beam path of a laser beam 12 by an emission tip according to the invention 10 with bevelled front surface 22 , The laser light 12 is provided with suitable conduit means, for example fiber optic cables or the like, from the x-ray generating source, for example an x-ray tube, through a handpiece to the emission tip of the invention 10 guided. This consists of sapphire, synthetic sapphire, quartz, glass fiber and / or polymer and has a length between 10 and 15 mm and a diameter of 0.9 to 1.1 mm. The emission tip 10 consists of a cylindrical base with a circular base. This rear area of the emission tip 10 is attached to the handpiece of a dental laser. In the middle of this base with a circular base there is an imaginary axis 20 , which in the clarification of the beam path of the laser light 12 . 14 helps. In the front area 10 closes the emission tip 10 with a bevelled front surface 22 from. The plane of the beveled front surface 22 and the imaginary axis 20 through the emission tip close to each other an angle α ( 16 ) one. According to the invention, this angle is α 16 between 45 and 65 °. In 1 is an angle α ( 16 ) of 45 °. When the laser beam 12 on the bevelled front surface 22 falls, it comes to the reflection on the front surface, which is an interface between the material of the emission tip 10 and the environment forms. The reflection on the front surface 22 takes place according to the law of reflection, after the angle of reflection is equal to the angle of incidence. The laser beam 12 meets at an angle α ( 16 ) on the bevelled front surface 22 the emission tip 10 where the angle α ( 16 ) in 1 45 °. The light beam 12 is then reflected by the bevelled front surface and at a right angle 18 between the emitted laser beam 14 and the imaginary axis 20 radiated. As a result of this reflection, the invention achieves the result that only one spatial direction is emitted by laser light. This allows a more targeted application of the Abstrahlspitze invention 10 and a reduction of unwanted deterioration of tissue and tooth material that does not need to be treated.

LIST OF REFERENCE NUMBERS

10

 Abstrahlspitze

12

 Laser beam through the emission tip

14

 laser beam emitted from the emission tip

16

Angle α between imaginary axis through the emission tip and bevelled front surface

18

 Right angle between imaginary axis through the emission tip and emitted laser beam

20

 imaginary axis through the emission tip

22

 bevelled front surface

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• US 2007/0042315 A1 [0004]

Claims (15)

Radiation tip for a dental laser for soft tissue treatment in a periodontal treatment, characterized in that the front portion of the radiating tip is chamfered and an angle α, which is formed by an axis through the radiating tip and a beveled front surface of the radiating tip , located in a range of 45 to 65 °. Radiating tip according to claim 1, characterized in that the angle α between the tip axis and the front surface of the radiating tip is preferably in a range of 45 to 50 °. Abstrahl tip according to claim 1 or 2, characterized in that the laser radiation is emitted in particular in a 90 ° angle to the axis through the emission tip in a direction away from the tooth spatial direction. Radiating tip according to one or more of the preceding claims, characterized in that the length of the radiating tip corresponds to the depth of the tooth region to be treated. Radiating tip according to one or more of the preceding claims, characterized in that it can be attached by means of a device for locking and / or attachment to the head piece of a hand-held device of a dental laser. Radiating tip according to one or more of the preceding claims, characterized in that the laser radiation comes from a gas laser, solid-state laser and / or a laser diode. Abstrahl tip according to claim 6, characterized in that it is the solid-state laser is a solid solution laser and the wavelength of the solid solution laser is in a range of 1000 to 3000 nm. A radiation tip according to claim 6 or 7, characterized in that the solid-state mixed-crystal laser is an erbium laser having a wavelength of 2940 nm. A radiation tip according to claim 6, characterized in that the laser diode is a diode having a wavelength of 600 to 870 nm. Radiating tip according to one or more of the preceding claims, characterized in that the power of the dental laser is in a range of 3 to 20 watts. Radiating tip according to one or more of the preceding claims, characterized in that the length of the radiating tip is in a range of 10 to 15 mm. Radiating tip according to one or more of the preceding claims, characterized in that the diameter of the radiating tip is in a range of 0.9 to 1.1 mm. A radiation tip according to one or more of the preceding claims, characterized in that the emission tip is made of a material selected from the group comprising sapphire, synthetic sapphire, quartz, glass fiber, polymer. Set comprising a plurality of radiating tips according to claims 1 to 13, characterized in that radiating tips of the set have different angles α between the tip axis and the bevelled front surface. Set according to claim 14, characterized in that the radiated from the emission tips of the set laser radiation as a function of the angle α different sized treatment surfaces irradiated.

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