DE102012212429A1 - Dental handset unit i.e. polymerization lamp, for invasive curing of light-curable material in e.g. dental cavity in mouth of human patient, has removable body separable together with control unit from non-destructive autoclavable handgrip - Google Patents

Abstract

The handset unit (1) has a working tip (5) is arranged at a non-destructive autoclavable handgrip (3), which is accommodated within an electronic control unit. Electrically activatable lighting units are arranged in the working tip and/or the handgrip to generate light. The control unit is fixed at a removable body, which is arranged within the handgrip in an operating position. The removable body is separable together with the control unit from the handgrip and brought again into the operating position. Independent claims are also included for the following: (1) a method for cleaning a dental handset unit (2) a method for invasive curing of light-curable material in a dental cavity or on a dental surface in a mouth of a patient.

Description

The invention relates to a dental hand device for the invasive curing of light-curable material in a dental cavity or on a dental surface in the oral cavity of a patient.

Such devices are used in restorative dentistry. In restorative dentistry, light-curable materials are generally used today for a variety of common forms of therapy. Photohardenable is understood as meaning both purely light-curing and dual-curing materials. As composite materials, tooth-colored filling materials, for example, which have in their basic structure an organic monomer matrix, an inorganic filler system and a composite phase and which cure after introduction into a cavity by means of supplied energy are referred to. During curing, the (composite) material changes from a (mostly) pasty state to a solid state. In this case, by a photoinitiator which forms radicals under the influence of light, the polymerization is initiated, which leads to the curing of the composition.

In the past, various dental hand tools were used to activate the cure as a light source. The clinical properties of composites are largely determined by effective light polymerization. The state of the art in dental photopolymerization is currently the use of blue (and yellow) light-emitting diodes (LEDs) that convert the current directly into light and radiation generation by recombination of carrier pairs in a semiconductor. In addition to the polymerization described above, the dental hand-held devices are also used for photocuring for curing already in polymeric form present materials. In the context of the present invention, these dental hand devices are also referred to as polymerization lamps.

The color of the LED light is determined by the chemical composition of the semiconductor combination, wherein the generated light has an extremely narrow spectral distribution, for example compared to halogen lamps, which have a broader continuous emission spectrum from which the unwanted spectral ranges are retained by means of filters. The extremely narrow spectral distribution allows for lower power consumption compared to other types of lamps and therefore less heat generation at the radiation source.

The initiation of the polymerization depends on the amount of photoinitiators activated in the dental material, the number of photons to which the material is exposed and their energy. The formulation of the photoinitiators in the dental composition and the use of certain lamps must therefore be coordinated.

The activation of the photoinitiator shows the best effect when the photon energy (wavelength) of the required activation energy of the initiators is similar. By far the most commonly used initiator of dental materials is camphorquinone (CC), a compound that has an absorption spectrum between 360 nm and 550 nm with a maximum at 470 nm. This absorption maximum is (nearly) identical to the emission maximum of blue LEDs, which is also at 470 nm. Almost all photons of blue LED lamps are emitted in the narrow range between 440 nm and 500 nm.

In addition to the CC, there are other suitable acylphosphine oxide-based dental photoinitiators that have the maximum of their absorption spectra but at much smaller wavelengths. Solely listed by way of example here are 2,4,6-trimethylbenzoyldiphenylphosphine oxide, bis (2,4,6-trimethylbenzoyl) phenylphosphine oxide and tris (2,4,6-trimethylbenzoyl) phosphine oxide. Acylphosphine oxide compounds, compositions based on acylphosphine oxide compounds, the preparation and use of these photoinitiators are described, inter alia, in the patent families of EP 0 007 508 B1 . EP 0 057 474 B1 . DE 30 23 486 A1 . EP 0 073 413 B1 . EP 0 106 176 B1 . EP 0 173 567 A2 . EP 0 184 095 . EP 0 304 782 B1 . EP 0 413 657 B1 . JP 04029910 A1 . EP 0 487 453 B1 . DE 42 31 579 C2 . DE 41 42 681 A1 . DE 692 29 742 T2 . EP 0 615 980 B1 . EP0 670 323 B1 . EP 0 826 692 B1 . DE 195 32 358 A1 . EP 0 779 891 B1 . EP 0 942 937 B1 . EP 0 948 955 B1 . EP 0 937 448 B1 . DE 197 08294 A1 . EP 0 945 468 A2 . EP 0 980 682 B1 . JP 2000159621 . US 6,251,963 B1 . DE 199 07 957 A1 . DE 199 38 463 A1 . DE 600 06 210 T2 . DE 600 29 481 T2 . DE 601 15 194 T2 . DE 101 27 171 A1 . DE 101 05 046 A1 . EP 1 245 219 B1 . EP 1 423 757 B1 . DE 101 50 256 A1 . EP 1 511 754 B1 . EP 1 374 828 A1 . EP 1 517 666 A1 . EP 1 524 949 A1 . US 7,081,448 B1 . US 2005/0288387 A1 . EP 1 550 428 B1 . US 6,797,767 B2 . US 2005/0234145 . WO 2006/122074 . EP 1 749 513 B1 . WO 2007/028159 . JP 2007131721 . DE 11 2006 003 798 T5 . EP 1 878 419 A1 . DE 10 2006 050 153 A1 . EP 2 108 664 A1 . EP 2 133 368 A1 . EP 2 129 659 A1 . EP 2 085 439 A1 . US 2009/0304612 A1 . WO 2009/150060 . DE 10 2009 011 536 A1 . DE 10 2009 011 537 A1 and DE 10 2008 001 431 A1 ,

DE 603 04 752 T2 discloses a light irradiation device for a multi-purpose type dental photopolymerization composite resin wherein the dental photopolymerization composite resin can polymerize using both CC and acylphosphine oxide.

In the DE 10 2004 004 105 A1 According to the invention, a white-emitting LED or a lamp with one or more white-emitting LEDs is used as the light source for a dental hand-held device.

US 6,709,128 B2 describes a dental light irradiation device consisting of the following elements: a handle, a region which adjoins the handle and which contains the radiation source and is constructed so that the element can be inserted into a volume limited in space such as the oral cavity and also a heat-dissipating Has element to dissipate the heat evolved.

Heat dissipating elements in dental light irradiation devices are also disclosed in the documents US 6,692,252 B2 . US 20030219693 A1 . US 20030081430 A1 . US 20110300505 A1 . US 20110236851 A1 . US 20090233254 A1 and WO 03005923 A2 described.

DE 601 30 995 T2 discloses a dental light irradiation apparatus comprising a housing and a plurality of light emitting chips individually arranged on a substrate and for emitting light having wavelengths in a narrow band.

US 2004/0051482 A1 discloses a light irradiation apparatus comprising a housing, an LED, a heat dissipation member, a timer circuit, a drive circuit, and means for electrically supplying the drive circuit.

DE 103 92 328 T5 discloses a dental device configured to cure photocurable compounds having a body extending between a proximal end and a distal end, wherein the proximal end of the body is adapted and configured to be received within a retaining cup of a handle sized and configured to receive at least one type of hand grip, and wherein the distal end is sized and configured to fit within a patient's mouth; and a light source disposed at the distal end of the body and configured to emit radiant energy suitable for curing a photohardenable compound. "Proximal" in DE 103 92 328 T5 the orientation towards the operator, while in the context of the present invention with "proximal" the orientation to the patient or working space of the hand-held device is referred to.

In addition to purely technical improvements in the performance of dental light irradiation devices, hygienic aspects in particular also play an outstanding role in the use and development of new devices. Dental hand devices and in particular polymerization lamps are invasive, so introduced through a body opening, which represents the mouth opening in dental applications, in the body of man and are used there. Since the dental hand devices do not represent disposable devices, but are used successively in a large number of patients, microbial transmissions from the oral cavity of one patient into the oral cavity of another patient, so-called cross-contamination, must be avoided. Accordingly, sterilization of the dental hand tools must be performed regularly. Since questions of hygiene, in particular questions of hygiene and infection prevention in dental surgeries are becoming increasingly important in modern health management, the problem of processing critical and semicritical medical products poses a particular challenge to the development of such devices.

US 6,702,576 B2 discloses a handset with a light guide in a working tip, which is removable from the rest of the housing of the handset and can be autoclaved separately.

However, it can not be ruled out in the case of dental hand tools that are constructed according to this principle that, for example, dangerous germs remain at the connection point between the light guide and the handle and then spread further. Moreover, the handle may also be contaminated during use by (gloved) hands of the dentist contaminated with germs from the mouth of the patient being treated. These germs can spread from the handle to the (possibly autoclaved) light guide and transferred to the next patient. So far, this transmission path could only be limited by intensive wiping disinfection. Contamination of the handle can be done not only by direct contact with contaminated (gloved) hands or the oral mucous membranes, but also by means of precipitating splashes (eg of body fluids).

Another way to solve the problem of germ transmission in the construction of dental light irradiation devices, goes from the DE 601 30 995 T2 out. This suggests, instead of a complete sterilization of handsets, a removable sleeve over the working tip of the handset, which can be autoclaved separately or designed as a disposable sleeve, which is disposed of after a single use.

Thus, in the prior art, either the sterilization of only a part of the dental hand devices is proposed, or auxiliary structures such as withdrawal sleeves are used, which may even be disposed of directly after use and thus have to be rejected from an environmental point of view.

Both the dismantling of the working tips after their use and the attachment of protective sleeves can not reliably prevent the contamination of the handle and possibly other housing components of the dental handpieces and therefore makes further cleaning steps necessary, which requires additional time.

Thus, the present invention has the object to provide a dental hand device for invasive curing of photohardenable material in a dental cavity or on a dental surface in the oral cavity of a patient available, which is very safe cleanable with the least possible time, thus ensuring high contamination safety , and is as environmentally friendly as possible. A specific object of the present invention is to provide a dental hand device for the invasive curing of photohardenable material in a dental cavity or on a dental surface in the oral cavity of a patient whose outer surfaces are completely and non-destructively autoclavable.

The invention solves the underlying object with a dental hand device according to claim 1. In particular, the invention solves the underlying object with a dental hand device for invasive curing of light-curable material in a dental cavity or on a dental surface in the oral cavity of a patient, with a adapted to be introduced into the oral cavity of a patient, non-destructively autoclavable, working tip for emitting light, electrically activatable bulbs for generating the light, an electronic control unit adapted to actuate the bulbs in response to an operator input, and a non-destructively autociavable handle which the working tip is arranged and within which the control unit is housed, wherein the electrically activatable light source for generating the light in the working tip and / or the handle are arranged, the control unit to a Wech is mounted selkörper, which is arranged in an operating position within the handle, and the removable body together with the electronic control unit attached thereto by hand both from the handle removed and again its operating position can be brought. The term "work tip" is not directly a pointed geometric body to understand, but functionally the patient in the treatment in the nearest part of the dental hand device, which is used invasively. Manual removability is understood to mean that manual means are sufficient to effect removal of the exchangeable body from the handle with the electronic control unit. This includes both the gripping of the removable body and the removal without seizing the removable body. The phrase "by hand" therefore also refers to the hand being opened by hand. The exchangeable body with the control unit does not necessarily have to be touched by hand. For example, the removable body can slide out of the sleeve and thereby, without being touched by hand, be placed on a surface or on a special holder. Thus, contamination of the removable body can be avoided by possibly contaminated gloves. The dental handpiece of the present invention is not limited in its use to invasive use. The dental hand device can also be applied non-invasively (ie outside the oral cavity), for example in the production of "indirect" inlays in the dental laboratory. The invention then makes use of the advantages obtained by the removable body which can be removed by hand, for example by the ease of maintenance of the electronic control unit is improved.

The invention makes use of the knowledge that it is advantageous for the best possible cleaning of the dental hand-held device to be able to supply the entire device in one piece to an autoclaving process. Known handheld devices do not allow this, however, because the electronic control unit, which may be implemented there, does not withstand the prevailing during autoclaving temperatures in conjunction with the moisture of the fluid vapor and damage. This is where the invention starts by proposing a replaceable body on which the electronic control unit, and preferably all other parts that could not withstand autoclaving and possibly no longer work after autoclaving, can be removed from the handgrip of the dental handpiece and brought back in again. Characterized in that the removal and the introduction can be done according to the invention by hand, no tool for removing the electronic control unit is necessary. It is sufficient to remove the removable body together with all relevant components with a few simple steps to prepare the dental hand unit for cleaning, especially autoclaving. The removal and re-introduction of the removable body with the electronic control unit according to the invention is very fast, that is possible within a few seconds. Another advantage of the present invention is that the housing of the handle itself can be made relatively inexpensive and yet non-destructively autoclavable. This makes it relatively inexpensive possible to provide the dentist several handles available. In operation, it is then possible to use each one arranged with the exchangeable body in the operating position handle for curing photocurable material, while one or more other handles, from which the removable body is removed together with the electronic control unit, in the autoclave or in preparation for autoclaving , or in preparation for operation on a dental hand-held device. Special temperature-shielding measures to protect any electronic components inside the housing must not be taken by the removability of the electronic control unit on the removable body. The material savings associated with this, in addition to the cost advantage, the additional advantage that the dental handset is better handled in the application due to a lower weight.

In a preferred embodiment of the dental hand device, the electrically activatable bulbs are attached to the removable body. Most of the electrically activatable bulbs used in dental hand-held devices for invasive light curing are heat resistant to a certain extent because the light itself generates some waste heat. However, it makes advantageous in terms of the life of the bulbs noticeable, although these do not have to be constantly subjected to an autoclaving process.

The electronic control unit preferably has a printed circuit board and electronic components mounted on the printed circuit board. The electronic components on the board preferably comprise one or more microcontrollers, and / or a plurality of MOSFET transistors and / or one or more switches and / or one or more resistors and / or one or more voltage carriers and / or one or more diodes and / or or one or more buzzers and / or a constant current source. A buzzer here means an acoustic signal generator.

In a further preferred embodiment of the dental hand device, the exchangeable body or the control unit is brought into abutment within a recess provided in the handle with a stop which defines the operating position of the control unit. This stop is preferably formed as a projection or recess. The operating position is presided over as the mounting position in which the control unit can actuate the working tip in response to an operator input. For this purpose, in particular an alignment of the electronic control unit is required such that an externally mounted on the housing of the handle switch or other commandor can operate a provided in the interior of the handle on the electronic control unit switch or other command receiver.

The dental handpiece according to the present invention preferably has a closure element which is adapted to close the handle, preferably the recess provided for receiving the removable body, media-tight in a closed position and to fix in the closed position the removable body in the operating position. The term "media-tight" is understood to mean a state sealed against the passage of liquids, preferably also against the passage of gas. Preferably, the exchangeable body and / or the electronic control unit is held exclusively by the closure element in abutment with the stop within the handle.

Further preferably, the removable body is gravity driven removable from the recess when the recess is released. After removal of the closure element from the recess of the removable body is held according to this preferred embodiment of the dental hand device by no further holding member more in position and is at a corresponding orientation of the handle, for example, with the recess in the direction of gravity, solely by gravity, the recess removable. This ensures a particularly simple and fast removal of the removable body. The term "gravity-driven" is thus understood to mean the movement of the exchangeable body essentially on account of the force of gravity.

According to a further preferred embodiment of the dental hand-held device, the working tip is arranged proximally on the dental appliance, and the closure element is arranged distally on the dental appliance. As mentioned above, in the context of the present invention, the term "proximal" is understood to mean the side of the device facing the treatment object-that is, the patient. By "distal" is accordingly understood the orientation opposite the proximal side, ie the side facing away from the patient. The particular advantage of the distal arrangement of the recess and, accordingly, also of the closure element on the dental appliance results from the fact that the Distance from the recess to the point of contamination, the mouth of the patient, is maximally removed and thus the penetration of Kelmen in the interior of the dental hand device is difficult as much as possible. Due to its distal arrangement, the closure element is thus designed as an end cap.

According to a further preferred embodiment of the central hand unit, the exchangeable body has an outer contour, which is adapted to an inner contour in the recess such that the exchangeable body guided within the recess is movable. Preferably, the removable body is slidably movable within the recess, and more preferably the outer contour of the removable body is adapted to the inner contour of the recess with a dimensional tolerance corresponding to a sliding fit or a clearance fit. Preferably, the dimensional tolerance is in a range of 0.1 mm to 2.0 mm.

The exchangeable body is arranged according to a further preferred embodiment of the central handset for receiving the electrical power supply. The power supply comprises means for electrical power supply, preferably one or more storage cells for electrical energy. Preferably, batteries or rechargeable accumulators are provided as memory cells.

Thus, according to the invention, the elements of the electrical power supply are protected by the removability of the removable body from damage during autoclaving. In addition, the period of autoclaving can be used to replace, if necessary, the electrical storage cells or other components of the electrical power supply and replace it with fresh cells.

In a preferred embodiment, the power supply means, and preferably also the electronic control unit, which are embodied as electrical storage cells are partially enclosed by the exchangeable body in such a way that they are visible from outside when the exchangeable body is removed from the handle. This facilitates the troubleshooting of functional defects, because damage to the control unit and / or the memory cells sometimes already noticeable in a visual inspection.

In an alternative preferred embodiment, the power supply means designed as electrical storage cells, and preferably also the electronic control unit, are completely closed by the exchangeable body. Although the exchange body formed in this way completely closed makes it difficult to replace the energy cells and possibly the maintenance of the electronic control unit, but this is compensated by the fact that the stability of the removable body and thus the mechanical protection of the electrical storage cells and the electronic control unit is improved. This embodiment is therefore particularly preferred for applications in which, for example due to external influences, there is an increased risk that the exchangeable body will be subject to falls and the like.

According to a further preferred embodiment, the means for supplying electrical power are adapted to be charged by means of an induction field generated outside the handle and acting on the means for supplying electrical power.

In a further preferred embodiment of the central handset, the lighting means comprise one or more LEDs for light generation and one or more reflectors and / or lenses for light shaping and preferably a heat sink for heat dissipation, the heat sink preferably enclosing the remaining light sources in sections or completely. Particularly preferably, the heat sink is designed as a ring or partial ring and encloses the reflector (s) within which the one or more LEDs are arranged. Preferably, the heat is dissipated by the integrated in the housing heat sink made of aluminum. The high thermal conductivity of this material ensures that the LED temperature remains low even during a continuous operation of several minutes, which increases the life of the LED. When switching off the dental handset, the heat temporarily stored in the heat sink by the interaction with the housing, which preferably also consists essentially of aluminum, discharged into the environment. This construction eliminates the need for a fan or other active cooling. This type of heat dissipation is possible due to the low heat generation of an LED.

For the transmission of the light intensity required for light-induced curing or polymerization, an effective optical arrangement is required. For this purpose, a conical reflector is used at the base of the light guide to ensure maximum light flux. Preferably, the reflector has a galvanically vapor-deposited on the inside plastic ring.

LEDs are preferably those LEDs whose emission spectrum has a peak at a wavelength in a range of 450 nm to 500 nm, more preferably 460 nm to 475 nm, more preferably at 470 nm +/- 2 to +/- 5 nm and one here maximum power density in the range of 900 mW / cm ² to 1750 mW / cm ² . The power density is determined inter alia by measurements using a spectrometer, for example the company Inno-Spec (type designation CT75-CCD4050). Preferably, this power density is achieved at an optical effective optical fiber diameter of 7 mm directly at the exit from the optical fiber of the working tip. As an alternative to LED technology, halogen or other light sources can also be used in the dental hand device according to the invention.

According to a further preferred embodiment of the dental hand-held device, the lighting means are arranged in the handle, and the working tip has means for guiding light from the lighting means in the direction of the proximal end of the working tip, preferably one or more light guides.

The working tip is further preferably exchangeable attached to the handle, in particular with the hand both removable from the handle and can be brought back into its operating position. Further, it is preferred that the working tip in the region in which it is insertable into the handle, sealing means for media-tight closure of the receiving recess has. Due to the removability and changeability of the working tip is additionally ensured that both parts can be separately introduced into the autoclave, which has a better accessibility of the water vapor to the interior of the housing of the handle result. As a result, the cleanability of the dental hand tool and in particular the handle is further improved. Furthermore, depending on the treatment situation, a working tip which is suitable in each case with respect to its size, shape or material can be exchanged and exchanged.

According to a further preferred embodiment of the dental handpiece, this has a front cap which has the recess for receiving the working tip, wherein the recess extends completely through the front cap and is adapted to receive the light source on a side of the front cap opposite the working tip. If the lighting means are fastened to the exchangeable body, the result is thus the constellation that the front cap is connected to the proximal side of the handle, while the illuminants extend distally through the recess provided for the exchangeable body and into the front cap. The front cap is preferably used as a coupling housing for coupling the light emitted by the bulbs light in the working tip.

In an advantageous development, the front cap has the stop for defining the operating position of the control unit. Characterized in that the front cap is a component to be manufactured separately, which can be connected for example by pressing or screwing with the housing of the handle, can be achieved to further minimize the component complexity of the handle. In particular, the handle can be designed as a geometric basic body with a recess extending through the entire handle. The proximally mounted front cap and the distal end cap or the closure element close off this recess and fix the exchangeable body together with the electronic control unit, preferably the light source inside the recess. The front cap additionally ensures the correct position of the electronic control unit in the installation position.

In a further preferred embodiment of the dental handpiece according to the invention, the recess for receiving the exchangeable body extends completely through the handle, and the front cap is mounted on one of the opening for the closure element opposite side of the recess.

Preferably, the handle has a substantially cylindrical base body, within which the recess for receiving the removable body, preferably coaxially, is provided. In this case, a cylindrical base body is understood to mean a body which is either a cylinder or has been produced from a cylindrical base body, wherein this base body can have non-cylindrical surfaces in sections on its outer or inner peripheral surface, for example conical tapers and circumferential or axial grooves.

As an alternative to the above-described substantially cylindrical configuration of the handle with a recess extending completely through the handle, it is preferred to form the handle from two or more half or partial shells which fix the electronic control unit in a closed position in its operating position and to remove it of the exchangeable body from the closed position to be moved into an open position, in particular hinged. The partial shells are preferably coupled to one another by means of one or more hinge connections, for example by means of film hinges, or by means of elastic elements. The subshells are more preferably fixed by means of one or more reversibly releasable holding elements, such as one or more elastic rings, locking lugs and / or screws in the closed position relative to each other and separable from each other for removal of the removable body.

The invention further relates to a non-destructively autoclavable handle for a dental handpiece for invasively curing photohardenable material in a dental cavity or on a dental surface in the oral cavity of a patient, comprising an electronic control unit adapted to actuate the light emitting means in response to an operator input. wherein the handle is adapted for receiving a adapted for non-destructively autoclavable working for the introduction into the mouth of a patient for the emission of light, the control unit is housed within the handle, electrically activatable bulbs for generating the light in the working tip and / or the handle are arranged , The control unit is fixed to a removable body, which is arranged in an operating position within the handle, and the removable body together with the electronic control unit attached thereto by hand both from the Handgr iff can be removed and brought back into its operating position. The handle according to the invention is in particular adapted for use as an element of a dental handpiece according to one of the preferred embodiments described hereinbefore. With regard to the advantages of the handle according to the invention, what has been said above with regard to the dental handpiece according to the invention applies. With regard to advantageous developments of the handle according to the invention, reference is made to the above comments on the dental hand device according to the invention and the following statements, in particular the description of the figures.

The invention further relates to a method for cleaning a dental handpiece following its use for the invasive curing of photohardenable material in a dental cavity or on a dental surface in the oral cavity of a patient.

The invention is analogous to the object of specifying a method which allows a contamination-safe, fast and environmentally friendly implementation.

The invention solves this problem with the following steps: providing the dental handpiece, removing a removable body together with an attached control unit from the dental device by hand, and autoclaving a handle of the dental handpiece, preferably with a working tip arranged thereon, by means of an autoclaving device. The removal of the removable body from the handle is preferably carried out with the aid of gravity or gravity-driven, as described above with reference to one of the preferred embodiments of the dental hand device according to the invention.

The method is further developed by the steps of: inserting the exchangeable body together with the attached electronic control device in the handle by hand, such that the electronic control device is brought into an operating position, and bringing a closure element in the closed position such that the electronic control device in its Operating position is fixed.

The invention further relates to the use of an autoclaving device for cleaning a handle of a dental hand tool, preferably with a working tip arranged thereon. Preferably, the dental hand device is designed according to one of the preferred embodiments described above, and a removable body together with an electronic control device attached thereto is removed by hand from the dental handpiece.

The invention further relates to a method for invasively curing photohardenable material in a dental cavity or on a dental surface in the oral cavity of a patient.

The invention is analogous to the object of specifying a method which allows a contamination-safe, fast and environmentally friendly implementation.

The invention solves its underlying object with the following steps: introducing a photohardenable material into a dental cavity or onto a dental surface in the oral cavity of the patient, inserting a working tip of a dental handpiece, which is designed according to one of the preferred embodiments described hereinbefore the patient's oral cavity, emission of light such that a hardening process is activated in the photohardenable material, removal of the working tip from the oral cavity, removal of the exchangeable body with the attached control unit from the dental device and autoclaving the handle, preferably with the working tip of the dental handpiece after removal of the exchangeable body. The photohardenable material here is either polymerizable or already present in polymeric form. The curing process consists of a drying process and / or a polymerization process. The particular advantage of the method according to the invention is seen in the fact that the dental hand device after the processing of the oral cavity of the patient due to the rapid change process of the removable body after a short time on the next patient (or on the same patient) is ready for use again. With regard to the advantages of using the dental handpiece according to the present invention in the method described above, reference is made to the above References to the preferred embodiments of the dental hand device according to the invention.

The method is preferably developed by having an illuminant of the dental handpiece having an output power in a range of 900 mW / cm ² to 1750 mW / cm ² , and / or the exposure time in a range of 3 sec to 40 sec, preferably 5 sec to 20 sec is and / or the distance between the light-emitting end of the working tip of the dental handpiece and the photocurable material in a range of 0 mm (mounted) to 20 mm, preferably 0.5 mm to 10 mm and / or as a photocurable material is a generally light-curing or dual-curing material, preferably a material selected from the group consisting of: filler composites, compomers, plastic-modified GICs, bonds, siloranes, ormocers, dental lacquers, fissure sealants, infiltrants, and luting cements, and / or the photohardenable material is an initiator system contains, which (i) comprises one or more photoinitiators, and optionally zus (in dual-curing systems) (ii) one or more chemical cure initiators, and / or the emission spectrum of the emitted light has a peak at a wavelength in a range of 450 nm to 500 nm, preferably 460 nm to 475 nm, more preferably at 470 nm +/- 2 to +/- 5 nm.

According to a preferred embodiment, a lighting means of the dental handpiece has an output power in a range of 900 mW / cm ² to 1750 mW / cm ² , and the exposure time is in a range of 3 seconds to 40 seconds, preferably 5 seconds to 20 seconds, and The distance between the light-emitting end of the working tip of the dental handpiece and the photocurable material in a range of 0 mm to 20 mm, preferably 0.5 mm to 10 mm, and is used as a photocurable material, a general light-curing or dual-curing material, preferably a material selected from the group consisting of: composites, compomers, plastic-modified GICs, bonds, siloranes, ormocers, dental lacquers, fissure sealants, infiltrants, and fixing cements; and the photohardenable material contains an initiator system comprising (i) one or more photoinitiators, preferably selected from the group consisting of: alpha-diketones (e.g., camphorquinone), benzoin alkyl ethers, thioxanthones, benzophenones, acetophenones, ketals, titanocenes, sensitizing Dyes, and acylgermanium compounds, and optionally (ii) one or more chemical cure initiators, and the emission spectrum of the emitted light has a peak at a wavelength in a range of 450 nm to 500 nm, more preferably 460 nm to 475 nm, more preferably at 470 nm +/- 2 to +/- 5 nm.

As additives which allow or assist photocuring of the one or more polymerizable monomers, catalysts which only photosensitize (photosensitizers, photoinitiators) and accelerators (accelerators, co-initiators) which are preferably used in combination with photosensitizers may be used ,

Examples of suitable photoinitiators are alpha-diketones (eg camphorquinone), benzoin alkyl ethers, thioxanthones, benzophenones, acetophenones, ketals, titanocenes, sensitizing dyes and acylgermanium compounds. The photoinitiators can be used alone or in combination. Concrete substance examples of the different classes can be found, for example, in US Pat DE 10 2006 019 092 A1 or in the DE 39 41 629 C2 ,

Examples of suitable accelerators used with the photoinitiators include tertiary amines (eg, ethyl p-N, N-dimethylaminobenzoate (DABE)), secondary amines, barbituric acids, tin compounds, aldehydes, and sulfur compounds.

Concrete substance examples of the different classes can be found in the DE 10 2006 019 092 or in the DE 39 41 629 C2 ,

Other suitable additives (initiators and initiator combinations) are in the DE 601 16 142 described, which are by way of reference part of the present application.

The photoinitiators which can be used in the context of the present invention are preferably characterized in that they are obtained by absorption of light in the wavelength range from 300 nm to 700 nm, preferably from 350 nm to 600 nm and particularly preferably from 380 nm to 500 nm, optionally in combination with a or more co-initiators, which can cause the curing of a composition according to the invention.

The absorption maximum of camphorquinone (CC) is about 470 nm and thus in the range of the blue light. Camphorquinone (CC) is one of the PI2 initiators and is used regularly with a coinitiator.

Preferably, a composition of the invention contains the combination of an alpha-diketone and an aromatic tertiary amine, preferred is the combination of camphorquinone (CC) and ethyl-pN, N-dimethylaminobenzoate (DABE).

Alternatively, borate salts, such as those in US 4,772,530 . US 4,954,414 . US 4,874,450 . US 5,055,372 and US 5,057,393 described are used as photoinitiators.

Other photoinitiators useful in the present invention are described in J.P. Fouassier, photoinitiation, photopolymerization and photocuring, Hanser Publishers, Munich, Vienna, New York 1995, and JF Rabek (ed.), Radiation Curing in Polymer Science and Technology, Vol. II, Elsevier Applied Science, London, New York 1993 described.

The publications EP 1 905 415 B1 , "Benzoyl germanium derivatives as novel visible light photoinitiators for dental materials", N. Moszner, UK Fischer, B. Ganster, R. Liska, V. Rheinberger in "Dental Materials, 24, 901-907, 2008, as well as" Visible light initiated by YY Durmaz, N. Moszner, Y. Yagci, discuss acylgermanium compounds as photoinitiators, which may also be used to advantage within the present invention.

A suitable variant of the provision of photoinitiators is, for example, microencapsulation. Such a microencapsulation is described, for example, in US Pat DE 10 2006 050 153 A1 discussed. The microcapsules comprise or consist of a shell of polymers and of a core containing one or more photoinitiators. The photoinitiators are protected by the microencapsulation in the polymer shell, and only a certain proportion is gradually released.

The invention further relates to the use of a dental hand device for invasively curing a photohardenable material in a dental cavity or on a dental surface in the oral cavity of a patient. In this case, the invention solves the problem underlying the method according to the invention by using a dental hand device according to one of the preferred embodiments described above. In particular, the dental handpiece is used according to one of the above-described preferred embodiments of the method according to the invention.

With regard to a preferred initiator system in the use according to the invention, what has been said above in connection with the method according to the invention applies correspondingly.

The invention will be described in more detail below with reference to a preferred embodiment and with reference to the accompanying figures. Hereby show:

1 a spatial representation of a dental handpiece according to the preferred embodiment,

1a to 1e further spatial representations of the dental hand device according to 1 each with different skips of individual components,

2a . 2 B a spatial representation of the dental handpiece according to 1 in partially disassembled condition,

3 a side view of the dental handpiece according to 1 and 2 .

3a . 3b Cross-sectional partial views of the dental hand device in the in 3 indicated sectional planes,

4 another side view of the dental handset according to the 1 to 3 , and

4a a cross-sectional partial view according to the in 4 indicated cutting plane.

This in 1 spatially depicted dental hand device 1 has a handle 3 on, at the proximal end of a working tip 5 is arranged. The work top 5 has an angled section at its proximal end 7 on, which is designed for the emission of light.

The handle 3 has a housing 11 on. The housing 11 is at a distal end of the handle 3 by means of a closure element 13 closed, which is designed as an end cap. The closure element 13 opposite is on the housing 11 of the handle 3 a front cap 15 arranged. The at the proximal end of the handle 3 with the housing 11 connected front cap 15 is with a fiber optic guide 17 coupled, by means of which a light guide 19 the work top 5 in the interior of the front cap 15 is introduced. In the preferred embodiment, the housing is 11 formed rotationally symmetrical.

The housing 11 of the handle 3 also has a gripping surface 9 on. The grip surface 9 is preferably made of plastic, has to one compared to the surface of the rest of the housing 11 increased grip or friction and is deformable by hand. On the gripping surface is a, preferably convex, projection formed as commander 10 for actuating the dental hand tool 1 serves.

In 1a is the same view of the dental handpiece 1 as in 1 selected. The grip surface 9 is in 1a hidden. Under the grip surface 9 is a substantially cylindrical puncture 16 arranged, which the gripping surface 9 receives and on both sides in the axial direction (relative to the axis of rotation of the housing 11 ) fixed. In the wall of the housing 11 in the area of the puncture 16 is a slot 21 brought in. In one of the slot 21 enclosed area is a footbridge 23 educated. The jetty 23 is preferably due to the material properties of the housing 11 elastically deflectable and serves as a resilient contact mediator for transmitting the operating input to the electronic control unit 27 ( 1b ). The jetty 23 has a head section 24 on, which with correct positioning of the grip surface 9 ( 1 ) in alignment with the commander 10 is aligned.

1b shows the same orientation of the dental hand tool 1 from the 1 and 1a , In 1b is also the case 11 of the handle 3 hidden. As a result, the view is exposed on a removable body 25 , which is arranged in the form of a guide tube within the housing. The exchangeable body 25 has an outer contour, preferably to an inner contour of a recess within the handle 3 is adjusted so that a sliding movement of the exchangeable body 25 is basically possible. In the in 1b shown configuration is the exchangeable body 25 however, relative to the handle 3 or its housing 11 fixed. At a proximal end is the exchangeable body 25 with a stop 29 in Appendix. In particular, an electronic control unit 27 , which on the removable body 25 is attached, in the area of the stop 29 applied to this, whereby the installation position of the electronic control unit 27 is defined within the handle. The stop 29 is as a projection on the front cap 15 trained and allows the positioning of the removable body 25 and the electronic control unit 27 in exactly one angular position.

At a distal end is the exchangeable body 25 by means of the closure element 13 fixed, and a movement in the axial direction (relative to the housing 11 and in particular its recess for receiving the removable body 25 ) is thereby prevented. Out 1b In particular, it is also apparent that the exchangeable body 25 after removal of the closure element 13 directly by sliding within the recess 14 of the housing 11 movable and out of the case 11 is removable.

1c shows the same orientation of the dental hand device as the preceding figures. Additionally are in 1c the front cap 15 and the closure element 13 hidden. As a result, the view is exposed on a sealing ring 35 , preferably an O-ring, along a peripheral surface of the Lichtleitführung 17 is arranged to the gap between the Lichtleitführung 17 and the front cap 15 seal. Furthermore, in 1c shown that adjacent to the light guide 19 the work top 5 Lamp 37 are arranged. The bulbs 37 are at the electronic control unit 27 attached by means of a screw. Alternatively, the bulbs could 37 also be formed on the removable body. However, it is of particular advantage, even the bulbs fixed to the electronic control unit 27 to connect, because then the electronic control unit, together with the bulbs of the removable body is removable to clean this or to wait for the electronic control unit including bulbs.

1d shows a rotated by 180 degrees view of the dental handpiece according to 1c , also with blanking of the front cap 15 the closure element 13 and the housing 11 , In 1d will be apparent that in addition to the bulbs 37 and the electronic control unit also the means 39 to the electronic power supply within the exchangeable body 25 are included. The electronic control unit also has a buzzer 41 on, which is arranged at a distal end of the electronic control unit.

1e again shows the dental hand device 1 in the orientation according to 1a -C, also with suppression of the exchange body 25 , Here it is apparent that the electronic control unit 27 a circuit board 43 comprising, on which a circuit 45 and the buzzer 41 are housed. Conductor tracks are not shown for reasons of clarity. The circuit 45 in particular has a switch 47 on, with the correct positioning of the electronic control unit in its operating position aligned with the head section 24 and the commander 10 is aligned. The head section 24 transmits the preferably by pressing the commander 10 received actuating command, passes this by means of elastic deformation of the switch 47 Next, which then the circuit 45 the electronic control unit 27 to actuate the bulbs causes.

2a and 2 B show the dental hand device 1 in partially disassembled condition. In the handle 3 is by removing the closure element 13 the recess 14 exposed. The exchangeable body 25 including the electronic control unit 27 and the bulb 37 is out of the handle 3 taken. While the orientation according to 2a is considered as a view obliquely from above, so shows 2 B the same situation of the dental hand-held device 1 in a view from diagonally below. In the in the 2a . 2 B configuration shown is the handle 3 together with the working tip 5 prepared for autoclaving. The closure element 13 may, but not again to close the recess 14 be attached. The means 39 for electrical power supply are available during the autoclaving process, for example, to replace fresh cells.

In 3 is in a side view of the dental hand tool 1 a proximal area 6 indicated, which is the interface between housing 11 , Front cap 15 and work tip 5 concerns. Furthermore, in 3 a distal area 8th indicated, which is the interface between closure element 13 and housing 11 concerns.

In 3a is the proximal area 6 of the dental handpiece 1 shown in cross-sectional view. Inside the case 11 is the exchangeable body 25 (not shown) in the recess provided for him 14 introduced such that the electronic control unit 27 in operating position. The one on the handle surface 9 trained commanders 10 , the head section 24 and the switch 47 are aligned with each other. The means 39 to the electrical power supply are of Polfedern 49 and 51 ( 3b ) fixed within the exchangeable body. A screw 53 fixes the illuminant partially enclosing heat sink 55 , Inside the heat sink 55 is an LED lamp 57 arranged. The LED lamp extends partially into the chamber of a reflector 59 into it. The inner wall of the reflector 59 is conically tapered towards the LED lamp. At the LED lamp remote from the section of the reflector 59 borders the reflector 59 directly to the light guide 19 , The light guide 19 is through the fiber optic guide 17 led, which in turn into the front cap 15 used and by means of the sealing element 35 sealed against media passage.

As is in 3a can recognize, the recess extends 14 completely through the proximal section 6 of the housing 11 therethrough.

In 3b is the distal section 8th out 3 Shown in cross-sectional view. In 3b it can be seen that the board 43 the electronic control unit 27 within the exchange body 25 is guided and by means of a trained on the removable body locking lug 58 , which in a corresponding recess 61 engages, is fixed. in 3b is the closure element 12 completely in the case 11 screwed. An end-side end section 63 the closure element 13 is in contact with proppants 65 attached to the exchangeable body 25 are formed. See also 4a ,

4 shows a further side view of the dental hand tool 1 according to the preferred embodiment. The internal components of the dental handpiece 1 are indicated by dashed lines. A distal area 12 is in 4 indicated. The distal area 12 corresponds, based on the longitudinal axis of the housing 11 , essentially the position of the distal section 8th according to 3 , However, the cutting plane indicated by the letter DD is off in comparison with the cutting plane CC 3 from the middle of the case 11 offset outwards and according to the side projection of 4 in relation to 3 turned 90 degrees.

4e shows the cross-sectional partial view in the plane DD, which in 4 in the distal section 12 is indicated. In 4a is once again clearly visible how the fixation of the exchangeable body 25 through the closure element 13 is realized. The closure element 13 presses in the state shown against the support means 65 , The proppant 65 are formed as pin-shaped, obliquely outward projections, which are preferably elastically deformable. By contacting the support means provides the closure element 13 one in the axial direction - which you the screwing of the closure element 13 is backlash-free fixation of the exchangeable body 25 and thus the electronic control unit 27 for sure. In 4a is also in plan view the positioning of the latch 58 in the corresponding recess 61 displayed.

With the dental handpiece according to the preferred exemplary embodiment, tests were carried out to determine the through-curing or polymerization depth. The experiments were carried out according to the Standard FprEN ISO 4049 , Section 7.10. A stainless steel mold was provided for the production of a cylindrical specimen 6 mm in length and 4 mm in diameter. Further, two glass slides were provided for covering each side of the mold. Further, white filter paper was provided. As the translucent film, an acetate film was provided. As an irradiation device of the dental device according to the invention has been provided according to the preferred embodiment. To determine the polymerization depth, an outside micrometer with a measuring accuracy of 0.01 mm was provided. Furthermore, a plastic spatula was provided.

As a reference material, the universal filler composite GrandioSO of the company VOCO GmbH was provided, with the color A3, from the batch 1212204. First, the mold was positioned over the translucent film on one of the two glass slides. The mold was then filled with the material to be cured, which according to the instructions of the manufacturer was prepared. Air bubbles were avoided. The mold was lightly overfilled, and a second strip of the translucent film was placed on the mold, followed by the second glass slide. The mold and film strips were compressed between the glass slides, thereby extruding excess material. Subsequently, the mold was placed on the filter paper and the glass plate covering the upper portion of translucent film was removed. The outlet opening of the irradiation device was placed on the foil strip. The material was then irradiated with an exposure time of 20 seconds. Immediately after the end of irradiation, the specimen was removed from the mold and the uncured material was removed with the plastic spatula. In this case, a polymerization depth was measured by means of the micrometer. The measured value was divided by two, which corresponds to the value to be given as the polymerization depth. This test was repeated twice and the average of the three measurements. The result of these measurements revealed a polymerization depth of 2.88 mm.

For comparison, the same procedure was repeated with a previously known polymerization lamp, the dental handset Celalux 2 (VOCO GmbH). Those measurements gave a polymerization depth of 2.66 mm.

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.

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Claims (23)

Dental handpiece ( 1 ) for invasively curing photohardenable material in a dental cavity or on a dental surface in the oral cavity of a patient, comprising - a nondestructively autoclavable working tip adapted for insertion into the mouth of a patient ( 5 ) for the emission of light, - electrically activatable bulbs ( 37 ) for generating the light, an electronic control unit ( 27 ), which are used to operate the light sources ( 37 ) is arranged in response to an operator input, and - a non-destructively autoclavable handle ( 3 ), at which the working tip ( 5 ) and within which the control unit ( 27 ), wherein - the electrically activatable bulbs ( 37 ) for generating the light in the working tip ( 5 ) and / or the handle ( 3 ), - the control unit ( 27 ) on a removable body ( 25 ) which is in an operating position within the handle ( 3 ), and - the exchangeable body ( 25 ) with the electronic control unit ( 27 ) with the hand both from the handle ( 3 ) Removable and can be brought back into its operating position. Dental handpiece ( 1 ) according to claim 1, wherein the electrically activatable bulbs ( 37 ) on the exchangeable body ( 25 ) are attached. Dental handpiece ( 1 ) according to claim 1 or 2, wherein the exchangeable body ( 25 ) or the control unit ( 27 ) within one in the handle ( 3 ) recess ( 14 ) with a stop ( 29 ), which determines the operating position of the control unit ( 27 ) Are defined. Dental handpiece ( 1 ) according to claim 2 or 3, characterized by a closure element ( 13 ), which is adapted to the handle, preferably for receiving the removable body ( 25 ) provided recess ( 14 ), in a closed position to close media-tight, and in the closed position the exchangeable body ( 25 ) in the operating position. Dental handpiece ( 1 ) according to claim 2 or 3, wherein the exchangeable body ( 25 Gravity driven from the recess ( 14 ) is removable, if the recess ( 14 ) is released. Dental handpiece ( 1 ) according to one of the preceding claims, wherein the working tip ( 5 ) is arranged proximally on the dental device, and the closure element ( 13 ) is arranged distally on the dental device. Dental handpiece ( 1 ) according to one of the preceding claims, wherein the exchangeable body ( 25 ) has an outer contour, which on an inner contour of the recess ( 14 ) is adapted such that the exchangeable body ( 25 ) guided within the recess ( 14 ) is movable. Dental handpiece ( 1 ) according to one of the preceding claims, characterized in that the exchangeable body ( 25 ) is arranged to receive the electrical power supply, preferably for receiving one or more memory cells for electrical energy. Dental handpiece ( 1 ) according to claim 8, wherein the lighting means ( 37 ) - one or more LEDs ( 57 ) or halogen lamps for generating light, and - one or more reflectors ( 59 ) and / or lenses for light shaping, and preferably - a heat sink ( 55 ) for heat dissipation, wherein the heat sink ( 55 ) the remaining bulbs ( 37 ) in sections or completely encloses. Dental handpiece ( 1 ) according to one of claims 8 or 9, wherein the lighting means ( 37 ) in the handle ( 3 ) and the working tip ( 5 ) Means for guiding the light from the bulbs ( 37 ) towards the proximal end of the working tip ( 5 ), preferably one or more optical fibers ( 19 ). Dental handpiece ( 1 ) according to one of claims 8 to 10, wherein the working tip ( 5 ) Changeable attached to the handle, in particular with the hand both from the handle removable and can be brought back into its operating position. Dental handpiece ( 1 ) according to claim 11, characterized by a front cap ( 15 ), which the recess ( 14 ) for receiving the working tip ( 5 ), wherein the recess ( 14 ) - completely through the front cap ( 15 extends), and - for receiving the bulbs ( 37 ) on one of the working tips ( 5 ) opposite side of the front cap ( 15 ) is set up. Dental handpiece ( 1 ) according to claim 12, wherein the front cap ( 15 ) the stop for defining the operating position of the control unit ( 27 ) having. Dental handpiece ( 1 ) according to claim 13, wherein the recess ( 14 ) for receiving the exchangeable body ( 25 ) completely through the handle ( 3 ), and the front cap ( 15 ) on one of the opening for the closure element ( 13 ) opposite side of the recess ( 14 ) is attached. Dental handpiece ( 1 ) according to claim 14, wherein the handle ( 3 ) has a cylindrical base body, within which the recess ( 14 ) for receiving the exchangeable body ( 25 ), preferably coaxially, is provided. Non-destructively autoclavable handle ( 3 ) for a dental handpiece ( 1 ) for invasively curing photohardenable material in a dental cavity or on a dental surface in the oral cavity of a patient, comprising - an electronic control unit ( 27 ), which are used to operate the light sources ( 37 ) is arranged in response to an operator input, wherein - the handle ( 3 ) for receiving a nondestructively autoclavable working tip adapted for introduction into the oral cavity of a patient ( 5 ) is adapted to emit light, - the control unit ( 27 ) within the handle ( 3 ), - electrically activatable bulbs ( 37 ) for generating the light in the working tip ( 5 ) and / or the handle ( 3 ), - the control unit ( 27 ) on a removable body ( 25 ) which is in an operating position within the handle ( 3 ), and - the exchangeable body ( 25 ) with the electronic control unit ( 27 ) with the hand both from the handle ( 3 ) Removable and can be brought back into its operating position. A method of cleaning a dental handpiece following its use for invasively curing photohardenable material in a dental cavity or on a dental surface in the oral cavity of a patient, comprising the steps of: - providing the dental handpiece ( 1 ), - removing a removable body ( 25 ) with an attached control unit ( 27 ) from the dental device ( 1 ) by hand, and - autoclaving a handle ( 3 ) of the dental handpiece ( 1 ), preferably with a working tip arranged thereon ( 5 ), by means of an autoclave. Use of an autoclave device for cleaning a handle ( 3 ) of a dental handpiece ( 1 ), preferably with a working tip arranged thereon ( 5 ). Use according to claim 18, wherein the dental handpiece ( 1 ) according to one of claims 1 to 15 and a replaceable body ( 25 ) with an electronic control device ( 27 ) with the hand from the dental handpiece ( 1 ) is taken. A method for invasively curing photohardenable material in a dental cavity or on a dental surface in the oral cavity of a patient, comprising the steps of: introducing a photohardenable material into a dental cavity or on a dental surface in the oral cavity of a patient, inserting a working tip ( 5 ) of a dental handpiece ( 1 ), which is designed according to one of the preceding claims, into the oral cavity of the patient, - emission of light in such a way that a hardening process is activated in the photohardenable material, - removal of the working tip ( 5 ) from the oral cavity, - Removal of the exchangeable body ( 25 ) with the control unit attached thereto ( 27 ) from the dental device ( 1 ), and - autoclaving the handle ( 3 ), preferably with the working tip ( 5 ), the dental handpiece ( 1 ) after removal of the exchangeable body ( 25 ). The method of claim 20, wherein - a lighting means ( 37 ) of the dental handpiece ( 1 ) has an output power in a range of 900 mW / cm ² to 1750 mW / cm ² , and / or - the exposure time is in a range of 3 sec to 40 sec, preferably 5 sec to 20 sec, and / or - the distance between the light-emitting end of the working tip ( 5 ) of the dental handpiece ( 1 ) and the photocurable material in a range of 0 mm to 20 mm, preferably 0.5 mm to 10 mm, and / or - is used as photocurable material is a generally light-curing or dual-curing material, preferably a material which is selected from Group consisting of: composites, compomers, plastic-modified GICs, bonds, siloranes, ormocers, dental lacquers, fissure sealants, infiltrants, and fixing cements; and / or - the photohardenable material contains an initiator system which comprises (i) one or more photoinitiators, preferably selected from the group consisting of: alpha-diketones (for example camphorquinone), benzoin alkyl ethers, thioxanthones, benzophenones, acetophenones, ketals, Titanocenes, sensitizing dyes, and acylgermanium compounds, and optionally (ii) one or more chemical cure initiators, and / or the emission spectrum of the emitted light peaks at a wavelength in the range of 450 nm to 500 nm, more preferably 460 nm to 475 nm, more preferably at 470 nm +/- 2 to +/- 5 nm. Use of a dental handpiece ( 1 ) according to any one of claims 1 to 15 for invasively curing a photohardenable material in a dental cavity or on a dental surface in the oral cavity of a patient. Use according to claim 22, wherein the light-curing material in the dental cavity or on the dental surface contains an initiator system which comprises (i) one or more photoinitiators, preferably selected from the group consisting of: alpha-diketones (eg camphorquinone) , Benzoin alkyl ethers, thioxanthones, benzophenones, acetophenones, ketals, titanocenes, sensitizing dyes, and acylgermanium compounds, and optionally (ii) one or more chemical cure initiators.

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