瑞士专利CH709851A1 The endodontic instrument for reaming root canals.

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专利摘要:
The present invention relates to an endodontic instrument (10) for the preparation of a tooth of a patient, in particular a root canal cleaning instrument that respects the natural geometry of said canal. The instrument (10) has a rigid tip (11) arranged to be mounted on a rotating support (102) of a device (103) called a contra-angle, and a working sector (12). Said working area (12) comprises a free end section (13), and is arranged to be engaged in said root canal (101). The working sector (12) consists of a first substantially rectilinear active segment (14) arranged in the extension of said rigid end piece (11), and at least one second active segment (15) comprising said end section free (13). In the static state, said second active segment (15) is substantially rectilinear and in said dynamic state said second active segment (15) has a curved shape.
公开号:CH709851A1
申请号:CH01020/14
申请日:2014-07-07
公开日:2016-01-15
发明作者:Olivier Breguet；Jean-Claude Rouiller
申请人:Fkg Dentaire Sa；
IPC主号:

专利说明:

Technical area
The present invention relates to an endodontic instrument, for the preparation of a tooth of a patient, including a root canal cleaning instrument which respects the natural geometry of said channel, said instrument having a static state and a dynamic state, said static state corresponding to a substantially rectilinear geometry to allow the partial insertion of the instrument into the channel and said dynamic state corresponding to a structured geometry, flexible and flexible holding, in which it is rotated to perform the cleaning of the the inner wall of said root canal respecting its natural geometry, said instrument having a rigid tip arranged to be mounted on a rotating support, and a working sector arranged to be engaged in said root canal.
Prior art
The cleaning and shaping of the root canals of a tooth in order to receive sealing substances is usually done by means of boring instruments having an active part, said working part, which has for the purpose of shaping, cutting and cleaning the inner walls of the root canal to prepare it for receiving the treatment materials and then a filling material to prevent any supply of oxygen that may allow bacterial growth in the tooth and especially near the root.
This type of root canal boring instrument usually comprises an active part, called section section, having a conical envelope and one or more cutting edges wound helically along said active part. These instruments tend to "cut" the walls of the canal, that is to say to notch the dentine without really taking into account the natural shape of the canal, respecting the canal path. However, recent studies show that it is disadvised to dentin, because this approach has the effect of weakening the tooth. The most successful endodontists try to comply with these guidelines and try to find rotating instruments that are designed to allow them to follow the root canal and clean its walls completely regardless of the profile and general morphology of the canal, knowing that It varies from one individual to another. On the one hand, it is known that the root canal profile is extremely varied according to the patients, that these channels frequently have an irregular oval cross-section along their length and that they may have one or more constrictions and curved sectors.
However virtually all current endodontic instruments for the boring of a root canal are a priori rectilinear, although some have some flexibility that allows them to adapt more or less to the longitudinal profile of the root canal. However, this flexibility does not ensure an effective cleaning of the entire wall, if the latter has variations in curvature and section. In addition, the inscribed envelope of the space swept by a conventional instrument rotated about its longitudinal axis, is almost cylindrical or conical because of the axial symmetry geometry of this instrument, so that the walls of a root canal oval section can not be scanned by a single instrument, but necessarily by a series of instruments whose sections are scalable. The practitioner is therefore obliged to change instruments during the procedure, starting with small and progressively larger diameters, which is tedious and moreover does not guarantee that the cleaning of the walls is effected effectively without a damaging attack. dentin.
[0005] Nearly all of the currently marketed root canal boring instruments do not meet the requirements of many practitioners, on the one hand, because they do not correspond to the canal morphology and, on the other hand, because that they have several cutting edges that cut and mill the dentine of the walls of the channel, instead of just following his profile to clean the surface. In addition, their relative stiffness makes it possible to mill only cylindrical or conical orifices at each passage and even the movement in translation along the axis of rotation of the instrument, parallel to itself, does not make it possible to clean all the wall surfaces, if they are oval with irregular sections and have narrowing along their length.
There is therefore a need for instruments of a new type that meet the requirements of practitioners namely instruments that have sufficient flexibility to follow the profile of the channel, to rely on all the roughness and inequalities of canal walls and rub them to remove the inner biofilm without damaging the dentin.
Presentation of the invention
The present invention proposes to provide an instrument that meets all the requirements expressed by practitioners in the preparation of root canals. For this purpose, this instrument effectively satisfies the constraints imposed to carry out the preparation of such a channel by accurately following its profile, by cleaning its walls without milling the dentine in which it is located, that is to say say by scraping its walls to loosen the soft matter that makes up the biofilm without damaging the harder bone materials called dentin. The instrument according to the invention is designed to carry out these operations regardless of the morphology of the channel, particularly if this channel has part or all of an oval section, whether or not there are narrowing along its length, if it is substantially rectilinear or curved with angular variations along its length and if its walls are regular or have asperities.
This objective is achieved by the endodontic instrument according to the invention, as defined in the preamble and characterized in that in the dynamic state of the instrument, said working sector consists of a first substantially active segment. rectilinear, disposed in the extension of said rigid tip, this first active segment being extended by at least a second active segment having a free end and having a curved shape between the point of connection with said first active segment and a free end, said second segment curved active having an arrow whose length is between the largest half-cross section of said root canal and the smallest half-cross section of said root canal.
Various embodiments are envisaged, in particular with a free end having a bevel-shaped tip, having an angle of between 30 ° and 60 ° and preferably at least approximately equal to 90 °, a free end having a tip in the form of a dovetail with an angle of opening angle lying between 60 ° and 30 ° and preferably close to 45 °, a free end has a tip of flared shape, having an enlargement is defined by a radius (R1 ), or having an enlargement is defined by an angle substantially between 120 ° and 150 °.
According to another embodiment it is made of a shape memory metal alloy, in which the transition from the martensitic phase to the austenitic phase occurs naturally at body temperature between 32 ° C and 37 ° C .
According to a variant it is made of a shape memory metal alloy, in which the transition from the martensitic phase to the austenitic phase is effected by a temperature rise by injection of a hot liquid or by application of vibrations. induced by ultrasound.
It may be advantageously made of a metal alloy having properties of super elasticity acquired following a heat treatment.
Brief description of the figures
The present invention and its advantages will be better understood on reading the detailed description of preferred embodiments of the instrument, with reference to the appended drawings given by way of non-limiting indication, in which:<tb> fig. 1 <SEP> represents the instrument according to the invention, represented in a static state and engaged in the root canal of a tooth to be treated,<tb> fig. 2 <SEP> represents the instrument according to the invention represented in a dynamic state and engaged in the root canal of a tooth to be treated,<tb> figs. 2A and 2B <SEP> are cross-sectional views of the patient's tooth respectively in a plane A-A and in a plane B-B, parallel to the plane A-A, and arranged at different levels,<tb> fig. 3 <SEP> represents a view similar to that of FIG. 2, showing the instrument according to the invention in the dynamic state, engaged inside a root canal, during a second treatment phase,<tb> fig. 4 <SEP> represents a view similar to that of FIG. 3, showing the instrument according to the invention in the dynamic state, engaged inside a root canal, during a third treatment phase,<tb> figs. 5 and 6 <SEP> represent a first embodiment of the instrument according to the invention, respectively in its static state and its dynamic state,<tb> fig. 7 <SEP> represents a second embodiment of the instrument according to the invention, in its dynamic state,<tb> fig. 7A <SEP> represents a detail view of the end of the instrument of FIG. 7,<tb> fig. 8 <SEP> represents a third embodiment of the instrument according to the invention, in its dynamic state,<tb> fig. 8A <SEP> represents a detail view of the end of the instrument of FIG. 8,<tb> fig. 9 <SEP> represents a second embodiment of the instrument according to the invention, in its dynamic state, and<tb> fig. 9A <SEP> represents a detail view of the end of the instrument of FIG. 9.
Best ways to achieve the invention
Referring to the figures, the endodontic instrument 10 which is designed to perform the preparation of a tooth 100 of a patient as part of a root treatment, is a cleaning instrument or a channel This instrument 10 is, unlike the known instruments for carrying out such a preparation, arranged to clean the interior walls of the cavity without "milling" or "boring" the channel, but to follow the natural trajectory without starting. the hard part of the tooth. It is designed to have at least one static state illustrated in particular in FIG. 1 and a dynamic state illustrated in FIG. 2. Note that in its static state, the instrument has a substantially rectilinear profile and that it also has great flexibility or flexibility, which allows it to be easily introduced into the root canal 101 of the tooth 100. dynamic state, the instrument has a curved profile, with at least one curvature, which allows it to fulfill its mission of cleaning the walls of said root canal by sweeping the inner surface of the walls of the root canal.
The endodontic instrument 10 comprises a rigid tip 11 arranged to be mounted on a rotating support 102 of a device 103 called a contra-angle, and a working sector 12. Said work area comprises a free end section 13, and it is arranged to be engaged in said root canal 101. The working sector 12 consists of a first substantially rectilinear active segment 14, disposed in the extension of said rigid end piece 11, and of at least a second active segment 15 comprising said free end section 13. In the static state, (see Fig. 1) said at least one second active segment 15 is substantially rectilinear and in said dynamic state, (see Fig. 2) said at least one second active segment 15 has a curved shape between the point of connection with said first active segment 14 and said free end 13. The curved shape of the active segment 15 may correspond to an arc or a circle another profile approaching a shape of an arc of a circle, (see in particular fig. 2 and 6) whose arrow d is the distance between the vertex S of the arc to the straight line which connects its two ends M and N. In the context of the present invention, the arrow d of this arc has a length which is between half of the smallest cross-section a of said root canal 101 and half of the largest section b of said root canal when said instrument 10 is in its dynamic state.
FIG. 2 represents the instrument in its dynamic state in a first phase of treatment, when the end section 13 is pressed down to the end of the root canal 101. When the instrument is rotated, its end section sweeps the the deepest part of the canal and cleans the walls in this part to remove the soft parts that line them, without damaging the dentine. During rotation, these parts are pushed up the channel to be evacuated. It will be noted that this operation is carried out regardless of the width of the channel, its geometry, its transverse dimensions, the presence or absence of asperities due to the flexibility of the end section 13 and its curved shape which whips the surface of the walls.
Figs. 2A and 2B are sectional views along the A-A and B-B planes respectively of the tooth 100, showing oval sections 101a and 101b of the root canal 101 and sections of the active segment 15 of the working area 12. Channel 101 could of course have more complex shapes, such as a C- or S-shaped cross section. Because of the flexibility of the work area, all types of channels can be processed regardless of their geometry.
Figs. 3 and 4 represent two views of the instrument 10 representing during different processing phases, the instrument having been moved along the channel between the two operations. By moving the instrument in this way, the operator can sweep the entire surface of the canal walls along its entire length.
The instrument 10 is advantageously made of a metal alloy of the shape memory type, so that it passes from its static state shown in FIG. 1 in its dynamic state illustrated in FIG. 2, thanks to a rise in temperature. It may also have superelasticity characteristics, obtained by the choice of alloy and by specific treatments, including heat treatments.
In a particularly advantageous manner, when the instrument is of the shape memory type, the static state is obtained at ambient temperature, namely of the order of 20 ° C and the dynamic state is obtained at body temperature, namely of the order of 32 ° C to 37 ° C. This increase in temperature can be reached naturally, after the introduction of the working sector 12 in the root canal 101 or by external heat input, for example by localized injection of a hot liquid, radiation or following a warm-up by Joule effect.
In its static state, the instrument 10, at rest as shown in FIG. 5 or at the beginning of the working procedure, as shown in fig. 1, has a substantially straight profile. At the moment of rotation, as shown in FIG. 2, for example accompanied by an irrigation by a liquid that takes the body temperature, which has the effect of triggering the shape memory effect, the instrument returns to its predefined form illustrated in FIG. 6. It is in this state that the working area 12 and more precisely the second active segment 15 of the instrument 10 is supported on the canal walls. The second active segment 15 has a span or arrow d of the arc constituted by said active segment 15. The arrow d is the distance that separates the vertex S from the arc of the segment MN which connects the two ends of the arc, corresponding to the curvature of the active segment 15. The length of this arrow is between half of the smallest section a of the root canal 101 and half of the largest section b of this channel. In this way, due to the rotation of the instrument, said active segment acts as a whip which rubs against the walls of the channel and removes the soft parts which can line the surface. Its function is to clean the surface of the walls regardless of their geometry.
The instrument 10, if it is of the shape memory type, when in its dynamic state is in austenitic phase ie very flexible and elastic, which allows it to scratch the surface of the walls of the root canal 101. The passage from one of the states to another may be related to a temperature variation or to the application of vibrations possibly induced by ultrasound. Note that the second active segment 15 of the instrument 10 touches the canal wall regardless of the geometry of the channel. This specificity is shown in particular by FIGS. 3 and 4 representing the instrument 10 in function at different levels of the channel. Regardless of the narrowness of the channel or the restriction of the passage or the cross section of the channel 101, the second active segment 15 may fulfill its purpose of cleaning the surface of the canal walls.
It will be noted that the working sector 12 and more precisely the second active segment 15 of the instrument 10 could comprise several successive curved elements, these elements each having a curved arc-shaped profile only when the instrument is in position. its active state. In its passive state, the active segment 15 being substantially rectilinear.
During the procedure of use, namely while the active segment 15 performs its function of cleaning the canal walls, it is possible to adapt or reduce the force of "scraping" by injecting the irrigant to room temperature with a syringe. The cooling effect of this action has the effect of transforming the Niti from the austenitic phase to the martensitic phase which will have the effect of reducing the force of "scratching" on the canal walls.
After a period of use, the super elastic effect will be restored with the increase in temperature of the irrigant caused by the body temperature or due to warming due to the friction forces of the instrument.
Fig. 3 7 and the detail figure 7A show another embodiment of the instrument 10, wherein the end section 13 comprises a tip 16 having an angle profile, or beveled at an angle between 60 ° and 30 ° and preferably close to 45 °.
FIG. 8 and the detail figure 8A show another embodiment of the instrument 10, wherein the end portion 13 comprises a tip 16 having a dovetail profile with an angle of opening angle between 60 ° and 30 ° and preferably close to 45 °.
Fig. 9 and detail 9A show another embodiment of the instrument 10, wherein the end portion 13 comprises a tip 16 having a flared profile, the end having an enlargement defined by a radius R1 or an angle substantially between 120 ° and 150 °.
The various forms described above have the function of improving the action of the instrument, namely the cleaning of the walls.
The present invention is not limited to the embodiments described, but may undergo various modifications or variations obvious to the skilled person. In particular other materials could be used such as certain plastics, or compounds of synthetic materials, fibers, especially carbon fibers.

权利要求:
Claims (12)
[1]
1. Endodontic instrument, for the preparation of a patient's tooth, in particular a root canal cleaning instrument which respects the natural geometry of said channel, said instrument having a static state and a dynamic state, said static state corresponding to a substantially rectilinear geometry to allow the partial insertion of the instrument into the channel and said dynamic state corresponding to a structured geometry, a flexible and flexible holding, in which it is rotated to perform the cleaning of the inner wall of said root canal respecting its natural geometry, said instrument having a rigid tip arranged to be mounted on a rotating support, and a working sector arranged to be engaged in said root canal, characterized in that, in the dynamic state of the instrument, said work area consists of a first substantially straight active segment ne, arranged in the extension of said rigid tip, this first active segment being extended by at least a second active segment having a free end and having a curved shape between the point of connection with said first active segment and a free end, said second segment curved active member having an arrow (d) whose length is between the largest half-cross section (a) of said root canal and the smallest half-cross section (b) of said root canal.
[2]
2. endodontic instrument, according to claim 1, characterized in that said free end comprises a bevel-shaped tip.
[3]
Endodontic instrument according to claim 2, characterized in that said bevel has an angle of between 30 ° and 60 ° and preferably at least approximately equal to 45 °.
[4]
4. endodontic instrument, according to claim 1, characterized in that said free end comprises a tip shaped dovetail.
[5]
5. endodontic instrument according to claim 4, characterized in that said dovetail with an angle of opening angle between 60 ° and 30 ° and preferably close to 45 °.
[6]
6. Endodontic instrument, according to claim 1, characterized in that said free end comprises a tip of flared shape.
[7]
7. endodontic instrument according to claim 6, characterized in that the end having an enlargement is defined by a radius (R1).
[8]
8. Endodontic instrument according to claim 6, characterized in that the end having an enlargement is defined by an angle substantially between 120 ° and 150 °.
[9]
9. endodontic instrument, according to claim 1, characterized in that it is made of a shape memory metal alloy, wherein the transition from the martensitic phase to the austenitic phase occurs naturally at body temperature between 32 ° C and 37 ° C.
[10]
10. endodontic instrument according to claim 1, characterized in that it is made of a shape memory metal alloy, in which the transition from the martensitic phase to the austenitic phase is effected by a temperature rise by injection of a hot liquid.
[11]
11. endodontic instrument, according to claim 1, characterized in that it is made of a metal alloy having properties super elasticity acquired following a heat treatment.
[12]
12. endodontic instrument, according to claim 1, characterized in that it is made of a shape memory metal alloy, in which the transition from the martensitic phase to the austenitic phase is performed by applying vibrations induced by ultrasound .

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引用文献:

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法律状态:
2019-02-28| NV| New agent|Representative=s name: ACTOSPHERE SARL, CH |

优先权:

申请号 | 申请日 | 专利标题

CH01020/14A|CH709851B1|2014-07-07|2014-07-07|Endodontic instrument for reaming root canals.|CH01020/14A| CH709851B1|2014-07-07|2014-07-07|Endodontic instrument for reaming root canals.|

US15/324,491| US20180177568A1|2014-07-07|2015-07-06|Endodontic instrument for drilling root canals|

MX2017000096A| MX2017000096A|2014-07-07|2015-07-06|Endodontic instrument for drilling root canals.|

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PCT/CH2015/000098| WO2016004541A1|2014-07-07|2015-07-06|Endodontic instrument for drilling root canals|

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JP2016574892A| JP2017524423A|2014-07-07|2015-07-06|Endodontic appliance for root canal opening|

IL249761A| IL249761A|2014-07-07|2016-12-25|Endodontic instrument for drilling root canals|

CL2017000045A| CL2017000045A1|2014-07-07|2017-01-06|Endodontic instrument for root canal perforation|

ZA2017/00554A| ZA201700554B|2014-07-07|2017-01-24|Endodontic instrument for drilling root canals|

HK17105144.5A| HK1231358A1|2014-07-07|2017-05-22|Endodontic instrument for drilling root canals|

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