ES2332841B1 - DENTAL IMPLANT GIVEN WITH AN OPTIMIZED EXTERNAL THREAD PROFILE. - Google Patents

Abstract

Dental implant with a thread profile external optimized.

Dental implant (1) equipped with a threaded part (2) whose thread profile is of trapezoidal section, that is, provided with a short flank (4), a thread crest (5), a flank long (6) and a thread valley (7), with the particularity that substantially the entire part of the thread profile directed at the direction of the longitudinal axis (8) forms a very sharp angle (10) with said longitudinal axis (8), said angle (10) being analogous to Profile of a natural tooth. Through these characteristics, the dental implant (1) manages to reproduce in a threaded profile a behavior similar to the unthreaded profile of a tooth natural. That is, a dental implant (1) is achieved which, in addition to Being self-tapping, it has mechanical properties and distribution of tensions in the bone analogous to those of a tooth natural.

Description

Dental implant with a thread profile external optimized.

Technical sector

The invention relates to a dental implant. for the installation of dentures or artificial teeth in A patient's mouth

State of the art

As is known, dental implants are threaded pieces of very small size that are fixed to the bone jaw of a patient and to which a tooth is connected artificial or dental prosthesis. Specifically, the process of Implant installation and dental prosthesis is usually the next: using the appropriate tools a cavity in the patient's maxillary bone; Subsequently insert the implant by threading it into the cavity of the maxillary bone; afterwards, a time of weeks or months is expected until the implant is osteointegrated into the patient's maxillary bone; finally, one or more artificial teeth are connected to the implant by means of a screw or other accessory parts.

The dental implant mainly has two parts: on the one hand, it comprises a head, which provides the implantation of the connection means necessary to receive the screw, artificial tooth and other parts used in a way temporary in the implant installation or permanently in the artificial tooth installation; on the other hand, it comprises a tip or external threaded part, which is what allows the Dental implant can connect to the patient's maxillary bone.

The dental implant connection to the maxillary bone of the patient must be robust enough to withstand stresses received by the dental implant during the life of the artificial tooth without deteriorating the connection between the Dental implant and maxillary bone. Tensions can be lateral, although fundamentally they are longitudinal (in the implant shaft direction) originated during chewing with the artificial tooth

The invention aims to offer a new design of external thread of the dental implant that improves the connection between the dental implant and maxillary bone, allowing among others advantages that said connection optimally supports tensions caused by the habitual use of the artificial tooth during shelf life of it. That is, the new external thread design hopes to minimize the tensions transmitted to the bone by said external thread of the implant and therefore increase the possibilities of implant success (understood as "success" the fact that the implant is completely osseointegrated).

Brief Description of the Invention

The object of the invention is a dental implant. equipped with a threaded part whose thread profile seeks to meet Fundamentally two requirements. On the one hand, the implant according to The invention seeks to present mechanical properties and distribution of tensions in the bone analogous to those of a tooth natural (considering the connection of the natural tooth to the bone as  optimal, consequence of thousands of years of evolution). It has to be in mind that the tensions transmitted from the dental implant to the bone as a result of the use of the dental implant during its life useful, if excessive, can cause damage and even the bone tissue death On the other hand, the threaded part must be self-tapping, that is, it must allow the dental implant to go creating a threaded joint with the maxillary bone as it is being introduced in it. To do this, the dental implant according to the invention presents a thread profile of trapezoidal section (it is that is, provided with a short flank, a thread crest, a flank long and a valley of thread), with the particularity that substantially the entire part of the thread profile directed at the longitudinal axis direction forms a very sharp angle with said longitudinal axis, said angle being analogous to the profile of a tooth  natural. That is to say, the crest of thread and the valley of thread present a substantially negligible length with respect to the long flank length, while the long flank forms a angle with the longitudinal axis very sharp in the direction of the load forces (after looking closely at the profile of a natural tooth, it has been found that said profile has an angle very sharp in the direction of the loading forces that causes the distribution of tensions in the bone is the minimum possible). Through these characteristics, the dental implant achieves reproduce in a threaded profile a behavior similar to that of unthreaded profile of a natural tooth.

On the other hand, the angle that forms the flank short with the longitudinal axis is at least twice the angle that form the long flank with the longitudinal axis, to ensure that the long flank transmits the tension to the bone analogously to the natural tooth and that the short flank allows easy insertion of the dental implant in the bone.

A computer simulation of the mechanical behavior of a dental implant according to the invention in comparison with a dental implant with a thread profile traditional, that is, a triangular thread profile (with a section in the form of an equilateral triangle), in order to determine the improvements obtained by the invention. Specifically, it has simulated the tension transmitted by the implant to the bone, having keep in mind that the tension on the bone must be as small as possible since it is responsible for a phenomenon known as recoil of bone. In addition, excessive tension can cause ischemia, being this one of the most determining factors of the failure of the implant. In this simulation it has been proven that both implants known as in the implant according to the invention the peak of maximum tension occurs in the contact between the bone and the first turn of the threaded part (i.e. the nearest turn at the head of the implant), and that the tension decreases in the following turns, being practically negligible from the sixth / seventh turn. In addition, this simulation has concluded that the dental implant according to the invention achieves decrease bone tensions by about 20% described, expanding the probability of implant success.

Brief description of the figures

The details of the invention can be seen in the accompanying figures, not pretending to be limiting of scope of the invention:

- Figure 1 shows a front view of a embodiment of the dental implant according to the invention, inserted into a maxillary bone.

- Figure 2 shows an enlarged view of the Thread profile of the dental implant in the previous figure.

- Figure 3 is a graph that represents the tension (in MPa) transmitted by the implant to the maxillary bone in function of the angle (in degrees) that forms the long flank with the axis longitudinal of the dental implant.

- Figure 4 is a graph that represents the tension (in MPa) transmitted by the implant to the maxillary bone in thread pitch function (in millimeters) of the threaded part of the dental implant.

- Figure 5 is a graph that represents the tension (in MPa) transmitted by the implant to the maxillary bone in function the thread depth (in millimeters) of the threaded part of the dental implant.

Detailed description of the invention

Figure 1 shows a front view of the dental implant according to the invention. The dental implant (1), which is sample inserted into the maxillary bone (3) of a patient, it has an elongated shape arranged around an axis longitudinal (8). In order to be connected to the maxillary bone (3), the Dental implant (1) comprises a threaded part (2).

Figure 2 shows an enlarged view of the thread profile of the threaded part (2) of Figure 1. The part threaded (2) has a trapezoidal section, consisting of a short flank (4), a thread ridge (5), a long flank (6) and a Thread Valley (7).

The long flank (6) forms an angle (10) very acute with the longitudinal axis (8), said angle (10) being analogous to that of a profile of a natural tooth. Said angle (10) is preferably between 5 and 40 °, because said range of angles is what has been observed in natural teeth that have studied during the development of the present invention. From an especially advantageous way this angle (10) will take a value between 10 and 20º, value for which the computer simulation has indicated that the distribution of tensions between the dental implant (1) and the maxillary bone (3) is optimal. Figure 3 shows a graph of the tension (in MPa) transmitted by the dental implant (1) to the maxillary bone (3) depending on the angle (10) (in degrees) that form the long flank (6) with the longitudinal axis (8). How can see in the figure, if an angle (10) of between 10 is used and 20º, the tension transmitted to the maxillary bone (3) is minimal. Angle values (10) of less than 10 ° are hardly considered manufactured.

It should be noted as a note that once found the range of values of the angle (10) that causes the dental implant behavior (1) is optimal (between 10 and 20º), has returned to the analysis performed on natural teeth and has observed that most of the natural teeth analyzed they have an angle between 10 and 20º. That is, the angle (10) optimal for achieving a dental implant (1) self-tapping and behavior as close as possible to a natural tooth is corresponds with great correlation with the angles measured in teeth natural In a computer simulation of a natural tooth performed subsequently and analogously to the simulation Computing performed for the dental implant thread profile, it has been verified that the configuration observed in the teeth natural, which is assumed optimal after millions of years of evolution of the human being, it is effectively the configuration with the lowest peak of stress causes on the tooth.

On the other hand, the angle (9) is at least two times the angle (10), so that the threaded part (2) can be self-tapping and at the same time the amount of threaded part is minimized (2) arranged in a longitudinal direction at an angle other than of the long flank (6). In this line minimize zones arranged at an angle other than the long flank (6), the crest of Thread (5) and the Thread Valley (7) have a length substantially negligible with respect to flank length long (6) in order to minimize these areas (5, 7).

The angle (9) that forms the short flank (4) with the longitudinal axis (8) is preferably between 70 and 40 °. The angles (9) included in this range are the optimal values for facilitate the insertion of the dental implant (1) in the maxillary bone (3) by requiring a lower implant insertion torque than with angles outside that range, as indicated by computer simulation done. As a note, computer simulation has also returned the result that the value of the angle (9) does not influence the transmission of tensions to the maxillary bone (3).

The thread pitch (11) visible in Figure 2 is between 5 and 2 times smaller than the diameter (12) of the dental implant (one). These values allow the dental implant according to the invention can be inserted according to the method of insertion of conventional implants, which is important to facilitate the insertion of the dental implant according to the invention. Out of this range, the number of returns to be performed on the implant (and so both applied torque) during implant insertion in the bone would change so that current procedures do not They would be valid. In a particularly advantageous way, the passage of Thread (11) is between 3.5 and 2.7 times smaller than the diameter (12) of the dental implant (1), since in this sub-range achieves the greatest decrease in the transmitted voltage. By example, for a dental implant (1) with a diameter (12) equal to 4 mm, the thread pitch (11) is preferably between 1.15 and 1.50 mm since, as can be seen in Figure 4, it is between these values when it is guaranteed that the tension transmitted to the maxillary bone (3) by the dental implant (1) it is minimal.

The thread depth (13) is between 20 and 12 times smaller than the diameter (12) of the dental implant (1). As that in the previous case, these values allow not to modify the current dental implant insertion guidelines (1) with respect to a conventional dental implant In a way especially advantageously, the thread depth (13) is between 18 and 15 times smaller than the diameter (12) of the dental implant (1), since this is the sub-range in which you get a higher Decreased transmitted voltage. For example, for a dental implant (1) with a diameter (12) equal to 4 mm, the thread depth (11) is preferably between 0.20 and 0.27 mm since, as can be seen in Figure 5, it is between these values when it is guaranteed that the tension transmitted to the maxillary bone (3) by the dental implant (1) it is minimal.

Thus, for example, for a dental implant (1) of diameter equal to 5 mm, the invention establishes a thread profile very optimal with the following characteristics: a depth of 0.3 mm thread (16.7 times less than the diameter), a step of 1.5 mm thread (3.33 times less than the diameter), an angle (9) between the short flank (4) and the longitudinal axis (8) equal to 55 °, a angle (10) between the long flank (6) and the longitudinal axis equal to 15º, a thread ridge (5) of 0.05 mm in length and a valley of thread (7) 0.05 mm in length (both substantially negligible with respect to the length of the long flank (6), which It is about 1.88 mm). With these values an implant is achieved Dental (1) that maintains the dental implant insertion method conventional, it facilitates the threading in its placement, it is easily manufactured and also transmits the tensions in such a way that the peak peak voltage is about 20% lower than that of a conventional dental implant

Claims (8)

1. Dental implant (1), which has an elongated arrangement around a longitudinal axis (8) and comprising a threaded part (2) to connect the dental implant (1) to the maxillary bone (3) of a patient, where the Thread profile of the threaded part (2) has a trapezoidal section consisting of a short flank (4), a thread ridge (5), a long flank (6) and a thread valley (7), characterized by that:

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he short flank (4) is substantially shorter than the long flank (6),

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he long flank (6) forms a very sharp angle (10) with the axis longitudinal (8), said angle (10) being analogous to the profile of a natural tooth,

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the thread crest (5) and the thread valley (7) have a length substantially negligible with respect to flank length long (6),

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he angle (9) is at least twice the angle (10).

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2. Dental implant (1) according to claim 1, characterized in that the angle (10) that forms the long flank (6) with the longitudinal axis (8) is between 5 and 40 °. 3. Dental implant (1) according to claim 2, characterized in that the angle (10) that forms the long flank (6) with the longitudinal axis (8) is between 10 and 20 °. 4. Dental implant (1) according to claim 1, characterized in that the angle (9) that forms the short flank (4) with the longitudinal axis (8) is between 70 and 40 °. 5. Dental implant (1) according to claim 1, characterized in that the thread pitch (11) is between 5 and 2 times smaller than the diameter (12) of the dental implant (1). 6. Dental implant (1) according to claim 5, characterized in that the thread pitch (11) is between 3.5 and 2.7 times smaller than the diameter (12) of the dental implant (1). 7. Dental implant (1) according to claim 1, characterized in that the thread depth (13) is between 20 and 12 times smaller than the diameter (12) of the dental implant (1). 8. Dental implant (1) according to claim 1, characterized in that the thread depth (13) is between 18 and 15 times smaller than the diameter (12) of the dental implant (1).