BE1020009A3 - A METHOD FOR PLANNING IMPLANTOLOGICAL TREATMENTS BASED ON NON-GEOMETRIC PARAMETERS. - Google Patents

Abstract

The invention relates to a method for selecting a suitable implant from a library of implants based on features that are not intrinsically connected to the implant in a three-dimensional planning software in a simple and rapid manner. Here the user is offered various selection criteria; for example, an implant can be chosen compatible with certain prosthetic components, a certain type of surgical kit and drilling guide system, a process or protocol, clinical and non-clinical indications.

Description

A METHOD FOR PLANNING IMPLANTOLOGICAL TREATMENTS BASED ON NON-GEOMETRIC PARAMETERS

Technical field of the invention

The present invention relates to a method for planning implantological treatments based on "external" or non-geometric parameters.

State of the art

When planning dental implants, more and more use is made of three-dimensional planning software. Via a CT (Computer Tomography) scan or a CBCT (Cône Beam CT) scan, where a CBCT scan allows to scan patients in a standing position, information is collected about the anatomy of the patient, in a three-dimensional space, via a grid of grayscale, the so-called voxels.

In this way the treating doctor or dentist gets a better picture of the amount of bone available, the bone quality, the proximity of other anatomical structures such as tooth roots or the alveolaris inferior nerve (nerve in the lower jaw), etc.

When planning implant positions, the display of realistic implants offers a major advantage compared to a schematic (cylindrical) representation. For example, a treating physician can evaluate whether the windings of the implant are planned sufficiently deep in the cortical bone, whether the apex of the implant is sufficiently planned above or next to the infra-alveolar nerve, or whether the coronal point of the implant is at the correct height. is related to the bone or gums, ... To that end, specialized software packages offer a library of implants that can be used directly during the planning process.

The fact that there are very many implants available on the market (tens of thousands of implants, from nearly 200 different brands) makes it a challenge for the user to find the desired implant in such libraries. This is often solved by applying an obvious grouping based on implant brand and / or product line. In addition, implants can be further grouped based on occlusal diameter and sorted by length.

The disadvantage of this is that it is not always available to the user the complete information he needs to make a good choice of implant, since it assumes that the user is familiar with the further properties of the implant.

Implants are typically used in combination with specific prosthetic components (abutments) that form the connection between the implant and the crown or bridge structure that is built upon it. Typically, one implant brand has various product lines of implants and abutments, separate from each other. One particular product line of abutments is usually compatible with multiple implant lines, but not necessarily with all available product lines.

A method has been described in the literature to identify implants and associated prosthetic components. Implants and prosthetic components of the same platform are indicated with the same color; so it is immediately clear that a certain component belongs to a group of components. Although such identification is also applicable in software, it has the disadvantage that it is not very user-friendly. After all, the user still has to manually find the right components (based on color) in a very long list.

Certain software packages, for example coDiagnostix, allow you to immediately see which prosthetic components are compatible with a specific implant that the user has selected. CoDiagnostix also makes it possible to select a prosthetic component based on the desired prosthetic solution or based on material properties. However, the disadvantage of this known method is that the user is supposed to be familiar with the further properties of the implant, such as the compatibility between prosthetic component and implant.

Summary of the invention

It is an object of the invention to provide a computer-based method for planning dental implants by using "external" or non-geometric parameters. Preferably, these non-geometric parameters do not describe the implant directly. This is in contrast to (evident) intrinsic parameters of the implant, such as the length, occlusal diameter, apical diameter, shape, ...

To this end, according to a first aspect of the invention, a method is provided which comprises the following steps: (1) displaying three-dimensional patient data; (2) storing a suitable position for a dental implant; (3) providing a library provided with digital representations of digital dental implants, wherein each dental implant comprises attributes defined by one or more external or non-geometric parameters; (4) providing a menu for selecting a specific implant from the dental implant library, based on one or more external or non-geometric parameters, and (5) displaying the selected implant in the three-dimensional patient data

Saving a suitable position for a dental implant can be done after determining the suitable position. This determination can be achieved by either placing a standard implant or by taking measurements at a certain position in the 3D images.

Furthermore, an object of the invention is to provide a method for selection or grouping of dental implants, based on a prosthetic target or prosthetic components (abutments) with which they are compatible. The selection of these abutments is preferably not a geometric parameter per se, but a clinical choice that is linked to geometry. This allows the user, for example on the basis of a specific abutment, to limit his choice to implants that can be used for a specific prosthetic indication, without needing extensive knowledge or having to consult external sources. In most cases the users are dentists or surgeons, but they are usually trained to examine the clinical situation (availability and quality of the bone) and to select an implant based on this. Gathering knowledge about all other possible parameters that can play a role requires a lot of time and experience, and is therefore not always applied in the selection of an implant. The method according to certain embodiments of the invention can also lead to a better selection of dental implants without specific prior knowledge of all possible parameters that may play a role.

In another aspect of the invention, a computer based system for planning dental implants is provided, comprising: (1) means for displaying three-dimensional patient data; (2) means for storing a suitable position for a dental implant; (3) means for providing a library provided with digital representations of digital dental implants, wherein each dental implant comprises attributes defined by one or more external or non-geometric parameters; (4) means for providing a menu for selecting a specific implant from the dental implant library, based on one or more non-geometric parameters, and (5) means for displaying the selected implant in the three-dimensional patient data.

Preferred embodiments of the invention are set forth in the appended dependent patent claims.

Brief description of the figures

FIG. 1 shows a flow diagram of the method according to certain embodiments of the invention.

Embodiments

The present invention will be described with reference to certain embodiments and with reference to certain figures. However, the invention is not limited thereto, but it is only limited by the scope of the claims. The figures are only schematic and not restrictive. In the figures, the dimensions of some elements may be enlarged and not drawn to scale for illustrative purposes. The dimensions and relative dimensions do not necessarily correspond to the current dimensions of physical embodiments.

Furthermore, the terms first, second, third and similar terms are used only to distinguish between different identical elements and these terms do not necessarily describe a particular sequence, neither in time, nor in space, rank, order, or in any other way. It is understood that the terms are interchangeable under suitable conditions and that the embodiments of the invention described herein may function in a sequence other than described or illustrated herein.

It should be noted that the terms "contain" and "include" should not be construed as being limited to the steps, elements, pieces, parts, or the like that are subsequently named. This term does not exclude further steps, elements, pieces, parts or similar. It indicates the presence of steps, elements, pieces, parts or similar, but does not exclude the presence of one or more steps, elements, pieces, parts or similar, or groups of steps, elements, pieces, parts or similar. So the scope of the expression "a device containing A and B" is not limited to a device that only consists of A and B. It means that in light of the present invention, the components or elements of the device relevant to the invention are A and B.

A reference to "one" or "an" embodiment means that specific features, properties, or structures described in relation to that embodiment are at least integrated into at least one embodiment of the invention. Therefore, references to "in one embodiment" or "in one embodiment" in different parts of the description do not necessarily refer to the same embodiment, although they may refer to the same embodiment. Furthermore, the specific features, properties or structures can be combined in one or more embodiments, as is clear to the skilled person.

Similarly, it is to be understood that in the description of the exemplary embodiments, various features of the invention are sometimes grouped in one embodiment, figure, or part of the description for the purpose of providing a clear description in order to understand the various features of the invention. make the invention clear. However, this method of representation does not mean that the invention would contain more features than those formulated in the claims. Instead, as is apparent from the following claims, the inventiveness of the invention lies in less than all the features of a single preceding embodiment as described. Thus, the claims following the description herein are explicitly integrated into the detailed description of the invention, each of the claims per se forming a separate embodiment of the invention.

Furthermore, although some embodiments described herein contain certain features and others do not, combinations of features of the various embodiments are intended to be within the scope of the invention as may be understood by those skilled in the art.

Numerous details are described and presented in the accompanying description. However, it is clear that the invention can be practiced without these specific details. In other cases, already known methods, structures, elements and the like are not shown in order not to unnecessarily obscure the description in the light of the invention.

The invention will now be described with reference to a detailed description of various embodiments of the invention. It is clear that other embodiments can be configured according to the knowledge of the person skilled in the art without departing from the technical contribution of the invention. The invention is limited only by the wording of the appended claims.

The method according to an embodiment of the invention comprises means for selecting or grouping dental implants on the basis of a prosthetic target or prosthetic components (abutments) with which they are compatible. This allows the user, for example on the basis of a specific abutment, to limit his choice to implants that can be used for a specific prosthetic indication, without needing extensive knowledge or having to consult external sources.

This knowledge, for example, is not evident for a dental surgeon, who often places implants without taking into account the prosthetic restoration afterwards, and without having the necessary knowledge about it. Thanks to the method according to embodiments of the invention, a prosthetic dentist can formulate a specific prosthetic goal or specify an abutment, after which the dental surgeon can easily use this information to identify all implants that are compatible with it. In this way he retains the freedom to select the best implant based on the available bone.

The method according to an embodiment of the invention can further be provided with combination means to be used, for example, with a specific surgical kit or type of drill guide, in order to make a selection. For example, various drilling guide systems are available on the market that allow for transferring three-dimensional implant planning to the patient. However, a number of these systems require the use of a specific surgical kit. This kit is usually developed for a specific product line or a limited number of product lines from an implant manufacturer. Within supported product lines there are also examples of individual implants that are not supported by the drilling guide system. Again, it is not obvious for a user to estimate to what extent the planned treatment with a specific implant can be combined with the drill guide that is best suited for the patient in question. By having the user first select the desired drilling guide system, this problem can be remedied, without the doctor first having to consult the manufacturer of the drilling jig or the surgical kit.

Another possibility is the compatibility of a particular implant with a specific process or protocol. It is possible that implants with certain properties allow to fabricate a drilling mold faster or at a lower cost. Again, it is not obvious for a user to have or collect this knowledge, and the method according to an embodiment of the invention can offer a solution by selecting the implants that meet this criterion.

Certain implants may also be better suited to certain clinical procedures, such as minimally invasive treatment or immediate load on the implants. Clinical indications such as amount and quality of bone and gums can also form a selection criterion. In addition to suitability, legal approval (for example, CE or FDA) is also possible for a specific application.

This specialized information is only available in catalogs and documentation from implant manufacturers, which the doctor often does not have readily available while planning his intervention.

The price of an implant or implant line can also be a selection criterion. It is not easy for a user to obtain information about the cost price of all implant brands available on the market, while this may be an important criterion for the patient. Again, the method according to embodiments of the invention can offer a solution. By having the user select a specific price category, implants that meet these selection criteria can be selected automatically.

In addition, the availability of implants in a certain region may also be a desired selection criterion for certain embodiments of the invention. For example, certain implant brands can only be obtained in certain regions. By having the user first select his own region, this problem can be remedied.

In other embodiments of the invention, in addition to the name of an implant manufacturer or specific product line, the method also includes graphical information that is used to replace or supplement it. Specific parameters can also be displayed graphically. In this case, the selection of implants can be done purely on this graphic data.

In other embodiments of the invention, the method comprises means for providing an overview of the availability of certain implants in the practice of the dentist or surgeon. Stock management is often performed by an assistant, which means that the doctor does not always have an overview of the implants that are available at a certain moment in his practice. This availability is therefore a possible criterion for selecting an implant, and can be of great importance in the event of urgent procedures.

Although the invention has been described with reference to specific embodiments, it will be apparent to those skilled in the art that various changes and modifications in form and detail are possible without departing from the scope of the claims for the present invention.

Claims (16)

A computer-based method for planning dental implants comprising the following steps: - displaying three-dimensional patient data; storing a suitable position for a dental implant; supplying a library provided with digital representations of digital dental implants, wherein each dental implant comprises attributes defined by one or more non-geometric parameters; - providing a menu for selecting a specific implant from the dental implant library, based on one or more non-geometric parameters, and - displaying the selected implant in the three-dimensional patient data. The method of claim 1 wherein the storing of a suitable position for a dental implant is done after placing a standard implant in the images. The method of claim 2, wherein, after placement, the standard implant is replaced with the selected implant from the library of implants. The method of any one of the preceding claims wherein the non-geometric parameter comprises the compatibility of the implant with one or more specific prosthetic components. The method of any one of the preceding claims wherein the non-geometric parameter comprises the compatibility of the implant with a specific surgical procedure. The method of any one of the preceding claims wherein the non-geometric parameter comprises the compatibility of the implant with a specific clinical indication. A method according to any one of the preceding claims wherein the non-geometric parameter comprises graphical information. A computer-based system for planning dental implants comprising: means for displaying three-dimensional patient data; means for storing a suitable position for a dental implant; means for providing a library provided with digital representations of digital dental implants, wherein each dental implant comprises attributes defined by one or more non-geometric parameters; - means for providing a menu for selecting a specific implant from the dental implant library, based on one or more non-geometric parameters, and - means for displaying the selected implant in the three-dimensional patient data. A computer-based method for planning dental implants based on a library provided with digital representations of digital dental implants, each dental implant comprising attributes defined by one or more non-geometric, comprising the following steps: - displaying three-dimensional patient data; storing a suitable position for a dental implant; - providing a menu for selecting a specific implant from the dental implant library, based on one or more non-geometric parameters, and - displaying the selected implant in the three-dimensional patient data. The method of claim 9, wherein storing a suitable position for a dental implant occurs after placing a standard implant in the images. The method of claim 10, wherein the standard implant after placement is replaced with the selected implant from the library of implants. The method of any one of claims 9 to 11, wherein the non-geometric parameter comprises the compatibility of the implant with one or more specific prosthetic components. The method of any one of claims 9 to 12 wherein the non-geometric parameter comprises the compatibility of the implant with a specific surgical procedure. The method of any one of claims 9-13 wherein the non-geometric parameter comprises the compatibility of the implant with a specific clinical indication. A method according to any of claims 9-14 wherein the non-geometric parameter comprises graphical information. A computer based system for planning dental implants based on a library provided with digital representations of digital dental implants, each dental implant comprising attributes defined by one or more non-geometric parameters, comprising: means for displaying three-dimensional patient records; means for storing a suitable position for a dental implant; - means for providing a menu for selecting a specific implant from the library of dental implants, based on one or more non-geometric parameters, and - means for displaying the selected implant in the three-dimensional patient data.