CA2630592A1 - Splint abutment over osseointegrated implant and compensatory slanted coping - Google Patents
Splint abutment over osseointegrated implant and compensatory slanted coping Download PDFInfo
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- CA2630592A1 CA2630592A1 CA002630592A CA2630592A CA2630592A1 CA 2630592 A1 CA2630592 A1 CA 2630592A1 CA 002630592 A CA002630592 A CA 002630592A CA 2630592 A CA2630592 A CA 2630592A CA 2630592 A1 CA2630592 A1 CA 2630592A1
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- implant
- splint
- abutment
- splint abutment
- compensatory slanted
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
- A61C8/00—Means to be fixed to the jaw-bone for consolidating natural teeth or for fixing dental prostheses thereon; Dental implants; Implanting tools
- A61C8/0048—Connecting the upper structure to the implant, e.g. bridging bars
- A61C8/005—Connecting devices for joining an upper structure with an implant member, e.g. spacers
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
- A61C8/00—Means to be fixed to the jaw-bone for consolidating natural teeth or for fixing dental prostheses thereon; Dental implants; Implanting tools
- A61C8/0048—Connecting the upper structure to the implant, e.g. bridging bars
- A61C8/005—Connecting devices for joining an upper structure with an implant member, e.g. spacers
- A61C8/006—Connecting devices for joining an upper structure with an implant member, e.g. spacers with polygonal positional means, e.g. hexagonal or octagonal
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
- A61C8/00—Means to be fixed to the jaw-bone for consolidating natural teeth or for fixing dental prostheses thereon; Dental implants; Implanting tools
- A61C8/0048—Connecting the upper structure to the implant, e.g. bridging bars
- A61C8/005—Connecting devices for joining an upper structure with an implant member, e.g. spacers
- A61C8/0068—Connecting devices for joining an upper structure with an implant member, e.g. spacers with an additional screw
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
- A61C8/00—Means to be fixed to the jaw-bone for consolidating natural teeth or for fixing dental prostheses thereon; Dental implants; Implanting tools
- A61C8/0048—Connecting the upper structure to the implant, e.g. bridging bars
- A61C8/005—Connecting devices for joining an upper structure with an implant member, e.g. spacers
- A61C8/0069—Connecting devices for joining an upper structure with an implant member, e.g. spacers tapered or conical connection
- A61C8/0071—Connecting devices for joining an upper structure with an implant member, e.g. spacers tapered or conical connection with a self-locking taper, e.g. morse taper
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- Health & Medical Sciences (AREA)
- Oral & Maxillofacial Surgery (AREA)
- Orthopedic Medicine & Surgery (AREA)
- Dentistry (AREA)
- Epidemiology (AREA)
- Life Sciences & Earth Sciences (AREA)
- Animal Behavior & Ethology (AREA)
- General Health & Medical Sciences (AREA)
- Public Health (AREA)
- Veterinary Medicine (AREA)
- Dental Prosthetics (AREA)
- Dental Preparations (AREA)
- Orthopedics, Nursing, And Contraception (AREA)
- Materials For Medical Uses (AREA)
- Prostheses (AREA)
Abstract
The present invention concerns a splint abutment for prosthesis rehabilitation made of various types of materials, attached to an osseointegrated implant.
This splint abutment for implant-supported prosthesis makes it possible to place two prosthetic crowns over a single implant, thus providing better biomechanics, marginal sealing, occlusal stability, aesthetics and oral hygiene maintenance of the dental prosthesis. The biomechanical possibilities of the invention offer greater occlusion stability, since the shape and contour of the splint abutment partially distribute and absorb the mastication forces in a more balanced way to the axial forces. The invention is also concerns the inclination slant, made of the same material of the non-restrictive abutment, to be fit between the implant and the splint abutment, that provides a slant, in order to adjust the position of the "abutment~
according to the correction needs of the rotational and multidirectional angulations of the implants. This invention provides superior resistance of the splint by means of the splint abutment, lasting aesthetics and a reduction in clinical time, assuring greater predictability of the results.
This splint abutment for implant-supported prosthesis makes it possible to place two prosthetic crowns over a single implant, thus providing better biomechanics, marginal sealing, occlusal stability, aesthetics and oral hygiene maintenance of the dental prosthesis. The biomechanical possibilities of the invention offer greater occlusion stability, since the shape and contour of the splint abutment partially distribute and absorb the mastication forces in a more balanced way to the axial forces. The invention is also concerns the inclination slant, made of the same material of the non-restrictive abutment, to be fit between the implant and the splint abutment, that provides a slant, in order to adjust the position of the "abutment~
according to the correction needs of the rotational and multidirectional angulations of the implants. This invention provides superior resistance of the splint by means of the splint abutment, lasting aesthetics and a reduction in clinical time, assuring greater predictability of the results.
Description
SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING
The present invention is related to a splint abutment for dental a prosthesis that can be made of titanium, gold, carbon, chromium-cobalt, tilite, zirconium, niobium, alumina, and other similar materials, without restriction.
It is a splint abutment for implant-supported prosthesis that makes it possible to place two prosthetic crowns over a single implant, thus providing better biomechanics, normal dental function, good aesthetics and hygienic .cleaning of prostheses. This invention offers superior resistance of the abutment, lasting aesthetics and a reduction in clinical time, assuring more predictable results.
The aesthetic and functional necessities of lost teeth replacement have been the primary focus in oral rehabilitation. The introduction of the osseointegrated implants increased the possibility of supplying fixed, predictable and functional restorations, mainly in extensive edentulous sites.
The objective of teeth replacement treatment initially concentrated its function and success on the medium and long-term, but new necessities have brought about discussions and more appropriate treatment planning, providing greater predictability in the final results.
Innovations in technique are necessary so that it has greater functional, aesthetic and biomechanical suitability to the patient's needs, a factor for which the new features introduced by the present invention are so important and justify the protection of the herein described creation.
Currently, the dental osseointegrated implants offered by the technology available in the market receive a single abutment on which a single crown element is placed. In the majority of cases, an inlay splint prosthetic bar is made, and/or a metallic infra structure fused and welded, joining two or more osseointegrated implant abutments, according to the planning of the edentulous site. This inlay splint procedure presents some disadvantages, such as the difficulty in cleaning, the aesthetic problems due to the absence of the prefabricated "abutment" with sinuous format, that follows gingival contour and that provides a more flattened in the mesiodistal direction and lengthened in the buccolingual direction and presents greater similarity to the form of a natural tooth, unlike those currently in the market.
Another disadvantage in the current technique is the difficulty in attaining total passivity of the metallic structure, whose welding points do not always provide total precision in the meeting of the inlay splint blocks, perhaps causing tension that will be transmitted to the implants. Such tension concentrates in the neck of the implant, and it could cause bone loss increase in the periimplant region in the medium or long-term, and, as a consequence, the possible loss of the implant itself or of the implant abutment screw, either by breaking, unscrewing or becoming damaged.
The existence of a' similar technology to the one presented by the invention described herein was not verified in searches made in patent databases. The state of the art does not possess similar solutions to the present invention for the use in prosthesis on osseointegrated implants.
The modalities offered currently present single pins with cylindrical formats that bring biomechanical and aesthetic limitations, since they do not follow multidimensionally the contour of the profile of the gingival emergency, which causes a concentration of stress on the implant neck, which could cause greater bone loss in the surrounding area, due to the fact that the pins are single.
COMPENSATORY SLANTED COPING
The present invention is related to a splint abutment for dental a prosthesis that can be made of titanium, gold, carbon, chromium-cobalt, tilite, zirconium, niobium, alumina, and other similar materials, without restriction.
It is a splint abutment for implant-supported prosthesis that makes it possible to place two prosthetic crowns over a single implant, thus providing better biomechanics, normal dental function, good aesthetics and hygienic .cleaning of prostheses. This invention offers superior resistance of the abutment, lasting aesthetics and a reduction in clinical time, assuring more predictable results.
The aesthetic and functional necessities of lost teeth replacement have been the primary focus in oral rehabilitation. The introduction of the osseointegrated implants increased the possibility of supplying fixed, predictable and functional restorations, mainly in extensive edentulous sites.
The objective of teeth replacement treatment initially concentrated its function and success on the medium and long-term, but new necessities have brought about discussions and more appropriate treatment planning, providing greater predictability in the final results.
Innovations in technique are necessary so that it has greater functional, aesthetic and biomechanical suitability to the patient's needs, a factor for which the new features introduced by the present invention are so important and justify the protection of the herein described creation.
Currently, the dental osseointegrated implants offered by the technology available in the market receive a single abutment on which a single crown element is placed. In the majority of cases, an inlay splint prosthetic bar is made, and/or a metallic infra structure fused and welded, joining two or more osseointegrated implant abutments, according to the planning of the edentulous site. This inlay splint procedure presents some disadvantages, such as the difficulty in cleaning, the aesthetic problems due to the absence of the prefabricated "abutment" with sinuous format, that follows gingival contour and that provides a more flattened in the mesiodistal direction and lengthened in the buccolingual direction and presents greater similarity to the form of a natural tooth, unlike those currently in the market.
Another disadvantage in the current technique is the difficulty in attaining total passivity of the metallic structure, whose welding points do not always provide total precision in the meeting of the inlay splint blocks, perhaps causing tension that will be transmitted to the implants. Such tension concentrates in the neck of the implant, and it could cause bone loss increase in the periimplant region in the medium or long-term, and, as a consequence, the possible loss of the implant itself or of the implant abutment screw, either by breaking, unscrewing or becoming damaged.
The existence of a' similar technology to the one presented by the invention described herein was not verified in searches made in patent databases. The state of the art does not possess similar solutions to the present invention for the use in prosthesis on osseointegrated implants.
The modalities offered currently present single pins with cylindrical formats that bring biomechanical and aesthetic limitations, since they do not follow multidimensionally the contour of the profile of the gingival emergency, which causes a concentration of stress on the implant neck, which could cause greater bone loss in the surrounding area, due to the fact that the pins are single.
The cylindrical format of the available abutment in the state of the technique provides less nesting stability and retention of the prosthetic crown, compared to the innovation described herein. This hinders a uniform motion of the normal dental function forces in the longitudinal direction of the implant, as occurs in the resulting forces of a natural tooth, which could also cause stress concentration in the neck of the implant and bring about bone loss the surrounding area.
All the disadvantages identified above have serious consequences in the effectiveness of the treatment, in the medium and long-term.
In biomechanical terms, the divergences of forces from the normal dental function, resulting from the cylindrical shape of the abutment, could limit the success of clinical solutions, as well as presenting a shape that favors the accumulation of bacterial plaque due to great difficulty of hygienic cleaning.
The existing patents in this technological area, identified in the search carried through in the patents databases, do not solve the existing problems.
The invention patent BR P19602881-5, for example, presents a thin profile dedicated to very sensitive bone structures, in order to keep the temporary prosthesis attached throughout the process of osseointegration of the definitive implants. The patent of utility model MU7801874-9 is designed to make it easier to implant the prosthesis with a fast and safe attachment to the bone. Its object consists of a cylindrical piece of pure titanium, with a highly polished external ring band at one end, thus better adapting to the gum, and a threaded blind bore, centered in the longitudinal direction, which is larger and hexagonal in the apical third, facilitating the fitting of proper tools for threading the implant in the bone. This arrangement allows greater stability in applying and There are, however, circumstances when the edentulous site is located between 9.7 mm and 13.8 mm, or there are anatomical defects or prosthetic or surgical planning errors, and as a result there is not space or the necessary conditions for two implants. The alternative commonly used is to make a larger prosthesis implant, or to leave an element hanging (cantilever), which presents functional, biomechanical and aesthetic problems. Another alternative is to adopt a fixed prosthesis, using tooth-implant union.
However, it is very controversial. Using the cantilever, as, .with the state of the technique, the prominent bone overload is clear and the probable future perimplantitis caused by the bone overload, which could expose the inter-bone part of the implant in contact with the subgingival microbiota, possibly causing future implant loss.
It is therefore clear that the existing technologies still provide no solution for some problems related to the dental implant, as indicated.
The great spacial difference that exists between the perimeter of the normal dental function plane of the prosthetic crown and the diameter of the implant or of its neck, has always caused problems in the aesthetic as well as in the hygienic cleaning because it does not provide an appropriate emergency profile, one that has a shape that makes it possible to format or to follow the triangular contour of papillas and of the interproximal crenas. The rose aesthetic of the gum should hug the prosthetic white crown to achieve the best result of aesthetic excellence in implant-supported work.
To solve such problems, the invention described here presents a splint abutment that makes it possible to place two dental elements in a single implant, thus providing better normal dental function, aesthetic stability and oral hygienic maintenance.
All the disadvantages identified above have serious consequences in the effectiveness of the treatment, in the medium and long-term.
In biomechanical terms, the divergences of forces from the normal dental function, resulting from the cylindrical shape of the abutment, could limit the success of clinical solutions, as well as presenting a shape that favors the accumulation of bacterial plaque due to great difficulty of hygienic cleaning.
The existing patents in this technological area, identified in the search carried through in the patents databases, do not solve the existing problems.
The invention patent BR P19602881-5, for example, presents a thin profile dedicated to very sensitive bone structures, in order to keep the temporary prosthesis attached throughout the process of osseointegration of the definitive implants. The patent of utility model MU7801874-9 is designed to make it easier to implant the prosthesis with a fast and safe attachment to the bone. Its object consists of a cylindrical piece of pure titanium, with a highly polished external ring band at one end, thus better adapting to the gum, and a threaded blind bore, centered in the longitudinal direction, which is larger and hexagonal in the apical third, facilitating the fitting of proper tools for threading the implant in the bone. This arrangement allows greater stability in applying and There are, however, circumstances when the edentulous site is located between 9.7 mm and 13.8 mm, or there are anatomical defects or prosthetic or surgical planning errors, and as a result there is not space or the necessary conditions for two implants. The alternative commonly used is to make a larger prosthesis implant, or to leave an element hanging (cantilever), which presents functional, biomechanical and aesthetic problems. Another alternative is to adopt a fixed prosthesis, using tooth-implant union.
However, it is very controversial. Using the cantilever, as, .with the state of the technique, the prominent bone overload is clear and the probable future perimplantitis caused by the bone overload, which could expose the inter-bone part of the implant in contact with the subgingival microbiota, possibly causing future implant loss.
It is therefore clear that the existing technologies still provide no solution for some problems related to the dental implant, as indicated.
The great spacial difference that exists between the perimeter of the normal dental function plane of the prosthetic crown and the diameter of the implant or of its neck, has always caused problems in the aesthetic as well as in the hygienic cleaning because it does not provide an appropriate emergency profile, one that has a shape that makes it possible to format or to follow the triangular contour of papillas and of the interproximal crenas. The rose aesthetic of the gum should hug the prosthetic white crown to achieve the best result of aesthetic excellence in implant-supported work.
To solve such problems, the invention described here presents a splint abutment that makes it possible to place two dental elements in a single implant, thus providing better normal dental function, aesthetic stability and oral hygienic maintenance.
The innovation described here provides greater nesting stability and retention of the prosthetic crown, bringing about better directing of normal dental function forces in the axial of the implant, as it occurs with natural tooth 5 forces, where the tensions are equally distributed, diminishing the concentration of tensions on the neck of the implant.
The new design presented by the invention described here allows greater stability, retention and directing of prosthesis forces for the axial forces of the implant,.
.since the adaptation of the prosthetic crown occurs in the divergent girdle and not in the neck of the implant, thus presenting more favorable and appropriate biomechanical properties by allowing an emergency profile more similar to the natural tooth.
The present invention provides better marginal sealing, as well as better hygienic cleaning, since the nesting of the prosthetic crown occurs above of the implant neck, in the divergent girdle of the pre-manufactured abutment, which can still be re-preparable, adjusting the prosthetic emergency profile according to the contour shape of the gingival architecture.
The splint abutment has parallel, slightly flared pins for the normal dental function, with convergence degree of 6 to 9 , and they form angles between 30 and 60 with the insertion axis of the implant, conforming with the emergency profile of the gingival papilla.
It presents a milling area of 1.0 mm to 5.0 mm in the longitudinal direction, to guide the insertion axis of the prosthetic crown, as well as to confer greater stability and retention, more naturally characterizing the contact point of the inlay splint crown.
There is also a chanfer area or shoulder with a rounded axio-cervical angle in all the perimeter of the cervical edge, determined by sustaining periodontium.
The biomechanical possibilities of the invention allow better occlusal stability, since the shape and contour of the abutment partially distribute and absorb the occlusal load for the axial forces.
The abutment possesses a neck or divergent marginal girdle of adjustable height of 1.0 mm to 8.0 mm, and changeable perimeter between 4.5 mm and 14.0 mm, in the mesiodistal direction and buccolingual perimeter of 4.0 mm to 9.0 mm, from where two pins protrude with height, also adjustable, of between 2.0 mm and 13.5 mm, and changeable .diameter of 1.0 mm to 8.0 mm, according to the edentulous site. These pins are parallel to themselves, slightly flared for normal dental function, with a chanfered area in all its cervical ending, that is, bevel deep chanfer or shoulder with rounded axio-pulpar angle, which can be pre-manufactured and repreparable for individualization of the piece according to the architecture of the gingival contour. Between the pins there is a narrow channel or milling area that can be located either in the vestibular or in the lingual position, to confer greater retention and stability to the splint abutment.
In the central portion of the abutment there is an open area where the screw of the abutment is fixed for cases of internal hexagon implant, external hexagon, or internal octagons, and a totally compacted area for a Morse cone and cold welding implants.
The splint abutment, object of the present invention, can, when necessary, be separated into two parts, separating the pins from the marginal girdle and then fitting them together to assemble them.
The dismemberment of this abutment can also occur in the splint abutment coupling base, in cases of inclination correction of the implant in the mesio-distal or buccolingual directions, rotationally, where the use of a connected cylindrical part is necessary, that is, a compensating slanted cap that provides an inclined plane, varying from between 0 to 35 , to adjust the "abutment"
position according to each case, providing greater possibility for correction of the rotational angles. In specific buccolingual bone defects, for example, where there is the need of angle correction, such defects can be corrected through the slanted coping.
The compensatory slanted coping, which will be fitted between the implant and the splint abutment, is characterized by being a specific piece made of the same .material as the abutment, with a perforation where the fixation screw of the "abutment" will pass. The height of the inclination slant can vary in accordance with the angle from between 0 and 35 , rotational, which will determine the compensatory and corrective slant. In the case of the present invention, the screw of the splint abutment must be sufficiently large, in height, to compensate the height of the compensatory slanted coping. The splint abutmerit provides an opening between the bolts of 2.1 mm to 5.5 mm, designed to make it possible to insert the axis of the abutment screw, when the coupling part is needed, that is, the compensatory slanted coping. Besides the functional, operational and aesthetic advantages of these alternatives, they also speed up, facilitate and simplify the process of industrial production of the parts, as to reduce its final cost.
For the Morse cone and cold welding cases, the compensatory slanted coping will be connected in the vertical direction, with the same inclination compensation varying from between 0 to 35 .
The splint abutment, object of the present invention, also presents the inclination compensation of the implants set on the bone ridge, with a single part, with a variation between 10 and 35 with the implantation insertion axis.
The multidimensional angled splint abutment still offers the alternative of being repreparable, accordance to the availability of the gingival architecture, and offers a flexibility of shape for greater effectiveness of the of the implant result, as well as for greater comfort and patient adaptation.
The pins are parallel, slightly flared for the occlusal and form angles between 30 and 60 with the neck, in accordance with the emergency profile of gingival papilla. They possess a chanfer area, or deep chanfer, or shoulder with axio-cervical angle rounded in its entire, ,perimeter, following the edge of the profile of natural emergency provided by periodontium support.
The peripheral and internal gingival contour is obtained by means of making a prefabricated coping for splint abutment, or by making moldings, for cases of repreparable splint abutments, providing an anatomical contour similar to natural teeth.
The splint abutment can present a narrowing at the base of the cervical divergent brace, in all its perimeter of 0.7 mm to 2.0 mm for gingival biological space between the platform of the implant and the splint abutment.
T'he present invention innovates the state of the art, since it offers a product that makes it possible, in a single osseointegrated implant, whether of external hexagon, internal hexagon, internal octagon, Morse cone and cold welding, to place two dental elements conjugated or inlay splint, with the option for cemented or screwed prosthesis in cases of edentulous sites up to 15.0 mm, for cases that present anatomical or surgical variations that prevent placing two implants.
The invention described here, for its different variations of shape, height and diameter, offers better aesthetic, marginal sealing, oral hygiene maintenance, greater normal dental function stability, total passivity for being free of welding points, as well as a reduction in treatment time and a simplification of the clinical and prosthetic procedures. These advantages lead to an optimization of the surgical and rehabilitation planning, besides obtaining an aesthetic proof, in the way of models, perfect to provide predictability for future prosthetic rehabilitation reconstruction and, above all, to improve the final result, reflected in lower operational costs, as well as better execution of the procedure.
The present innovation also aims to present individualized splint abutments solutions, for the.
.posterior or anterior region, besides corrective abutments according to the positioning or topography of periodontium.
The splint abutments, described here, straight and angled, since they are prefabricated, offer the advantage of eliminating the laboratorial phase of dieing, waxing and scanning that still occurs with the existing products in the state of the technique.
The splint abutment also offers a solution for placing a single element, with wide or small diameter, whose edentulous site is up to 10.0 mm, the mesiodistal or buccolingual, since it provides a much more natural emergency profile, that is, more similar to the original tooth. It also favors proper oral hygiene maintenance and offers much more suitable and satisfactory biomechanical properties. There is, moreover, the possibility of varied positioning of the splint abutment to naturally follow the individualized emergency profile, since it presents adjustable dimensions and chanfers that follow the convex /
concavous profile of the gingival tissue.
The new exclusive design of the product, object of the present invention, furthermore offers clinical benefits, since, by means of the marginal sealing, it provides better bacterial protection, besides providing to higher periodontal health for ensuring a more suitable hygienic cleaning, following the gingival architecture.
A further embodiment of the present invention is related to small variations, mainly in relation to the dimensions, and greater detailing of splint abutment and compensatory slanted coping. The product of this 5 additional embodiment makes it possible to place two inlay splint prosthetic elements in a single osseointegrated implant, in edentulous sites of up to 16.0 mm, for cases in which anatomical or surgical variations occur that prevent the insertion of two implants.
The new design presented by the invention described here allows greater stability, retention and directing of prosthesis forces for the axial forces of the implant,.
.since the adaptation of the prosthetic crown occurs in the divergent girdle and not in the neck of the implant, thus presenting more favorable and appropriate biomechanical properties by allowing an emergency profile more similar to the natural tooth.
The present invention provides better marginal sealing, as well as better hygienic cleaning, since the nesting of the prosthetic crown occurs above of the implant neck, in the divergent girdle of the pre-manufactured abutment, which can still be re-preparable, adjusting the prosthetic emergency profile according to the contour shape of the gingival architecture.
The splint abutment has parallel, slightly flared pins for the normal dental function, with convergence degree of 6 to 9 , and they form angles between 30 and 60 with the insertion axis of the implant, conforming with the emergency profile of the gingival papilla.
It presents a milling area of 1.0 mm to 5.0 mm in the longitudinal direction, to guide the insertion axis of the prosthetic crown, as well as to confer greater stability and retention, more naturally characterizing the contact point of the inlay splint crown.
There is also a chanfer area or shoulder with a rounded axio-cervical angle in all the perimeter of the cervical edge, determined by sustaining periodontium.
The biomechanical possibilities of the invention allow better occlusal stability, since the shape and contour of the abutment partially distribute and absorb the occlusal load for the axial forces.
The abutment possesses a neck or divergent marginal girdle of adjustable height of 1.0 mm to 8.0 mm, and changeable perimeter between 4.5 mm and 14.0 mm, in the mesiodistal direction and buccolingual perimeter of 4.0 mm to 9.0 mm, from where two pins protrude with height, also adjustable, of between 2.0 mm and 13.5 mm, and changeable .diameter of 1.0 mm to 8.0 mm, according to the edentulous site. These pins are parallel to themselves, slightly flared for normal dental function, with a chanfered area in all its cervical ending, that is, bevel deep chanfer or shoulder with rounded axio-pulpar angle, which can be pre-manufactured and repreparable for individualization of the piece according to the architecture of the gingival contour. Between the pins there is a narrow channel or milling area that can be located either in the vestibular or in the lingual position, to confer greater retention and stability to the splint abutment.
In the central portion of the abutment there is an open area where the screw of the abutment is fixed for cases of internal hexagon implant, external hexagon, or internal octagons, and a totally compacted area for a Morse cone and cold welding implants.
The splint abutment, object of the present invention, can, when necessary, be separated into two parts, separating the pins from the marginal girdle and then fitting them together to assemble them.
The dismemberment of this abutment can also occur in the splint abutment coupling base, in cases of inclination correction of the implant in the mesio-distal or buccolingual directions, rotationally, where the use of a connected cylindrical part is necessary, that is, a compensating slanted cap that provides an inclined plane, varying from between 0 to 35 , to adjust the "abutment"
position according to each case, providing greater possibility for correction of the rotational angles. In specific buccolingual bone defects, for example, where there is the need of angle correction, such defects can be corrected through the slanted coping.
The compensatory slanted coping, which will be fitted between the implant and the splint abutment, is characterized by being a specific piece made of the same .material as the abutment, with a perforation where the fixation screw of the "abutment" will pass. The height of the inclination slant can vary in accordance with the angle from between 0 and 35 , rotational, which will determine the compensatory and corrective slant. In the case of the present invention, the screw of the splint abutment must be sufficiently large, in height, to compensate the height of the compensatory slanted coping. The splint abutmerit provides an opening between the bolts of 2.1 mm to 5.5 mm, designed to make it possible to insert the axis of the abutment screw, when the coupling part is needed, that is, the compensatory slanted coping. Besides the functional, operational and aesthetic advantages of these alternatives, they also speed up, facilitate and simplify the process of industrial production of the parts, as to reduce its final cost.
For the Morse cone and cold welding cases, the compensatory slanted coping will be connected in the vertical direction, with the same inclination compensation varying from between 0 to 35 .
The splint abutment, object of the present invention, also presents the inclination compensation of the implants set on the bone ridge, with a single part, with a variation between 10 and 35 with the implantation insertion axis.
The multidimensional angled splint abutment still offers the alternative of being repreparable, accordance to the availability of the gingival architecture, and offers a flexibility of shape for greater effectiveness of the of the implant result, as well as for greater comfort and patient adaptation.
The pins are parallel, slightly flared for the occlusal and form angles between 30 and 60 with the neck, in accordance with the emergency profile of gingival papilla. They possess a chanfer area, or deep chanfer, or shoulder with axio-cervical angle rounded in its entire, ,perimeter, following the edge of the profile of natural emergency provided by periodontium support.
The peripheral and internal gingival contour is obtained by means of making a prefabricated coping for splint abutment, or by making moldings, for cases of repreparable splint abutments, providing an anatomical contour similar to natural teeth.
The splint abutment can present a narrowing at the base of the cervical divergent brace, in all its perimeter of 0.7 mm to 2.0 mm for gingival biological space between the platform of the implant and the splint abutment.
T'he present invention innovates the state of the art, since it offers a product that makes it possible, in a single osseointegrated implant, whether of external hexagon, internal hexagon, internal octagon, Morse cone and cold welding, to place two dental elements conjugated or inlay splint, with the option for cemented or screwed prosthesis in cases of edentulous sites up to 15.0 mm, for cases that present anatomical or surgical variations that prevent placing two implants.
The invention described here, for its different variations of shape, height and diameter, offers better aesthetic, marginal sealing, oral hygiene maintenance, greater normal dental function stability, total passivity for being free of welding points, as well as a reduction in treatment time and a simplification of the clinical and prosthetic procedures. These advantages lead to an optimization of the surgical and rehabilitation planning, besides obtaining an aesthetic proof, in the way of models, perfect to provide predictability for future prosthetic rehabilitation reconstruction and, above all, to improve the final result, reflected in lower operational costs, as well as better execution of the procedure.
The present innovation also aims to present individualized splint abutments solutions, for the.
.posterior or anterior region, besides corrective abutments according to the positioning or topography of periodontium.
The splint abutments, described here, straight and angled, since they are prefabricated, offer the advantage of eliminating the laboratorial phase of dieing, waxing and scanning that still occurs with the existing products in the state of the technique.
The splint abutment also offers a solution for placing a single element, with wide or small diameter, whose edentulous site is up to 10.0 mm, the mesiodistal or buccolingual, since it provides a much more natural emergency profile, that is, more similar to the original tooth. It also favors proper oral hygiene maintenance and offers much more suitable and satisfactory biomechanical properties. There is, moreover, the possibility of varied positioning of the splint abutment to naturally follow the individualized emergency profile, since it presents adjustable dimensions and chanfers that follow the convex /
concavous profile of the gingival tissue.
The new exclusive design of the product, object of the present invention, furthermore offers clinical benefits, since, by means of the marginal sealing, it provides better bacterial protection, besides providing to higher periodontal health for ensuring a more suitable hygienic cleaning, following the gingival architecture.
A further embodiment of the present invention is related to small variations, mainly in relation to the dimensions, and greater detailing of splint abutment and compensatory slanted coping. The product of this 5 additional embodiment makes it possible to place two inlay splint prosthetic elements in a single osseointegrated implant, in edentulous sites of up to 16.0 mm, for cases in which anatomical or surgical variations occur that prevent the insertion of two implants.
10 The splint abutment provides better marginal sealing, .as well as better oral hygiene maintenance; therefore the passive nesting of the splint abutment occurs in the platform of the implant. The adaptation of the prosthetic crown is done above this platform, that is, in the divergent girdle of the prefabricated splint abutment, repreparable. Moreover, it can be adjusted and individualized in accordance with the contour shape and the gingival architecture, adjusting itself to the height of its sinuosity, to the sizes and height of the divergent cervical, buccal and lingual girdle, of 0.5 mm to 10.0 mm, and of the divergent interproximal cervical girdle, from 1.0 mm to 12.0 mm, adjusting the emergency profile of the prosthetic.
The splint abutment has two parallel pins, slightly flared for the normal dental function, with a convergence degree of 4 to 30 with the insertion axis of the prosthetic crown and forming angles of 8 and 60 between themselves, and it is possible to merge them in cases where the edentulous site is less than 10 mm. They have a chanfer area, or deep chanfer, or shoulder with axio-cervical angle rounded along its entire perimeter, following the border of the natural emergency profile presented by periodontal.
The divergent girdle forms angles between 30 and 80 with the axial forces of implant setting, determined by the anatomical contour of the gingival papilla, with the option of using a cemented prosthesis, individuali2ed or not. For cases of screwed prostheses, the splint abutment could be reprepared to directly receive the selected restoring material or even to receive fused ceramics directly in the splint abutment.
There is a milled area between the bolts of 1.0 mm to 5.0 mm in the longitudinal direction, both in the vestibular or in the lingual or both, to guide the insertion axis of the prosthetic crown, as well as to confer greater stability and retention of the crown,.
.rendering the point of contact between the crown more naturally.
The splint abutment possesses a neck or divergent marginal girdle of adjustable height from 1.0 mm to 8.0 mm, and a variable length between 3.0 mm and 14.0 mm both in the mesiodistal and in the buccolingual direction, from where two pins protrude, also with adjustable heights, between 2.0 mm and 13.5 mm, and variable diameter of 1.0 mm to 8.0 mm, determined by the edentulous site.
There is, also in the divergent girdle, a milling area that can be placed either in the buccal or in the lingual or both, to confer greater retention and stability to the splint abutment.
In the central portion of the splint abutment there is an open area where the splint abutment screw is fixed, for cases of internal hexagon implant, external hexagon, internal octagon, internal duodecagonous, non-restrictive, and completely compacted for implant area of the Morse cone type and cold welding or, even, a single body implant, also non-restrictive.
In some cases, the open area could be differentiated by being lingualized in relation to the parallel pins in the anterior elements, and in the posterior elements, for overlap cases.
The splint abutment has two parallel pins, slightly flared for the normal dental function, with a convergence degree of 4 to 30 with the insertion axis of the prosthetic crown and forming angles of 8 and 60 between themselves, and it is possible to merge them in cases where the edentulous site is less than 10 mm. They have a chanfer area, or deep chanfer, or shoulder with axio-cervical angle rounded along its entire perimeter, following the border of the natural emergency profile presented by periodontal.
The divergent girdle forms angles between 30 and 80 with the axial forces of implant setting, determined by the anatomical contour of the gingival papilla, with the option of using a cemented prosthesis, individuali2ed or not. For cases of screwed prostheses, the splint abutment could be reprepared to directly receive the selected restoring material or even to receive fused ceramics directly in the splint abutment.
There is a milled area between the bolts of 1.0 mm to 5.0 mm in the longitudinal direction, both in the vestibular or in the lingual or both, to guide the insertion axis of the prosthetic crown, as well as to confer greater stability and retention of the crown,.
.rendering the point of contact between the crown more naturally.
The splint abutment possesses a neck or divergent marginal girdle of adjustable height from 1.0 mm to 8.0 mm, and a variable length between 3.0 mm and 14.0 mm both in the mesiodistal and in the buccolingual direction, from where two pins protrude, also with adjustable heights, between 2.0 mm and 13.5 mm, and variable diameter of 1.0 mm to 8.0 mm, determined by the edentulous site.
There is, also in the divergent girdle, a milling area that can be placed either in the buccal or in the lingual or both, to confer greater retention and stability to the splint abutment.
In the central portion of the splint abutment there is an open area where the splint abutment screw is fixed, for cases of internal hexagon implant, external hexagon, internal octagon, internal duodecagonous, non-restrictive, and completely compacted for implant area of the Morse cone type and cold welding or, even, a single body implant, also non-restrictive.
In some cases, the open area could be differentiated by being lingualized in relation to the parallel pins in the anterior elements, and in the posterior elements, for overlap cases.
The open area, where the splint abutment screw is fixed, can also be differentiated, because it coincides with the positioning place of one of the parallel pins, allowing an extension of up to 55 mm of the divergent girdle, both for mesial and for distal.
In some cases, as buccolingual bone defects, setting inclined implants, for example, where there is the need for angle correction, these can be corrected through the angled compensatory slanted coping.
The compensatory slanted coping, which will be fit .between the implant and the splint abutment, is characterized for being a specifically made piece with the same material of the abutment, non-restrictive, with a perforation through which the screw of the "abutment"
setting will pass. The height of the compensatory slanted coping can vary in accordance to the angle between 0 and 501, rotational, which will determine the compensatory and corrective slant. In the case of the present invention, the screw of the splint abutment must be large enough, in height, to compensate the height of the compensatory slanted coping. The splint abutment presents an opening between the bolts of 2.1 mm to 5.5 mm, designed to make it possible to insert the axis of the abutment screw, when the coupling piece is needed, that is, of the inclination plane. Besides the functional, operational and aesthetic advantages of these alternatives, they not only speed up, facilitate and simplify the process of industrial production of the pieces, but they also reduce the final cost.
For the Morse cone and cold welding cases, the compensatory slanted coping will be connected in the vertical direction, with the same compensation of inclinations varying from 0 to 50 .
The splint abutment, object of the present invention, also presents the inclination compensation of the implants set on the bone ridge, in a single piece, with variation between 100 and 60 with the implant insertion axis. The multidimensional angled splint abutment furthermore provides the alternative of being repreparable, offering a shape flexibility to allow greater effectiveness of the implantation result, as well as greater comfort and adaptation for the patient.
The peripheral and internal gum contour of the prosthetic crown is obtained by making the pre-manufactured coping for splint abutment, or by making moldings. For the .cases of repreparable splint abutments, it provides anatomical contour, similar to natural teeth or even by means of sculpture and fused ceramics directly on the splint abutment, eliminating molding, casting and welding stages, reducing the laboratorial clinical time as well as final cost.
The present invention can be better understood by means of the presented figures, where:
Figure 1 shows the plant or view from above the implant where: (1) is the mesiodistal distance that varies from 4.5 mm to 14.0 mm; (2) is the buccolingual distance that varies from 4.0 mm to 9.0 mm; (3) is the diameter of the base of the pins that varies from 2.5 mm to 6.0 mm; (4) is the diameter of the top of the pins that varies from 2.0 mm to 4.0 mm; (5) is the space between the two the pins that varies from 2.1 mm to 5.5 mm.
Figure 2 shows the front view of the implant where:
(6) is the mesiodistal distance that varies from 4.5 mm to 14.0 mm; (7) is the height oi the pins from 2.0 mm to 13.5 mm; (8) is the height of the cervical interproximal divergent girdle that varies from 1.0 mm to 6.0 mm; (9) is the abutment height that varies from 4.0 mm to 14.5 mm;
(10) is the height of the buccal and/or lingual divergent cervical girdle that varies from 1.0 mm to 5.0 mm.
Figure 3 shows the lateral view of the implant where:
(2) is the buccalingual distance that varies form 4.1 mm to 9.0 mm; (8) is the height of the divergent cervical girdle that varies from 1.0 mm to 6.0 mm; (10) is the height of the buccal and/or lingual divergent cervical girdle that varies from 1.0 mm to 5.0 mm.
Figure 4 shows all items that make up the splint abutment where: (11) are the prosthetic crowns; (12) are the parallel pins; (13) is the divergent girdle; (14) is the compensatory slanted coping; (15) is the implant; (16) -is the splint abutment and (17) are the splint abutments on the implant with and without the compensatory slanted coping; (17) is the splint abutment, and the prosthetic crown, on the implant in the correct position (a), and without the inclination slant (b).
Therefore, with broad and immediate application in the implant-support area, the invention presented here justifies its protection for both its innovative character and for the great contribution to the technological development in the medical-odontologic sector, since this invention can also be used for osseointegrated implants in other medical areas.
In some cases, as buccolingual bone defects, setting inclined implants, for example, where there is the need for angle correction, these can be corrected through the angled compensatory slanted coping.
The compensatory slanted coping, which will be fit .between the implant and the splint abutment, is characterized for being a specifically made piece with the same material of the abutment, non-restrictive, with a perforation through which the screw of the "abutment"
setting will pass. The height of the compensatory slanted coping can vary in accordance to the angle between 0 and 501, rotational, which will determine the compensatory and corrective slant. In the case of the present invention, the screw of the splint abutment must be large enough, in height, to compensate the height of the compensatory slanted coping. The splint abutment presents an opening between the bolts of 2.1 mm to 5.5 mm, designed to make it possible to insert the axis of the abutment screw, when the coupling piece is needed, that is, of the inclination plane. Besides the functional, operational and aesthetic advantages of these alternatives, they not only speed up, facilitate and simplify the process of industrial production of the pieces, but they also reduce the final cost.
For the Morse cone and cold welding cases, the compensatory slanted coping will be connected in the vertical direction, with the same compensation of inclinations varying from 0 to 50 .
The splint abutment, object of the present invention, also presents the inclination compensation of the implants set on the bone ridge, in a single piece, with variation between 100 and 60 with the implant insertion axis. The multidimensional angled splint abutment furthermore provides the alternative of being repreparable, offering a shape flexibility to allow greater effectiveness of the implantation result, as well as greater comfort and adaptation for the patient.
The peripheral and internal gum contour of the prosthetic crown is obtained by making the pre-manufactured coping for splint abutment, or by making moldings. For the .cases of repreparable splint abutments, it provides anatomical contour, similar to natural teeth or even by means of sculpture and fused ceramics directly on the splint abutment, eliminating molding, casting and welding stages, reducing the laboratorial clinical time as well as final cost.
The present invention can be better understood by means of the presented figures, where:
Figure 1 shows the plant or view from above the implant where: (1) is the mesiodistal distance that varies from 4.5 mm to 14.0 mm; (2) is the buccolingual distance that varies from 4.0 mm to 9.0 mm; (3) is the diameter of the base of the pins that varies from 2.5 mm to 6.0 mm; (4) is the diameter of the top of the pins that varies from 2.0 mm to 4.0 mm; (5) is the space between the two the pins that varies from 2.1 mm to 5.5 mm.
Figure 2 shows the front view of the implant where:
(6) is the mesiodistal distance that varies from 4.5 mm to 14.0 mm; (7) is the height oi the pins from 2.0 mm to 13.5 mm; (8) is the height of the cervical interproximal divergent girdle that varies from 1.0 mm to 6.0 mm; (9) is the abutment height that varies from 4.0 mm to 14.5 mm;
(10) is the height of the buccal and/or lingual divergent cervical girdle that varies from 1.0 mm to 5.0 mm.
Figure 3 shows the lateral view of the implant where:
(2) is the buccalingual distance that varies form 4.1 mm to 9.0 mm; (8) is the height of the divergent cervical girdle that varies from 1.0 mm to 6.0 mm; (10) is the height of the buccal and/or lingual divergent cervical girdle that varies from 1.0 mm to 5.0 mm.
Figure 4 shows all items that make up the splint abutment where: (11) are the prosthetic crowns; (12) are the parallel pins; (13) is the divergent girdle; (14) is the compensatory slanted coping; (15) is the implant; (16) -is the splint abutment and (17) are the splint abutments on the implant with and without the compensatory slanted coping; (17) is the splint abutment, and the prosthetic crown, on the implant in the correct position (a), and without the inclination slant (b).
Therefore, with broad and immediate application in the implant-support area, the invention presented here justifies its protection for both its innovative character and for the great contribution to the technological development in the medical-odontologic sector, since this invention can also be used for osseointegrated implants in other medical areas.
Claims (22)
1. A SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING is characterized for providing two pins with an adjustable and/or preparable height between 2.0 mm and 13.5 mm, and the diameter of 2.0 mm to 5.0 mm each, parallel to each other, flared 6° to 9° for normal occlusion, inlay splint or joined by a divergent marginal girdle, whose height varies from 1.0 mm to 8.0 mm, and perimeter varies between 4.5 mm to 14.0 mm in the mesiodistal direction, and from 4.0 mm to 9.0 mm in the buccalingual direction, forming angles between 30° and 60°
with the axis of the implant insertion.
COMPENSATORY SLANTED COPING is characterized for providing two pins with an adjustable and/or preparable height between 2.0 mm and 13.5 mm, and the diameter of 2.0 mm to 5.0 mm each, parallel to each other, flared 6° to 9° for normal occlusion, inlay splint or joined by a divergent marginal girdle, whose height varies from 1.0 mm to 8.0 mm, and perimeter varies between 4.5 mm to 14.0 mm in the mesiodistal direction, and from 4.0 mm to 9.0 mm in the buccalingual direction, forming angles between 30° and 60°
with the axis of the implant insertion.
2. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claim 1 characterized by the fact that the splint abutment makes it possible to place two dental elements in a single splint abutment in a single osseointegrated implant, either of external hexagon, internal hexagon, internal octagon, Morse cone and cold welding, without restrictions.
COMPENSATORY SLANTED COPING according to claim 1 characterized by the fact that the splint abutment makes it possible to place two dental elements in a single splint abutment in a single osseointegrated implant, either of external hexagon, internal hexagon, internal octagon, Morse cone and cold welding, without restrictions.
3. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 1 and 2 characterized by the placement of two conjugated prosthetic crowns or inlay splint, for use in edentulous site of 9.7 mm up to 13.9 mm.
COMPENSATORY SLANTED COPING according to claims 1 and 2 characterized by the placement of two conjugated prosthetic crowns or inlay splint, for use in edentulous site of 9.7 mm up to 13.9 mm.
4. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 1 to 3 characterized by possessing a neck from where two pins emerge with adjustable height between 1.0 mm and 14.0 mm and variable perimeter between 4.5 mm and 12.0 mm, in the mesiodistal direction and buccolingual perimeter of 4.0 mm to 9.0 mm, determined by the edentulous site.
COMPENSATORY SLANTED COPING according to claims 1 to 3 characterized by possessing a neck from where two pins emerge with adjustable height between 1.0 mm and 14.0 mm and variable perimeter between 4.5 mm and 12.0 mm, in the mesiodistal direction and buccolingual perimeter of 4.0 mm to 9.0 mm, determined by the edentulous site.
5. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 1 to 4 characterized by the dismemberment of the splint abutment in two parts, separating the pins of the marginal girdle and fitting them together to assemble the splint abutment.
COMPENSATORY SLANTED COPING according to claims 1 to 4 characterized by the dismemberment of the splint abutment in two parts, separating the pins of the marginal girdle and fitting them together to assemble the splint abutment.
6. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 1 to 5 characterized for the use of the splint abutment in unitary elements of edentulous sites of up to 10.0 mm, either for molars, or for canine and incisors teeth that present greater diameter of the clinical crown, or even for premolars and lateral incisors, and edentulous sites of up to 15.0 mm, when it is impossible to place two implants due.
to anatomical variations or imperfections of prosthetic and surgical planning of odontologic implants or similar circumstances in the other medical areas.
COMPENSATORY SLANTED COPING according to claims 1 to 5 characterized for the use of the splint abutment in unitary elements of edentulous sites of up to 10.0 mm, either for molars, or for canine and incisors teeth that present greater diameter of the clinical crown, or even for premolars and lateral incisors, and edentulous sites of up to 15.0 mm, when it is impossible to place two implants due.
to anatomical variations or imperfections of prosthetic and surgical planning of odontologic implants or similar circumstances in the other medical areas.
7. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 1 to 6 characterized by the specific design of compensatory slanted coping of the implants fixed on the bone ridge, with variation between 10° and 35° with the axis of implant insertion.
COMPENSATORY SLANTED COPING according to claims 1 to 6 characterized by the specific design of compensatory slanted coping of the implants fixed on the bone ridge, with variation between 10° and 35° with the axis of implant insertion.
8. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 1 to 7 characterized by the flexibility of adaptation to the sinuous height of the gingival architecture, size and height of the divergent cervical girdle, buccal and lingual of 0.5 mm to 8.0 mm, and of the divergent cervical interproximal girdle, from 1.0 mm to 9.0 mm.
COMPENSATORY SLANTED COPING according to claims 1 to 7 characterized by the flexibility of adaptation to the sinuous height of the gingival architecture, size and height of the divergent cervical girdle, buccal and lingual of 0.5 mm to 8.0 mm, and of the divergent cervical interproximal girdle, from 1.0 mm to 9.0 mm.
9. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 1 to 8 characterized by a coupling devise or compensatory slanted coping formed by a covering cylinder that adapts itself to the platform of the implant and in its superior portion provides a slant with a variable angle between 0° and 35°, either in the mesiodistal direction, as in the buccalingual direction, rotationally, adaptable to the necessary correction of the insertion axis of the implant.
COMPENSATORY SLANTED COPING according to claims 1 to 8 characterized by a coupling devise or compensatory slanted coping formed by a covering cylinder that adapts itself to the platform of the implant and in its superior portion provides a slant with a variable angle between 0° and 35°, either in the mesiodistal direction, as in the buccalingual direction, rotationally, adaptable to the necessary correction of the insertion axis of the implant.
10. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 1 to 9 characterized by a coupling device or compensatory slanted coping to the Morse cone cases and cold welding that adapts itself to the insertion axis of the implant in the vertical direction with a slant with changeable angle between 0° and 35°.
COMPENSATORY SLANTED COPING according to claims 1 to 9 characterized by a coupling device or compensatory slanted coping to the Morse cone cases and cold welding that adapts itself to the insertion axis of the implant in the vertical direction with a slant with changeable angle between 0° and 35°.
11. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 1 to 10 characterized by the narrowing at the base of the divergent.
cervical girdle, in all its perimeter of 0.7 mm 2.0 mm for biological gum accommodation between the implant platform and the splint abutment.
COMPENSATORY SLANTED COPING according to claims 1 to 10 characterized by the narrowing at the base of the divergent.
cervical girdle, in all its perimeter of 0.7 mm 2.0 mm for biological gum accommodation between the implant platform and the splint abutment.
12. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING is characterized for providing two pins with adjustable and/or repreparable height between 2.0 mm and 13.5 mm, and the diameter of 2.0 mm to 5.0 mm each, parallel to each other, slightly flared from 8° to 30° for occlusal function, inlay splint or joined by a divergent marginal girdle, whose height varies from 1.0 mm to 8.0 mm, and the distance between 3.0 mm to14.0 mm in the mesiodistal and buccolingual direction, forming angles between 30° and 80° with the implant insertion axis.
COMPENSATORY SLANTED COPING is characterized for providing two pins with adjustable and/or repreparable height between 2.0 mm and 13.5 mm, and the diameter of 2.0 mm to 5.0 mm each, parallel to each other, slightly flared from 8° to 30° for occlusal function, inlay splint or joined by a divergent marginal girdle, whose height varies from 1.0 mm to 8.0 mm, and the distance between 3.0 mm to14.0 mm in the mesiodistal and buccolingual direction, forming angles between 30° and 80° with the implant insertion axis.
13. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claim 12 characterized by the fact that the splint abutment makes it possible to place two prosthetic elements in a single splint abutment in a single osseointegrated implant, whether of external hexagon, internal hexagon, internal octagon, triangular internal connection, internal dodecagons, Morse cone and cold welding, without restrictions.
COMPENSATORY SLANTED COPING according to claim 12 characterized by the fact that the splint abutment makes it possible to place two prosthetic elements in a single splint abutment in a single osseointegrated implant, whether of external hexagon, internal hexagon, internal octagon, triangular internal connection, internal dodecagons, Morse cone and cold welding, without restrictions.
14. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 12 and 13 characterized by the placement of two conjugated or individualized prosthetic crowns, for use in edentulous sites of 9.7 mm up to 16.0 mm.
COMPENSATORY SLANTED COPING according to claims 12 and 13 characterized by the placement of two conjugated or individualized prosthetic crowns, for use in edentulous sites of 9.7 mm up to 16.0 mm.
15. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 12 to 14 characterized by possessing a neck from where two pins protrude with adjustable height between 1.0 mm and 14.0 mm with mesiodistal abutment distance varying between 3.0 mm and 14.0 mm and with buccolingual distance varying from 3.0 mm 14.0 mm presenting overlap for buccal as well as for lingual, in accordance with the edentulous site.
COMPENSATORY SLANTED COPING according to claims 12 to 14 characterized by possessing a neck from where two pins protrude with adjustable height between 1.0 mm and 14.0 mm with mesiodistal abutment distance varying between 3.0 mm and 14.0 mm and with buccolingual distance varying from 3.0 mm 14.0 mm presenting overlap for buccal as well as for lingual, in accordance with the edentulous site.
16. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 12 to 15 characterized by possessing two parallel pins that can be fused, forming a single element for cases where the edentulous site is up to 10.0 mm, for molars, canines and incisors that present greater clinical crown diameter, or even for premolar and side incisors, each one with its specific design following anatomical profile of trapezium shape and for edentulous sites of up to 16.0 mm, in cases where it is impossible to set two implants due to anatomical variations or imperfections of prosthetic and surgical planning of odontologic implants, or similar implants in other medical areas.
COMPENSATORY SLANTED COPING according to claims 12 to 15 characterized by possessing two parallel pins that can be fused, forming a single element for cases where the edentulous site is up to 10.0 mm, for molars, canines and incisors that present greater clinical crown diameter, or even for premolar and side incisors, each one with its specific design following anatomical profile of trapezium shape and for edentulous sites of up to 16.0 mm, in cases where it is impossible to set two implants due to anatomical variations or imperfections of prosthetic and surgical planning of odontologic implants, or similar implants in other medical areas.
17. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 12 to 16 characterized by the flexibility of adapting to the height of the gingival architecture sinuosity, to the sizes and height of the cervical divergent girdle, buccal and lingual, of 0.5 mm 10.0 mm, and of the divergent cervical interproximal girdle, of 1.0 mm to 12.0 mm.
COMPENSATORY SLANTED COPING according to claims 12 to 16 characterized by the flexibility of adapting to the height of the gingival architecture sinuosity, to the sizes and height of the cervical divergent girdle, buccal and lingual, of 0.5 mm 10.0 mm, and of the divergent cervical interproximal girdle, of 1.0 mm to 12.0 mm.
18. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 12 to 17 characterized by the narrowing at the base of the cervical divergent girdle, along all its perimeter of 0.7 mm 2.0 mm
COMPENSATORY SLANTED COPING according to claims 12 to 17 characterized by the narrowing at the base of the cervical divergent girdle, along all its perimeter of 0.7 mm 2.0 mm
19 to make from for gingival biological between the platform of the implant and the splint abutment.
19. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 12 to 18 characterized by the differentiated open area for being lingualized in relation to the parallel pins in the anterior elements, and for 8 cases of overlap of the posterior elements.
19. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 12 to 18 characterized by the differentiated open area for being lingualized in relation to the parallel pins in the anterior elements, and for 8 cases of overlap of the posterior elements.
20. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 12 to 19 .characterized by the open area, where the abutment screw is fixed and can be differentiated because it coincides with the positioning place of one of the parallel pins, allowing an extension of up to 5.5 mm of the divergent girdle, both for mesial or for distal.
COMPENSATORY SLANTED COPING according to claims 12 to 19 .characterized by the open area, where the abutment screw is fixed and can be differentiated because it coincides with the positioning place of one of the parallel pins, allowing an extension of up to 5.5 mm of the divergent girdle, both for mesial or for distal.
21. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 12 to 20 characterized by the inclination compensation of the abutment itself, which can be multidimensionaly angled, in a single piece, with variation between 10° and 60° with the insertion axis of the implant and it can be multiangled and repreparable.
COMPENSATORY SLANTED COPING according to claims 12 to 20 characterized by the inclination compensation of the abutment itself, which can be multidimensionaly angled, in a single piece, with variation between 10° and 60° with the insertion axis of the implant and it can be multiangled and repreparable.
22. SPLINT ABUTMENT OVER OSSEOINTEGRATED IMPLANT AND
COMPENSATORY SLANTED COPING according to claims 12 to 21 characterized by possessing two parallel pins that can be fused in cases where the edentulous site is smaller than 10 mm.
COMPENSATORY SLANTED COPING according to claims 12 to 21 characterized by possessing two parallel pins that can be fused in cases where the edentulous site is smaller than 10 mm.
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
BRPI0505827 | 2005-11-23 | ||
BRPI0505827A BRPI0505827B8 (en) | 2005-11-23 | 2005-11-23 | twin abutment on osseointegrated implant and compensatory tilt extension corrector |
BRC10505827 | 2006-10-02 | ||
PCT/BR2006/000243 WO2007059595A2 (en) | 2005-11-23 | 2006-11-03 | Splint abutment over osseointegrated implant and compensatory slanted coping |
Publications (2)
Publication Number | Publication Date |
---|---|
CA2630592A1 true CA2630592A1 (en) | 2007-05-31 |
CA2630592C CA2630592C (en) | 2015-10-20 |
Family
ID=38067560
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA2630592A Active CA2630592C (en) | 2005-11-23 | 2006-11-03 | Splint abutment over osseointegrated implant and compensatory slanted coping |
Country Status (4)
Country | Link |
---|---|
EP (1) | EP1956999A4 (en) |
BR (1) | BRPI0505827B8 (en) |
CA (1) | CA2630592C (en) |
WO (1) | WO2007059595A2 (en) |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
BRPI0705570B8 (en) | 2007-05-24 | 2021-06-22 | Itp Inst De Tecnologia E Pesquisa Ltda | compensatory correction system for inclinations, converters and extenders and universal coupling abutments on osseointegrated implants |
US9301818B2 (en) | 2010-10-07 | 2016-04-05 | Bredent Gmbh & Co. Kg | Abutment and dental-prosthetic arrangement having such an abutment |
CN106031664B (en) * | 2015-03-09 | 2019-08-16 | 福建省级机关医院 | The identical technique of the passiveness of oral implant rehabilitation |
CA3083178A1 (en) * | 2017-11-14 | 2019-05-23 | Luciana Silva Colepicolo | System of triple abutments with tconnect |
Family Cites Families (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4360342A (en) * | 1980-11-12 | 1982-11-23 | Salvo Christopher A | Method for replacing lost teeth |
US4522596A (en) * | 1984-01-20 | 1985-06-11 | Ashkinazy Larry R | Modular implant assembly |
BR7400850U (en) | 1994-06-13 | 1996-01-09 | Lorenzo Ager De | Kit for bone-integrated implant used in fixation of dental prosthesis |
DE19753577A1 (en) * | 1997-12-03 | 1999-06-17 | Ralf Dr Schroeder | Atraumatic closed artificial tooth implant |
BR7900158U (en) | 1999-01-29 | 2000-10-24 | Garsa Assessoria E Participaco | Polymeric plate for bone fixation |
US6592370B2 (en) * | 2000-09-14 | 2003-07-15 | Diro, Inc. | Abutment for dental implant and associated components for use therewith |
JP2002282281A (en) * | 2001-03-22 | 2002-10-02 | Aichi Steel Works Ltd | Denture attachment |
DE10358680A1 (en) * | 2003-02-05 | 2005-07-07 | Neumeyer, Stefan, Dr. | Abutment for dental implants, useful particularly for making crowns, is part of a set of preformed abutments of different sizes, matching the size of natural teeth |
-
2005
- 2005-11-23 BR BRPI0505827A patent/BRPI0505827B8/en active IP Right Grant
-
2006
- 2006-11-03 WO PCT/BR2006/000243 patent/WO2007059595A2/en active Application Filing
- 2006-11-03 CA CA2630592A patent/CA2630592C/en active Active
- 2006-11-03 EP EP06804601A patent/EP1956999A4/en not_active Withdrawn
Also Published As
Publication number | Publication date |
---|---|
WO2007059595A3 (en) | 2009-04-23 |
BRPI0505827B1 (en) | 2020-02-04 |
BRPI0505827B8 (en) | 2021-06-22 |
WO2007059595A2 (en) | 2007-05-31 |
CA2630592C (en) | 2015-10-20 |
BRPI0505827A (en) | 2007-08-14 |
EP1956999A2 (en) | 2008-08-20 |
EP1956999A4 (en) | 2013-01-23 |
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