tioLogic© System concept
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tioLogic© System concept
A combination of proven features and innovations
The success of implant treatment depends on three factors. Practical experience over many years has established that the basic requirements for success are:
Safety, aesthetics and handling.
All three requirements must be fulfilled to the same high standard if an implant system is to have optimal prospects of success.
For this reason high priority was given to an intelligent combination of proven features and advanced innovations during development of the tioLogic implant system.
The success of implant treatment depends on three factors. Practical experience over many years has established that the basic requirements for success are:
Safety, aesthetics and handling.
All three requirements must be fulfilled to the same high standard if an implant system is to have optimal prospects of success.
For this reason high priority was given to an intelligent combination of proven features and advanced innovations during development of the tioLogic implant system.
tioLogic© Safety
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Dual thread design Maximum primary and secondary stability The crestal fine thread of the tioLogic implant is ideally tailored to the bone density of the cortical bone and ensures high primary stability even with poor horizontal bone availability. The progressive coarse thread, which follows on seamlessly, is tailored to the density of the spongiosa bone and provides high primary stability even with unfavourable bone conditions. It also guarantees perfect placement of the tioLogic implant. [You must be registered and logged in to see this image.] Optimal thread geometry Protective load distribution The detail design of the thread flanks and the contour of the thread depth and pitch of the tioLogic implant have been developed to provide optimum load distribution. The thread design prevents strain or stress peaks in the bone. It also ensures excellent primary and secondary stability. [You must be registered and logged in to see this image.] Conical-cylindrical design Implant shape similar to a natural tooth The clinically proven external diameter of the tioLogic implant, which is similar in shape to a root, ensures physiological load distribution that produces minimum stress on the bone and also contributes to improved primary and secondary stability. The rounded apex prevents damage to anatomical structures (sinus floor) during insertion. [You must be registered and logged in to see this image.] - FEM-optimized implant Optimal load distribution The design of the thread, thread geometry, conical-cylindrical implant shape and rounded apex were calculated and recorded based on FEM analyses1. This produces uniform, gentle loading of the bone, while preventing stress peaks that could damage the bone and localized overloading. |
tioLogic© Aesthetics
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Integrated platform-focussing
Perfect aesthetics
The cervical chamfer of the implant shoulder in a tioLogic implant takes into account the biological width. The combination of cervical chamfer, crestal fine thread and CBS surface, which extends right to the cervical chamfer, promotes the apposition of bone tissue, prevents bone collapse and reduces gingival recession. This provides the basis for excellent, durable aesthetics.
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PentaStop rotational security
Maximum positional stability and rotational security
The dual contact of the system components in the tioLogic implant guarantees high positional stability as well as excellent torsional and flexural stability. The five internal PentaStop rotational security stops provide an optimum combination of maximum rotational security and outstanding flexibility when positioning the system components.
These are optimal features for ensuring customized, durable and aesthetically perfect superstructures.
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FEM-optimized inner geometry²
Highly stable connection for improved aesthetics
The dual contact and the rotationally secure connection of the system components, developed on the basis of FEM analyses, guarantee outstanding torsional and flexural stability. The high stability and excellent fit of the system components are optimal features for ensuring customized, aesthetically perfect restorations and long-term implant success.
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ISO-compliant fatigue strength test
Exceptional stability
The inner geometry of the tioLogic implant, which is based on FEM analyses, is designed to withstand heavy loading. This was conclusively confirmed by the fatigue strength test according to ISO 14801 in tests at the Fraunhofer Institute1.
1 R. Schäfer, R. Jaeger, D. Ulrich, U. Köster: Determination of the fatigue strength of a dental implant); Material Mechanics Fraunhofer Institute, Freiburg 2006.
DIN EN ISO 14801: 2003, Fatigue test for endosseous dental implants, DIN - German Standards Institute, Berlin
Integrated platform-focussing
Perfect aesthetics
The cervical chamfer of the implant shoulder in a tioLogic implant takes into account the biological width. The combination of cervical chamfer, crestal fine thread and CBS surface, which extends right to the cervical chamfer, promotes the apposition of bone tissue, prevents bone collapse and reduces gingival recession. This provides the basis for excellent, durable aesthetics.
[You must be registered and logged in to see this image.]
PentaStop rotational security
Maximum positional stability and rotational security
The dual contact of the system components in the tioLogic implant guarantees high positional stability as well as excellent torsional and flexural stability. The five internal PentaStop rotational security stops provide an optimum combination of maximum rotational security and outstanding flexibility when positioning the system components.
These are optimal features for ensuring customized, durable and aesthetically perfect superstructures.
[You must be registered and logged in to see this image.]
Micro-round junctions Improved fit and aesthetics Micro-round junctions have been incorporated in different sections of the inner connection of the tioLogic implant and in the abutment components. These ensure on the one hand that the load distribution produces less stress on the material and on the other hand that the fit is optimized to provide increased stability and aesthetic options [You must be registered and logged in to see this image.] |
Highly stable connection for improved aesthetics
The dual contact and the rotationally secure connection of the system components, developed on the basis of FEM analyses, guarantee outstanding torsional and flexural stability. The high stability and excellent fit of the system components are optimal features for ensuring customized, aesthetically perfect restorations and long-term implant success.
[You must be registered and logged in to see this image.]
ISO-compliant fatigue strength test
Exceptional stability
The inner geometry of the tioLogic implant, which is based on FEM analyses, is designed to withstand heavy loading. This was conclusively confirmed by the fatigue strength test according to ISO 14801 in tests at the Fraunhofer Institute1.
1 R. Schäfer, R. Jaeger, D. Ulrich, U. Köster: Determination of the fatigue strength of a dental implant); Material Mechanics Fraunhofer Institute, Freiburg 2006.
DIN EN ISO 14801: 2003, Fatigue test for endosseous dental implants, DIN - German Standards Institute, Berlin
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