Concept and Design of Cutting Tools for Osseodensification in Implant Dentistry
Osseodensification is an innovative surgical instrumentation technique based on additive (non-cutting) drilling using special burs. It is known from the literature, that the osseodensification burs should operate in a clockwise direction to drill holes and in a counterclockwise direction to compact...
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MDPI AG
2024-12-01
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| author | Alexander Isaev Maria Isaeva Oleg Yanushevich Natella Krikheli Olga Kramar Aleksandr Tsitsiashvili Sergey Grigoriev Catherine Sotova Pavel Peretyagin |
| author_facet | Alexander Isaev Maria Isaeva Oleg Yanushevich Natella Krikheli Olga Kramar Aleksandr Tsitsiashvili Sergey Grigoriev Catherine Sotova Pavel Peretyagin |
| author_sort | Alexander Isaev |
| collection | DOAJ |
| description | Osseodensification is an innovative surgical instrumentation technique based on additive (non-cutting) drilling using special burs. It is known from the literature, that the osseodensification burs should operate in a clockwise direction to drill holes and in a counterclockwise direction to compact the osteotomy walls. For these purposes, the burs have special design features, like conical contour shape, increased number of helical flutes, and negative rake angle on the peripheral part. However, although other parameters and features of the burs define their overall performance, they are not described sufficiently, and their influence on surgical quality is almost unknown both for clinicians and tool manufacturers. The purpose of the present research is to identify the key design features of burs for osseodensification and their functional relationship with the qualitative indices of the procedure based on an analytical review of research papers and patent documents. It will help to further improve the design of osseodensification burs and thereby enhance the surgical quality and, ultimately, patient satisfaction. Results: The most important design features and parameters of osseodensification burs are identified. Thereon, the structural model of osseodensification bur is first represented as a hypergraph. Based on the analysis of previous research, functional relationships between design parameters of osseodensification burs, osseodensification procedure conditions, and procedure performance data were established and, for the first time, described in the comprehensive form of a hypergraph. Conclusions: This study provides formal models that form the basis of database structure and its control interface, which will be used in the later developed computer-aided design module to create advanced types of burs under consideration. These models will also help to make good experimental designs used in studies aimed at improving the efficiency of the osseodensification procedure. |
| format | Article |
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| issn | 2413-4155 |
| language | English |
| publishDate | 2024-12-01 |
| publisher | MDPI AG |
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| series | Sci |
| spelling | doaj-art-4916e1c1cc174eabba80af6fcad0655d2025-08-20T02:01:23ZengMDPI AGSci2413-41552024-12-01647910.3390/sci6040079Concept and Design of Cutting Tools for Osseodensification in Implant DentistryAlexander Isaev0Maria Isaeva1Oleg Yanushevich2Natella Krikheli3Olga Kramar4Aleksandr Tsitsiashvili5Sergey Grigoriev6Catherine Sotova7Pavel Peretyagin8Department of Cutting Tools and Forming Technologies, Moscow State University of Technology “STANKIN”, Vadkovsky Lane 3a, Moscow 127055, RussiaHead and Neck Cancer Department, Federal State Budgetary Institution “The National Medical Research Center for Otorhinolaryngology of the Federal Medico-Biological Agency of Russia”, Volokolamskoye shosse 30-2, Moscow 123182, RussiaFederal State Budgetary Educational Institution of Higher Education, “Russian University of Medicine” of the Ministry of Health of the Russian Federation, Dolgorukovskaya Str. 4, Moscow 127006, RussiaFederal State Budgetary Educational Institution of Higher Education, “Russian University of Medicine” of the Ministry of Health of the Russian Federation, Dolgorukovskaya Str. 4, Moscow 127006, RussiaFederal State Budgetary Educational Institution of Higher Education, “Russian University of Medicine” of the Ministry of Health of the Russian Federation, Dolgorukovskaya Str. 4, Moscow 127006, RussiaFederal State Budgetary Educational Institution of Higher Education, “Russian University of Medicine” of the Ministry of Health of the Russian Federation, Dolgorukovskaya Str. 4, Moscow 127006, RussiaDepartment of High-Efficiency Machining Technologies, Moscow State University of Technology “STANKIN”, Vadkovsky Lane 3a, Moscow 127055, RussiaDepartment of High-Efficiency Machining Technologies, Moscow State University of Technology “STANKIN”, Vadkovsky Lane 3a, Moscow 127055, RussiaFederal State Budgetary Educational Institution of Higher Education, “Russian University of Medicine” of the Ministry of Health of the Russian Federation, Dolgorukovskaya Str. 4, Moscow 127006, RussiaOsseodensification is an innovative surgical instrumentation technique based on additive (non-cutting) drilling using special burs. It is known from the literature, that the osseodensification burs should operate in a clockwise direction to drill holes and in a counterclockwise direction to compact the osteotomy walls. For these purposes, the burs have special design features, like conical contour shape, increased number of helical flutes, and negative rake angle on the peripheral part. However, although other parameters and features of the burs define their overall performance, they are not described sufficiently, and their influence on surgical quality is almost unknown both for clinicians and tool manufacturers. The purpose of the present research is to identify the key design features of burs for osseodensification and their functional relationship with the qualitative indices of the procedure based on an analytical review of research papers and patent documents. It will help to further improve the design of osseodensification burs and thereby enhance the surgical quality and, ultimately, patient satisfaction. Results: The most important design features and parameters of osseodensification burs are identified. Thereon, the structural model of osseodensification bur is first represented as a hypergraph. Based on the analysis of previous research, functional relationships between design parameters of osseodensification burs, osseodensification procedure conditions, and procedure performance data were established and, for the first time, described in the comprehensive form of a hypergraph. Conclusions: This study provides formal models that form the basis of database structure and its control interface, which will be used in the later developed computer-aided design module to create advanced types of burs under consideration. These models will also help to make good experimental designs used in studies aimed at improving the efficiency of the osseodensification procedure.https://www.mdpi.com/2413-4155/6/4/79drilling techniquesmedical toolsmedical instrumentationosseodensificationosseodensification drillingdental implant |
| spellingShingle | Alexander Isaev Maria Isaeva Oleg Yanushevich Natella Krikheli Olga Kramar Aleksandr Tsitsiashvili Sergey Grigoriev Catherine Sotova Pavel Peretyagin Concept and Design of Cutting Tools for Osseodensification in Implant Dentistry Sci drilling techniques medical tools medical instrumentation osseodensification osseodensification drilling dental implant |
| title | Concept and Design of Cutting Tools for Osseodensification in Implant Dentistry |
| title_full | Concept and Design of Cutting Tools for Osseodensification in Implant Dentistry |
| title_fullStr | Concept and Design of Cutting Tools for Osseodensification in Implant Dentistry |
| title_full_unstemmed | Concept and Design of Cutting Tools for Osseodensification in Implant Dentistry |
| title_short | Concept and Design of Cutting Tools for Osseodensification in Implant Dentistry |
| title_sort | concept and design of cutting tools for osseodensification in implant dentistry |
| topic | drilling techniques medical tools medical instrumentation osseodensification osseodensification drilling dental implant |
| url | https://www.mdpi.com/2413-4155/6/4/79 |
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