Prosthodontics Using Removable Platform Switching Technologies (Multiunit, On1) as Exemplified by Conical Connection Implant Systems for Early and Immediate Loading

Prosthodontics Using Removable Platform Switching Technologies (Multiunit, On1) as Exemplified by Conical Connection Implant Systems for Early and Immediate Loading

The removable platform switching technology (multiunit, Оn1) was tested intraoperatively using the passive placement technique as exemplified by a conical connection implant system, which makes it possible to visually control the placement of these platforms with respect to the alveolar bone in the...

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Bibliographic Details
Main Author: Roman Studenikin
Format: Article
Language:English
Published: Hindawi Limited 2021-01-01
Series:International Journal of Dentistry
Online Access:http://dx.doi.org/10.1155/2021/6633804
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spelling doaj-28564783ad5f4336b1a735bf67e014cb2021-05-03T00:01:16ZengHindawi LimitedInternational Journal of Dentistry1687-87362021-01-01202110.1155/2021/6633804Prosthodontics Using Removable Platform Switching Technologies (Multiunit, On1) as Exemplified by Conical Connection Implant Systems for Early and Immediate LoadingRoman Studenikin0Dental ClinicThe removable platform switching technology (multiunit, Оn1) was tested intraoperatively using the passive placement technique as exemplified by a conical connection implant system, which makes it possible to visually control the placement of these platforms with respect to the alveolar bone in the correct orthopedic position. The technology is characterized by a rapid epithelialization of tissues around the base platform until the final integration of the implant, minimal trauma in the emergence profile zone, and an improved minimally invasive orthopedic protocol for working on a removable platform switching base.http://dx.doi.org/10.1155/2021/6633804
collection DOAJ
language English
format Article
sources DOAJ
author Roman Studenikin
spellingShingle Roman Studenikin
Prosthodontics Using Removable Platform Switching Technologies (Multiunit, On1) as Exemplified by Conical Connection Implant Systems for Early and Immediate Loading
International Journal of Dentistry
author_facet Roman Studenikin
author_sort Roman Studenikin
title Prosthodontics Using Removable Platform Switching Technologies (Multiunit, On1) as Exemplified by Conical Connection Implant Systems for Early and Immediate Loading
title_short Prosthodontics Using Removable Platform Switching Technologies (Multiunit, On1) as Exemplified by Conical Connection Implant Systems for Early and Immediate Loading
title_full Prosthodontics Using Removable Platform Switching Technologies (Multiunit, On1) as Exemplified by Conical Connection Implant Systems for Early and Immediate Loading
title_fullStr Prosthodontics Using Removable Platform Switching Technologies (Multiunit, On1) as Exemplified by Conical Connection Implant Systems for Early and Immediate Loading
title_full_unstemmed Prosthodontics Using Removable Platform Switching Technologies (Multiunit, On1) as Exemplified by Conical Connection Implant Systems for Early and Immediate Loading
title_sort prosthodontics using removable platform switching technologies (multiunit, on1) as exemplified by conical connection implant systems for early and immediate loading
publisher Hindawi Limited
series International Journal of Dentistry
issn 1687-8736
publishDate 2021-01-01
description The removable platform switching technology (multiunit, Оn1) was tested intraoperatively using the passive placement technique as exemplified by a conical connection implant system, which makes it possible to visually control the placement of these platforms with respect to the alveolar bone in the correct orthopedic position. The technology is characterized by a rapid epithelialization of tissues around the base platform until the final integration of the implant, minimal trauma in the emergence profile zone, and an improved minimally invasive orthopedic protocol for working on a removable platform switching base.
url http://dx.doi.org/10.1155/2021/6633804
work_keys_str_mv AT romanstudenikin prosthodonticsusingremovableplatformswitchingtechnologiesmultiuniton1asexemplifiedbyconicalconnectionimplantsystemsforearlyandimmediateloading
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