Comparaison microscopique de la surface des minivis utilisées en orthodontie : avant et après usage
L’objectif de ce travail était d’étudier les modifications affectant l’état de surface des minivis récupérées chez des patients suivant un traitement orthodontique et de les comparer à des minivis neuves. Cette étude a porté sur dix minivis placées chez sept patients suivant un traitement orthodonti...
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| Published in: | Revue de stomatologie et de chirurgie maxillo-faciale Vol. 113; no. 5; pp. 365 - 369 |
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| Main Authors: | , , , , |
| Format: | Journal Article |
| Language: | French |
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01-11-2012
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| Abstract | L’objectif de ce travail était d’étudier les modifications affectant l’état de surface des minivis récupérées chez des patients suivant un traitement orthodontique et de les comparer à des minivis neuves.
Cette étude a porté sur dix minivis placées chez sept patients suivant un traitement orthodontique pour différentes indications. Ces minivis du même fabricant (Dual Top Anchor System® [Jeil Medical Corporation, Seoul, Corée]) ont été observées sous microscopie optique (Leica DM2500M) dans le but d’examiner leur état de surface. Quatre minivis neuves de fabricants différents, dont le fabricant des minivis déposées chez les patients (Abso Anchor [Dentos, Daegu, Corée du sud] ; Infinitas [DB Orthodontics, Silsden, West Yorkshire, Royaume-Uni] ; Dual Top® [Jeil Medical Corporation, Seoul, Corée], IMTEC® [Ardmore, Okla]), ont été examinées sous le même microscope optique pour les comparer aux minivis utilisées.
L’étude des minivis neuves a montré un état de surface irrégulier avec des défauts d’usinage et de polissage sous forme de rayures qui pouvaient constituer des points d’élection des attaques électrochimiques. Par comparaison avec les minivis neuves, les minivis utilisées ont montré des attaques de corrosion par piqûres et par crevasses, principalement au niveau des défauts d’usinage. Ces attaques ont été localisées sur toute l’étendue des minivis.
Il est suggéré qu’une amélioration de l’état de surface puisse augmenter la résistance à la corrosion de ces minivis.
The aim of our work is to study the modifications affecting the surface condition of miniscrews retrieved from patients following an orthodontic treatment and comparing these miniscrews to unused ones.
This study involved ten miniscrews placed in seven patients after orthodontic treatment for various indications. These miniscrews of the same manufacturer (Dual Top Anchor System® [Jeil Medical Corporation, Seoul, Korea]) were observed under optical microscope (Leica DM2500M) in order to examine their surface. Four new Miniscrews of different manufacturers, including the manufacturer of Miniscrews trademarks patients (Abso Anchor [Dentos, Daegu, South Korea] Infiniti [DB Orthodontics, Silsden, West Yorkshire, UK], Dual Top® [Jeil Medical Corporation, Seoul, Korea], IMTEC® [Ardmore, Okla]) were examined under the same microscope to compare with the used miniscrews.
The study of the new miniscrews showed an irregular surface with machining and polishing defects, in the form of stripes that could constitute election's point for electrochemical attacks. Compared with the new one, the miniscrew used showed pitting corrosion attacks and cracks, mainly in the machining defects. These attacks were localized over the whole of miniscrews.
It is suggested that improving the surface finish can increase the corrosion resistance of these miniscrews. |
|---|---|
| AbstractList | L’objectif de ce travail était d’étudier les modifications affectant l’état de surface des minivis récupérées chez des patients suivant un traitement orthodontique et de les comparer à des minivis neuves.
Cette étude a porté sur dix minivis placées chez sept patients suivant un traitement orthodontique pour différentes indications. Ces minivis du même fabricant (Dual Top Anchor System® [Jeil Medical Corporation, Seoul, Corée]) ont été observées sous microscopie optique (Leica DM2500M) dans le but d’examiner leur état de surface. Quatre minivis neuves de fabricants différents, dont le fabricant des minivis déposées chez les patients (Abso Anchor [Dentos, Daegu, Corée du sud] ; Infinitas [DB Orthodontics, Silsden, West Yorkshire, Royaume-Uni] ; Dual Top® [Jeil Medical Corporation, Seoul, Corée], IMTEC® [Ardmore, Okla]), ont été examinées sous le même microscope optique pour les comparer aux minivis utilisées.
L’étude des minivis neuves a montré un état de surface irrégulier avec des défauts d’usinage et de polissage sous forme de rayures qui pouvaient constituer des points d’élection des attaques électrochimiques. Par comparaison avec les minivis neuves, les minivis utilisées ont montré des attaques de corrosion par piqûres et par crevasses, principalement au niveau des défauts d’usinage. Ces attaques ont été localisées sur toute l’étendue des minivis.
Il est suggéré qu’une amélioration de l’état de surface puisse augmenter la résistance à la corrosion de ces minivis.
The aim of our work is to study the modifications affecting the surface condition of miniscrews retrieved from patients following an orthodontic treatment and comparing these miniscrews to unused ones.
This study involved ten miniscrews placed in seven patients after orthodontic treatment for various indications. These miniscrews of the same manufacturer (Dual Top Anchor System® [Jeil Medical Corporation, Seoul, Korea]) were observed under optical microscope (Leica DM2500M) in order to examine their surface. Four new Miniscrews of different manufacturers, including the manufacturer of Miniscrews trademarks patients (Abso Anchor [Dentos, Daegu, South Korea] Infiniti [DB Orthodontics, Silsden, West Yorkshire, UK], Dual Top® [Jeil Medical Corporation, Seoul, Korea], IMTEC® [Ardmore, Okla]) were examined under the same microscope to compare with the used miniscrews.
The study of the new miniscrews showed an irregular surface with machining and polishing defects, in the form of stripes that could constitute election's point for electrochemical attacks. Compared with the new one, the miniscrew used showed pitting corrosion attacks and cracks, mainly in the machining defects. These attacks were localized over the whole of miniscrews.
It is suggested that improving the surface finish can increase the corrosion resistance of these miniscrews. |
| Author | El Quars, F. Lazrak, L. Bourzgui, F. Aazzab, B. Sebbar, M. |
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| Keywords | État de surface Anchor miniscrews Minivis d’ancrage Optical microscopy Surface state Microscopie optique Ancrage Minivis d'ancrage Etude comparative Orthodontie Anatomopathologie Stomatologie Surface |
| Language | French |
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| References | Peuch-Lestrade, Le Marie, Guillaumot (bib0015) 2009; 7 Eliades (bib0045) 1997; 12 Sebbar, Bourzgui, Aazzab, El quars (bib0060) 2011 Cotrim-Ferreira, Quaglio, Peralta, Carvalho, Siqueira (bib0070) 2010; 24 House, Sernetz, Dymock, Sandy, Ireland (bib0050) 2008; 133 Paulus, Hartmann (bib0020) 2011; 112 Mikulewicz, Chojnacka (bib0030) 2011; 139 Shibli, Marcantonio, d’Avila, Guastaldi, Marcantonio (bib0095) 2005; 76 Rangert, Langer (bib0085) 1995; 10 Aparicio, Gil, Fonseca, Barbosa, Planell (bib0040) 2003; 24 Takeshita, Matsushita, Ayukawa, Suetsugu (bib0090) 1996; 67 Chin, Sandham, de Vries, van der Mei, Busscher (bib0075) 2007; 28 Schliephake, Reiss, Urban, Neukam, Guckel (bib0080) 1993; 8 Eliades, Zinelis, Papadopoulos, Eliadesd (bib0055) 2009; 135 Casaglia, Dominici, Pachì, Turlà, Cerroni (bib0065) 2010; 59 Egolf, BeGole, Upshaw (bib0010) 1990; 97 Asscherickx, Vande Vannet, Wehrbein, Sabzevar (bib0005) 2008; 30 Dahan (bib0025) 2011; 112 Laurent, Grosgogeat, Reclaru, Dalard, Lissac (bib0035) 2001; 22 Cotrim-Ferreira (10.1016/j.stomax.2012.04.003_bib0070) 2010; 24 Eliades (10.1016/j.stomax.2012.04.003_bib0055) 2009; 135 Eliades (10.1016/j.stomax.2012.04.003_bib0045) 1997; 12 Takeshita (10.1016/j.stomax.2012.04.003_bib0090) 1996; 67 Laurent (10.1016/j.stomax.2012.04.003_bib0035) 2001; 22 House (10.1016/j.stomax.2012.04.003_bib0050) 2008; 133 Chin (10.1016/j.stomax.2012.04.003_bib0075) 2007; 28 Casaglia (10.1016/j.stomax.2012.04.003_bib0065) 2010; 59 Egolf (10.1016/j.stomax.2012.04.003_bib0010) 1990; 97 Peuch-Lestrade (10.1016/j.stomax.2012.04.003_bib0015) 2009; 7 Dahan (10.1016/j.stomax.2012.04.003_bib0025) 2011; 112 Schliephake (10.1016/j.stomax.2012.04.003_bib0080) 1993; 8 Aparicio (10.1016/j.stomax.2012.04.003_bib0040) 2003; 24 Rangert (10.1016/j.stomax.2012.04.003_bib0085) 1995; 10 Mikulewicz (10.1016/j.stomax.2012.04.003_bib0030) 2011; 139 Asscherickx (10.1016/j.stomax.2012.04.003_bib0005) 2008; 30 Shibli (10.1016/j.stomax.2012.04.003_bib0095) 2005; 76 Paulus (10.1016/j.stomax.2012.04.003_bib0020) 2011; 112 Sebbar (10.1016/j.stomax.2012.04.003_bib0060) 2011; 9 |
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| Title | Comparaison microscopique de la surface des minivis utilisées en orthodontie : avant et après usage |
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