Research Article
Year 2025,
Volume: 46 Issue: 3, 483 - 488, 30.09.2025
Abstract
Project Number
1710F535
References
- Kanomi R., Mini-implant for orthodontic anchorage, J Clin Orthod., 31 (1997) 763–7.
- Mervyn Y.H.C., Andrew S., Joop V., Henny C.M., Henk J.B., Biofilm formation on surface characterized micro-implants for skeletal anchorage in orthodontics, Biomaterials, 28 (2007) 2032-40.
- Park H.S., Lee S.K., Kwon O.W., Group distal movement of teeth using microanchorage implant screw, Angle Orthod.,75 (2005) 602–9.
- Kim S.H., Kang S.M., Choi Y.S., Kook Y.A., Chung K.R., Huang J.C., Cone-beam computed tomography evaluation of mini- implants after placement: is root proximity a major risk factor for failure, J Orthod Dentofac Orthop., 138 (2010) 264–76.
- Apel S., Apel C., Morea C., Tortamano A., Dominguez G.C., Conrads G., Microflora associated with successful and failed orthodontic mini-implants, Clin Oral Implants Res., 20 (2009) 1186–1190.
- Andre T., Gladys C.D., Ana Cristina S.S.H., Fabio D.N., Monica N., Camillo M., Periodontopathogens around the surface of mini-implants removed from orthodontic patients, Angle Orthod. (2012) 82:591–595.
- Arik G., Kivanc M., Kirzioglu Z., Diversity of aerobic and facultative anaerobic bacteria forming the supragingival biofilm in healthy children, Malaysian Journal of Microbiology, 18 (5) (2022) 555-561.
- Tortamanoa A., Dominguez G.C., Santos Haddad A.C.S., Nunes F.D., Nacaoe M., Morea C., Periodontopathogens around the surface of mini-implants removed from orthodontic patients, Angle Orthodontist, 82 (2012) 4.
- Kumar S., Stecher G., Tamura K., MEGA7: Molecular evolutionary genetics analysis version 7.0 for bigger datasets brief communication, Molecular Evolutionary Genetic Analysis. 33 (7) (2016) 1870–74.
- Janda J.M., Abbott S.L., 16S rRNA Gene Sequencing for Bacterial Identification in the Diagnostic Laboratory: Pluses, Perils, and Pitfalls, Journal of Clinical Microbiology. 45 (9) (2007) 2761-2764.
- Verma D., Garg P.K., Dubey A.K., Insights of the human oral microbiome, Archives of Microbiology, 200 (2018) 525-540.
- Clarridge J. E., Impact of 16S rRNA Gene Sequence Analysis for Identification of Bacteria on Clinical Microbiology and Infectious Diseases, Clinical Microbiology Reviews, 17 (4) (2004) 840-862.
- Lazarevic V., Whiteson K., Huse S., Hernandez D., Farinelli L., Østerås M., Schrenzel J., François P., Metagenomic study of the oral microbiota by Illumina high-throughput sequencing, Journal of Microbiological Methods, 79 (2009) 266–271.
- Heller D., Helmerhorst E.J., Gower A.C., Siqueira W.L., Paster B.J., Oppenheim F.G., Microbial Diversity in the Early In Vivo-Formed Dental Biofilm, Applied and Environmental Microbiology, 82 (2016) (6): 1881-1888.
- Tanner A.C.R., Mathney J.M.J., Kent R.L., Chalmers N.L., Hughes C.V., Loo C.Y., Pradhan N., Kanasi E., Hwang J., Dahlan M.A., Papadopolou E., Dewhirst F.E., Cultivable Anaerobic Microbiota of Severe Early Childhood Caries, Journal of Clinical Microbiology, 49 (4) (2011) 1464–74.
- Freitas A., Gonçalves C., Microbial Colonization in Orthodontic, Brazilian Dental Research, 23 (2012): 422–27.
Bacteriological Assessment of Mini Anchorages Retrieved Following Maxillary Treatments Using Mini Anchorage-Assisted Orthodontic Appliances
Abstract
In recent years, mini screws used in the mouth have been widely used in orthodontics clinics to provide dental movements and to increase skeletal anchorage. In this study, bacteria were isolated from mini screws taken from patients who were treated in the Orthodontic Department of Eskişehir Osmangazi University Faculty of Dentistry Clinic and routinely applied mini screws to the anterior and posterior regions of the upper palate for jaw widening or support of dental movements.
Streptococcus salivarus (15 isolates), Streptococcus anginosus (12 isolates) and Enterococcus feacalis (10 isolates) were the most isolated bacteria in the microbial composition. Rothia mucilaginosa (8 isolates) and Corynebacteria argentoratense (6 isolates) were isolated from the Actinobacteria phylum. Neisseria oralis, N. flava, N. subflava and N. flavescens species were determined from Proteobacteria phylum.
Keywords
Ethical Statement
Ethical approval for the study was obtained from the Clinical Research Ethics Committee of Eskişehir Osmangazi University (29.06.2017/17).
Supporting Institution
Eskisehir Technical University
Project Number
1710F535
References
- Kanomi R., Mini-implant for orthodontic anchorage, J Clin Orthod., 31 (1997) 763–7.
- Mervyn Y.H.C., Andrew S., Joop V., Henny C.M., Henk J.B., Biofilm formation on surface characterized micro-implants for skeletal anchorage in orthodontics, Biomaterials, 28 (2007) 2032-40.
- Park H.S., Lee S.K., Kwon O.W., Group distal movement of teeth using microanchorage implant screw, Angle Orthod.,75 (2005) 602–9.
- Kim S.H., Kang S.M., Choi Y.S., Kook Y.A., Chung K.R., Huang J.C., Cone-beam computed tomography evaluation of mini- implants after placement: is root proximity a major risk factor for failure, J Orthod Dentofac Orthop., 138 (2010) 264–76.
- Apel S., Apel C., Morea C., Tortamano A., Dominguez G.C., Conrads G., Microflora associated with successful and failed orthodontic mini-implants, Clin Oral Implants Res., 20 (2009) 1186–1190.
- Andre T., Gladys C.D., Ana Cristina S.S.H., Fabio D.N., Monica N., Camillo M., Periodontopathogens around the surface of mini-implants removed from orthodontic patients, Angle Orthod. (2012) 82:591–595.
- Arik G., Kivanc M., Kirzioglu Z., Diversity of aerobic and facultative anaerobic bacteria forming the supragingival biofilm in healthy children, Malaysian Journal of Microbiology, 18 (5) (2022) 555-561.
- Tortamanoa A., Dominguez G.C., Santos Haddad A.C.S., Nunes F.D., Nacaoe M., Morea C., Periodontopathogens around the surface of mini-implants removed from orthodontic patients, Angle Orthodontist, 82 (2012) 4.
- Kumar S., Stecher G., Tamura K., MEGA7: Molecular evolutionary genetics analysis version 7.0 for bigger datasets brief communication, Molecular Evolutionary Genetic Analysis. 33 (7) (2016) 1870–74.
- Janda J.M., Abbott S.L., 16S rRNA Gene Sequencing for Bacterial Identification in the Diagnostic Laboratory: Pluses, Perils, and Pitfalls, Journal of Clinical Microbiology. 45 (9) (2007) 2761-2764.
- Verma D., Garg P.K., Dubey A.K., Insights of the human oral microbiome, Archives of Microbiology, 200 (2018) 525-540.
- Clarridge J. E., Impact of 16S rRNA Gene Sequence Analysis for Identification of Bacteria on Clinical Microbiology and Infectious Diseases, Clinical Microbiology Reviews, 17 (4) (2004) 840-862.
- Lazarevic V., Whiteson K., Huse S., Hernandez D., Farinelli L., Østerås M., Schrenzel J., François P., Metagenomic study of the oral microbiota by Illumina high-throughput sequencing, Journal of Microbiological Methods, 79 (2009) 266–271.
- Heller D., Helmerhorst E.J., Gower A.C., Siqueira W.L., Paster B.J., Oppenheim F.G., Microbial Diversity in the Early In Vivo-Formed Dental Biofilm, Applied and Environmental Microbiology, 82 (2016) (6): 1881-1888.
- Tanner A.C.R., Mathney J.M.J., Kent R.L., Chalmers N.L., Hughes C.V., Loo C.Y., Pradhan N., Kanasi E., Hwang J., Dahlan M.A., Papadopolou E., Dewhirst F.E., Cultivable Anaerobic Microbiota of Severe Early Childhood Caries, Journal of Clinical Microbiology, 49 (4) (2011) 1464–74.
- Freitas A., Gonçalves C., Microbial Colonization in Orthodontic, Brazilian Dental Research, 23 (2012): 422–27.
There are 16 citations in total.
Details
| Primary Language | English |
|---|---|
| Subjects | Bacteriology, Microbiology (Other) |
| Journal Section | Natural Sciences |
| Authors | |
| Project Number | 1710F535 |
| Publication Date | September 30, 2025 |
| Submission Date | April 17, 2025 |
| Acceptance Date | August 28, 2025 |
| Published in Issue | Year 2025 Volume: 46 Issue: 3 |
