Two case reports are presented showing how the strategic use of skeletal anchorage via orthodontic miniscrews manages to solve the complex problems of orthodontic disimpaction of second mandibular molars with excellent anchorage control and reduction of the adverse effects common to the use of conventional methods. The temporary anchorage device (TAD)-mediated biomechanics used can be categorized as both “pulling from the distal side” and “pushing from the mesial side” techniques in which both direct and indirect anchorage mechanics were employed. Each of these mechanics has its advantages and disadvantages, which must be weighed and considered on a case-by-case basis. Based on the force application side and the type of anchorage, a simplified classification of TADs supported biomechanics for the recovery of fully or partially impacted second molars is proposed.
Resolution of lower second molar impaction through miniscrew-supported biomechanics: A proposal for a simplified classification
Palone Mario
Secondo
;Siciliani Giuseppe;Albertini Paolo;Cremonini FrancescaPenultimo
;Lombardo LucaUltimo
2021
Abstract
Two case reports are presented showing how the strategic use of skeletal anchorage via orthodontic miniscrews manages to solve the complex problems of orthodontic disimpaction of second mandibular molars with excellent anchorage control and reduction of the adverse effects common to the use of conventional methods. The temporary anchorage device (TAD)-mediated biomechanics used can be categorized as both “pulling from the distal side” and “pushing from the mesial side” techniques in which both direct and indirect anchorage mechanics were employed. Each of these mechanics has its advantages and disadvantages, which must be weighed and considered on a case-by-case basis. Based on the force application side and the type of anchorage, a simplified classification of TADs supported biomechanics for the recovery of fully or partially impacted second molars is proposed.| File | Dimensione | Formato | |
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Resolution of lower second molar impaction through miniscrew-supported biomechanics_ a proposal for a simplified classification -International Orthodontics.pdf
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