Nan Ru scite author profile

Objective: To observe the real-time microarchitecture changes of the alveolar bone and root resorption during orthodontic treatment. Materials and Methods: A 10 g force was delivered to move the maxillary left first molars mesially in twenty 10-week-old rats for 14 days. The first molar and adjacent alveolar bone were scanned using in vivo microcomputed tomography at the following time points: days 0, 3, 7, and 14. Microarchitecture parameters, including bone volume fraction, structure model index, trabecular thickness, trabecular number, and trabecular separation of alveolar bone, were measured on the compression and tension side. The total root volume was measured, and the resorption crater volume at each time point was calculated. Univariate repeated measures analysis of variance with Bonferroni corrections were performed to compare the differences in each parameter between time points with significance level at P , .05. Results: From day 3 to day 7, bone volume fraction, structure model index, trabecular thickness, and trabecular separation decreased significantly on the compression side, but the same parameters increased significantly on the tension side from day 7 to day 14. Root resorption volume of the mesial root increased significantly on day 7 of orthodontic loading. Conclusions: Real-time root and bone resorption during orthodontic movement can be observed in 3 dimensions using in vivo micro-CT. Alveolar bone resorption and root resorption were observed mostly in the apical third on day 7 on the compression side; bone formation was observed on day 14 on the tension side during orthodontic tooth movement. (Angle Orthod. 2013;83:402-409.)

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Microarchitecture and Biomechanical Evaluation of BoneCeramic Grafted Alveolar Defects during Tooth Movement in Rat

Ru¹,

Liu²,

Bai³

et al. 2018

The Cleft Palate Craniofacial Journal

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Effect of Early Orthodontic Force on Periodontal Healing After Autotransplantation of Permanent Incisors in Beagle Dogs

Yang

Bai

et al. 2012

Journal of Periodontology

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In vivo micro–computed tomography evaluation of BoneCeramic grafted alveolar defects during orthodontic tooth movement

Ru¹,

Liu²,

Bai³

et al. 2016

The Angle Orthodontist

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Nan Ru

BoneCeramic graft regenerates alveolar defects but slows orthodontic tooth movement with less root resorption

In vivo microcomputed tomography evaluation of rat alveolar bone and root resorption during orthodontic tooth movement

Microarchitecture and Biomechanical Evaluation of BoneCeramic Grafted Alveolar Defects during Tooth Movement in Rat

Effect of Early Orthodontic Force on Periodontal Healing After Autotransplantation of Permanent Incisors in Beagle Dogs

In vivo micro–computed tomography evaluation of BoneCeramic grafted alveolar defects during orthodontic tooth movement

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