The effect of piezocision and mechanical vibration on orthodontically induced root resorption of first premolars following the application of orthodontic forces
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Open Access
Type
ThesisThesis type
Masters by ResearchAuthor/s
Park, EuniceAbstract
Introduction
The aim was to compare the effect of piezocision and mechanical vibration on orthodontically induced inflammatory root resorption (OIIRR) of human first premolars following application of orthodontic forces.
Methodology
Forty-one orthodontic patients (aged ...
See moreIntroduction The aim was to compare the effect of piezocision and mechanical vibration on orthodontically induced inflammatory root resorption (OIIRR) of human first premolars following application of orthodontic forces. Methodology Forty-one orthodontic patients (aged 13–18) requiring first premolar extractions were treated with a 225g buccal force on both maxillary first premolars for four weeks. Premolars were divided into control (C), piezocision (P), vibration (V), or a combination (PV) through randomization. A total of 82 premolars were extracted, and OIIRR crater volumes were measured using X-ray microtomography and Fiji software to compare OIIRR across the groups. Results OIIRR crater volumes were analyzed using a cube root transformation (crt) by treatment (C, P, V, PV) and location. While the mean crt for PV (0.75mm) was slightly higher than for C (0.65mm), V (0.71mm), and P (0.65mm), there were no statistically significant differences among treatments (p=0.33). The location analysis showed statistically significant differences (p<0.001), with the highest OIIRR on the buccal middle (0.44mm) and the lowest on the palatal cervical (0.07mm). Conclusions The study found no significant differences in mean crtRR volumes between treatments (C, P, V, PV), suggesting piezocision and vibration may not impact OIIRR following the application of heavy orthodontic forces. OIIRR levels varied by location, with the highest on the buccal middle root surface.
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See moreIntroduction The aim was to compare the effect of piezocision and mechanical vibration on orthodontically induced inflammatory root resorption (OIIRR) of human first premolars following application of orthodontic forces. Methodology Forty-one orthodontic patients (aged 13–18) requiring first premolar extractions were treated with a 225g buccal force on both maxillary first premolars for four weeks. Premolars were divided into control (C), piezocision (P), vibration (V), or a combination (PV) through randomization. A total of 82 premolars were extracted, and OIIRR crater volumes were measured using X-ray microtomography and Fiji software to compare OIIRR across the groups. Results OIIRR crater volumes were analyzed using a cube root transformation (crt) by treatment (C, P, V, PV) and location. While the mean crt for PV (0.75mm) was slightly higher than for C (0.65mm), V (0.71mm), and P (0.65mm), there were no statistically significant differences among treatments (p=0.33). The location analysis showed statistically significant differences (p<0.001), with the highest OIIRR on the buccal middle (0.44mm) and the lowest on the palatal cervical (0.07mm). Conclusions The study found no significant differences in mean crtRR volumes between treatments (C, P, V, PV), suggesting piezocision and vibration may not impact OIIRR following the application of heavy orthodontic forces. OIIRR levels varied by location, with the highest on the buccal middle root surface.
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Date
2025Rights statement
The author retains copyright of this thesis. It may only be used for the purposes of research and study. It must not be used for any other purposes and may not be transmitted or shared with others without prior permission.Faculty/School
Faculty of Medicine and Health, The University of Sydney School of DentistryDepartment, Discipline or Centre
Discipline of Orthodontic and Paediatric DentistryAwarding institution
The University of SydneyShare