Electrical stimulation enhances tissue reorganization during orthodontic tooth movement in rats

Objective This study evaluated the effects of a low-intensity electric current on tissue reorganization during experimental orthodontic tooth movement. Materials and methods Thirty-two animals were divided into two groups evaluated on days 3 and 7: OTM—orthodontic tooth movement and OTM + MC—orthodo...

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Veröffentlicht in:Clinical oral investigations 2017, Vol.21 (1), p.111-120
Hauptverfasser: Spadari, Gisele Sampaio, Zaniboni, Ewerton, Vedovello, Silvia Amelia Scudeler, Santamaria, Mauro Pedrine, do Amaral, Maria Esméria Corezola, dos Santos, Gláucia Maria Tech, Esquisatto, Marcelo Augusto Marretto, Mendonca, Fernanda Aparecida Sampaio, Santamaria-Jr, Milton
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Sprache:eng
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Zusammenfassung:Objective This study evaluated the effects of a low-intensity electric current on tissue reorganization during experimental orthodontic tooth movement. Materials and methods Thirty-two animals were divided into two groups evaluated on days 3 and 7: OTM—orthodontic tooth movement and OTM + MC—orthodontic tooth movement and microcurrent application (10 μA/5 min). The samples were processed for histological, morphometric, and Western blotting analysis. Results Analysis of the periodontal ligament (PL) showed a significantly smaller number of granulocytes in the OTM + MC group on day 7.The number of fibroblasts was significantly higher in the OTM + MC group on days 3 and 7. The area of birefringent collagen fibers was more organized in the OTM + MC group on days 3 and 7. The number of blood vessels was significantly higher in the OTM + MC group on day 7. Microcurrent application significantly increased the number of osteoclasts in the compression region of the PL. In the OTM + MC group on day 7 of tooth movement, the expression of TGF-β1 and VEGF was significantly reduced whereas the expression of bFGF was increased in PL. Conclusions Electrical stimulation enhances tissue responses, reducing the number of granulocytes and increasing the number of fibroblasts, blood vessels, and osteoclasts and modulates the expression of TGF-β1, VEFG, and bFGF. Clinical relevance This technique is used in many areas of medicine, but poorly explored in dentistry and orthodontics. This treatment is cheap and non-invasive and can be applied by own orthodontist, and it can improve the treatment with a faster and safe tooth movement, without pain.
ISSN:1432-6981
1436-3771
DOI:10.1007/s00784-016-1759-6