Multidisciplinary combination therapy of precision autotransplantation in complex impacted teeth based on CAD/CAM digital navigation - 12/04/25

Doi : 10.1016/j.jormas.2024.102144

Zun Yang ^{^{1
Zun Yang and Ya Wang contributed equally as the first authors.}}, Ya Wang ^{^{1
Zun Yang and Ya Wang contributed equally as the first authors.}}, Leilei Zheng, Jinlin Song ^⁎
Chongqing Key Laboratory of Oral Disease and Biomedical Sciences, Chongqing Municipal Key Laboratory of Oral Biomedical Engineering of Higher Education, Department of Orthodontics, Stomatological Hospital of Chongqing Medical University, No.426 Songshibei Road, Yubei District, Chongqing 401147, China

^⁎Correspondence author.

Sous presse. Épreuves corrigées par l'auteur. Disponible en ligne depuis le Saturday 12 April 2025

Highlights

•	Precise digital guided autotransplantation significantly improves the efficiency and success rate of treating impacted teeth.
•	Digital design and navigation approaches offer high consistency between clinical surgery and computer simulation design.
•	Autotransplantation using CAD/CAM has the potential to replace traditional orthodontic traction and become a conventional treatment for impacted teeth.

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Abstract

This study aimed to evaluate the efficiency and accuracy of autotransplantation of complex impacted teeth by CAD/CAM digital navigation technology. An 11-year-old girl with complex impacted second premolars bilaterally in the maxilla was selected. CAD/CAM digital dynamic navigation was utilized to ensure the precision and success of the procedure. A comprehensive accuracy analysis was conducted to compare the preoperative digital simulation design with the postoperative positions of the transplanted teeth. The transplanted teeth functioned well after 1 year of follow-up. Postoperative CBCT clinical data, combined with Mimics 21.0 and 3-Matic 13.0 software, revealed that the depth and buccolingual deviations of the bilateral autotransplantation were within 2.0 millimeters, with a mesiodistal deviation of approximately 1.0 millimeter. This case demonstrates the high efficiency, precision, and stabilization provided by digital navigation technology, highlighting its potential as a viable option for the treatment of complex impacted teeth.

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Keywords : Precision autotransplantation, CAD/CAM digital navigation technology, Multidisciplinary combination therapy, Complex impacted teeth

Abbreviations : CBCT, CAD/CAM, DICOM, STL