APA
Zubizarreta Macho, Álvaro & de Pedro Muñoz, Ana & Riad Deglow, Elena & Agustín Panadero, Rubén & Mena Álvarez, Jesús .Accuracy of Computer-Aided Dynamic Navigation Compared to Computer-Aided Static Procedure for Endodontic Access Cavities: An In Vitro Study.
ISO 690
Zubizarreta Macho, Álvaro & de Pedro Muñoz, Ana & Riad Deglow, Elena & Agustín Panadero, Rubén & Mena Álvarez, Jesús. Accuracy of Computer-Aided Dynamic Navigation Compared to Computer-Aided Static Procedure for Endodontic Access Cavities: An In Vitro Study.
https://hdl.handle.net/20.500.12080/24010
Resumen:
Purpose: To analyze the accuracy of two computer-aided navigation techniques to guide
the performance of endodontic access cavities compared with the conventional access procedure.
Materials and Methods: A total of 30 single-rooted anterior teeth were selected, which were randomly
distributed into three study groups: Group A¿guided performance of endodontic access cavities
through computer-aided static navigation system (n = 10) (SN); Group B¿guided performance of
endodontic access cavities through computer-aided dynamic navigation system (n = 10) (DN); and
Group C¿manual (freehand) performance of endodontic access cavities (n = 10) (MN). The endodontic
access cavities of the SN group were performed with a stereolithography template designed on
3D implant planning software, based on preoperative cone-beam computed tomography (CBCT)
and a 3D extraoral surface scan, and endodontic access cavities of the DN group were planned and
performed by the dynamic navigation system. After endodontic access cavities were performed,
a second CBCT was done, and the degree of accuracy between the planned and performed endodontic
access cavities was analyzed using therapeutic planning software and Student¿s t-test. Results: Paired
t-test revealed no statistically significant di erences between SN and DN at the coronal (p = 0.6542),
apical (p = 0.9144), or angular (p = 0.0724) level; however, statistically significant di erences were
observed between the two computer-aided navigation techniques and the MN group at the coronal
(p < 0.0001), apical (p < 0.0001), and angular (p < 0.0001) level. Conclusion: Both computer-aided static
and dynamic navigation procedures allowed accurate performance of endodontic access cavities.