Comparative Analysis of AI-Generated and Manually Designed Approaches in Accuracy and Design Time for Surgical Path Planning of Dynamic Navigation-Aided Endodontic Microsurgery: A Retrospective Study.
Abstract
[AIM] To compare the accuracy and design time of artificial intelligence (AI)-generated and manually designed (MD) surgical pathways for osteotomies and root-end resections in dynamic navigation (DN)-aided endodontic microsurgery (EMS).
[METHODOLOGY] Fifty-one surgical pathways were analysed, each planned using both AI and MD methodologies. Accuracy was assessed using the DCARE Navigation System (v3.2, MedNav Ltd) and AutoCAD (2023, Autodesk Inc.), evaluating five parameters: start deviation, end deviation, angular deviation, root-end resection length deviation, and root-end resection angulation deviation. Design time was measured from the point of CBCT dataset import to the finalisation of the surgical pathway design. Mann-Whitney U test was used to compare the accuracy and design time of the AI and MD groups, whereas the rank-based ANCOVA was used to assess deviations according to tooth type, jaw type, and root number. Statistical significance was set at p < 0.05.
[RESULTS] Compared with the MD group, the AI group exhibited significantly smaller root-end resection length deviations (AI: 0.01 [0.01, 0.02] mm; MD: 0.02 [0.01, 0.03] mm; p = 0.029) but significantly larger root-end resection angulation deviations (AI: 3.48 [1.01, 7.48]; MD: 0.35 [0.16, 0.73]; p < 0.001). There were no significant differences in the start deviation, end deviation, angular deviation, root-end resection length deviation, or root-end resection angulation deviation across tooth type, jaw type, or root number. The design time was significantly shorter in the AI group than in the MD group (55 [21, 74] s vs. 379 [215, 553] s; p < 0.001).
[CONCLUSIONS] A clinically operational AI-based surgical path design approach is capable of minimising manual interventions and delivering time-efficient, accurate results for clinical use. The integration of AI with DN-aided EMS may contribute to the development of increasingly autonomous surgical procedures.
[METHODOLOGY] Fifty-one surgical pathways were analysed, each planned using both AI and MD methodologies. Accuracy was assessed using the DCARE Navigation System (v3.2, MedNav Ltd) and AutoCAD (2023, Autodesk Inc.), evaluating five parameters: start deviation, end deviation, angular deviation, root-end resection length deviation, and root-end resection angulation deviation. Design time was measured from the point of CBCT dataset import to the finalisation of the surgical pathway design. Mann-Whitney U test was used to compare the accuracy and design time of the AI and MD groups, whereas the rank-based ANCOVA was used to assess deviations according to tooth type, jaw type, and root number. Statistical significance was set at p < 0.05.
[RESULTS] Compared with the MD group, the AI group exhibited significantly smaller root-end resection length deviations (AI: 0.01 [0.01, 0.02] mm; MD: 0.02 [0.01, 0.03] mm; p = 0.029) but significantly larger root-end resection angulation deviations (AI: 3.48 [1.01, 7.48]; MD: 0.35 [0.16, 0.73]; p < 0.001). There were no significant differences in the start deviation, end deviation, angular deviation, root-end resection length deviation, or root-end resection angulation deviation across tooth type, jaw type, or root number. The design time was significantly shorter in the AI group than in the MD group (55 [21, 74] s vs. 379 [215, 553] s; p < 0.001).
[CONCLUSIONS] A clinically operational AI-based surgical path design approach is capable of minimising manual interventions and delivering time-efficient, accurate results for clinical use. The integration of AI with DN-aided EMS may contribute to the development of increasingly autonomous surgical procedures.
추출된 의학 개체 (NER)
| 유형 | 영어 표현 | 한국어 / 풀이 | UMLS CUI | 출처 | 등장 |
|---|---|---|---|---|---|
| 시술 | microsurgery
|
미세수술 | dict | 2 |
MeSH Terms
Humans; Microsurgery; Retrospective Studies; Surgery, Computer-Assisted; Artificial Intelligence; Cone-Beam Computed Tomography; Osteotomy
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