The three-dimensional stability and accuracy of 3D printing surgical templates: An In Vitro study

Objective: To evaluate the three-dimensional (3D) stability and accuracy of additively manufactured surgical templates fabricated using two different 3D printers and materials. Materials and Methods: Forty surgical templates were designed and printed using two different 3D printers: the resin group ( n = 20) used a digital light processing (DLP) 3D printer with photopolymer resin, and the metal group ( n = 20) employed a selective laser melting (SLM) 3D printer with titanium alloy. All surgical templates were scanned immediately after production and re -digitalized after one month of storage. Similarly, the implant simulations were performed twice. Three-dimensional congruency between the original design and the manufactured surgical templates was quantified using the root mean square (RMS), and the definitive and planned implant positions were determined and compared. Results: At the postproduction stage, the metal templates exhibited higher accuracy than the resin templates ( p < 0.001), and these differences persisted after one month of storage ( p < 0.001). The resin templates demonstrated a significant decrease in three-dimensional stability after one month of storage ( p < 0.001), whereas the metal templates were not affected ( p > 0.05). No significant differences in implant accuracy were found between the two groups. However, the resin templates showed a significant increase in apical and angular deviations after one month of storage ( p < 0.001), whereas the metal templates were not affected ( p > 0.05). Conclusion: Printed metal templates showed higher fabrication accuracy than printed resin templates. The threedimensional stability and implant accuracy of printed metal templates remained unaffected by one month of storage. Clinical significance: With superior three-dimensional stability and acceptable implant accuracy, printed metal templates can be considered a viable alternative technique for guided surgery.