|
KMID : 0602720200240020062
|
|
Implantology
2020 Volume.24 No. 2 p.62 ~ p.75
|
|
|
Investigation of Optimal Cement Space in 3D Printed 3-unit Resin Prosthesis: A Pilot Study
|
|
Jang Gae-Jun
Kim Seong-Kyun
Heo Seong-Joo
Koak Jai-Young
Park Ji-Man
|
|
|
Abstract
|
|
|
Purpose: The purpose of this study was to investigate the optimal cement space in the 3D printed 3-unit resin fixed partial denture.
Materials and Methods: A model was fabricated for mandibular premolar and molar implant abutments. Forty resin prostheses were fabricated using stereolithography (SLA) 3D printer. A cement space of 90 ¥ìm (CS 90) was given for 20 specimens and a cement space of 100 ¥ìm (CS 100) was given for 20 specimens. The groups of each cement space were divided into 10 groups by a layer thickness (50 ¥ìm and 100 ¥ìm) and a build orientation (0¡Æ, 30¡Æ, 45¡Æ, 60¡Æ and 90¡Æ). The prostheses were seated and scanned with micro-CT. Marginal, axial and occlusal gaps were measured and statistically analyzed using Kruskal-Wallis and Mann-Whitney U test (¥á = .05).
Results: In CS 90 groups, marginal gap (MG) value was 88.43 ¡¾ 41.77 ¥ìm, mid axial gap (AX) value was 92.74 ¡¾ 58.43 ¥ìm, axio-occlusal angle gap (AN) value was 80.49 ¡¾ 56.97 ¥ìm and occlusal gap (OC) value was 166.75 ¡¾ 52.38 ¥ìm. In CS 100 groups, MG value was 69.12 ¡¾ 40.17 ¥ìm, AX value was 113.43 ¡¾ 64.20 ¥ìm, AN value was 92.99 ¡¾ 55.73 ¥ìm and OC value was 161.79 ¡¾ 50.40 ¥ìm. In CS 100 group, MG showed smaller value in comparison to CS 90 group (p < .05).
Conclusion: For the SLA 3D printed 3-unit resin fixed partial denture, setting the cement space to 90 ¥ìm or less is not recommended due to the interference in seating.
|
|
|
KEYWORD
|
|
|
Dental Prosthesis, Cement Space, Micro-CT, 3D Printing
|
|
|
FullTexts / Linksout information
|
|
|
|
|
Listed journal information
|
|
|
|
|