Comparison between Occlusal Errors of Single Posterior Crowns Adjusted Using Patient Specific Motion or Conventional Methods

Ye-Chan Lee,Keun-Woo Lee,Yooseok Shin,Ji-Man Park,Chunui Lee,June-Sung Shim,Jong-Eun Kim

doi:10.3390/app10249140

Ye-Chan Lee, Keun-Woo Lee + Show 5 more

Open Access

https://doi.org/10.3390/app10249140

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Journal: Applied sciences	Publication Date: Dec 21, 2020
Citations: 4	License type: CC BY 4.0

Affiliation: Yonsei University, Seoul Veterans Hospital

Abstract

Recently, digital technology has been used in dentistry to enhance accuracy and to reduce operative time. Due to advances in digital technology, the integration of individual mandibular motion into the mapping of the occlusal surface is being attempted. The Patient Specific Motion (PSM) is one such method. However, it is not clear whether the occlusal design that is adjusted using PSM could clinically show reduced occlusal error compared to conventional methods based on static occlusion. In this clinical comparative study including fifteen patients with a single posterior zirconia crown treatment, the occlusal surface after a clinical adjustment was compared to no adjustment (NA; design based on static occlusion), PSM (adjusted using PSM), and adjustment using a semi-adjustable articulator (SA) for the assessment of occlusal error. The root mean square (RMS; μm), average deviation value (±AVG; μm), and proportion inside the tolerance (in Tol; %) were calculated using the entire, subdivided occlusal surface and the out of tolerance area. Using a one-way ANOVA, the RMS and +AVG from the out of tolerance area showed a statistical difference between PSM (202.3 ± 39.8 for RMS, 173.1 ± 31.3 for +AVG) and NA (257.0 ± 73.9 for RMS, 210.9 ± 48.6 for +AVG). For the entire and subdivided occlusal surfaces, there were no significant differences. In the color-coded map analysis, PSM demonstrated a reduced occlusal error compared to NA. In conclusion, adjustment occlusal design using PSM is a simple and effective method for reducing occlusal errors that are difficult to identify in a current computer-aided design (CAD) workflow with static occlusion.

Highlights

The design of a single crown restoration should be in a functionally and anatomically harmonic relationship with the adjacent and antagonistic teeth [1,2,3,4,5]
−AVG deviation ± standard deviation (SD), and in TOL (%) ± SD of the no adjustment (NA), Patient Specific Motion (PSM), and semi-adjustable articulator (SA) groups according to the occlusal surface, functional cusp area, central groove area, and non-functional cusp area, respectively
The root mean square (RMS) value of the PSM group was lower than that of the other groups, but there was no significant difference in the one-way ANOVA (p = 0.797)

Summary

Introduction

The design of a single crown restoration should be in a functionally and anatomically harmonic relationship with the adjacent and antagonistic teeth [1,2,3,4,5]. Conventional single-crown restorations are designed and adjusted in a dental laboratory using various mechanical articulators, which are used for harmonious occlusal relationships [7]. It is possible to reproduce the anatomical relationship and simulate mandibular movement in an extraoral condition [12]. This mechanical device is a valuable and practical tool for various treatments that are available from the fabrication of simple restoration to complex oral rehabilitation [8,13]

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