Journal of Peking University (Health Sciences) ›› 2020, Vol. 52 ›› Issue (5): 943-947. doi: 10.19723/j.issn.1671-167X.2020.05.025

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Study of masking ability of laminate veneers for discolored teeth

Sheng-hao XUE,Yu-xuan WANG,Tong-kai XU(),Ting JIANG()   

  1. Department of Prosthodontics, Peking University School and Hospital of Stomatology & National Clinical Research Center for Oral Diseases & National Engineering Laboratory for Digital and Material Technology of Stomatology & Beijing Key Laboratory of Digital Stornatology, Beijing 100081, China
  • Received:2018-10-11 Online:2020-10-18 Published:2020-10-15
  • Contact: Tong-kai XU,Ting JIANG E-mail:xutongkai@vip.163.com;15011229485@139.com
  • Supported by:
    Capital Charateristic Clinical Application Research Project(Z171100001017096)

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Abstract:

Objective: To select the most effective method among different masking treatments, such as different thickness and transparence, tissue surface’s opaque coating, and opaque resin cement to restore discolored teeth esthetically by porcelain veneer. Methods: Four extracted intact maxillary central incisors were prepared for porcelain veneer restoration and each three heat pressed porcelain veneers from three thicknesses (0.8 mm, 1.0 mm, 1.2 mm) and two transparency(high transparence,HT and low transparence, LT))in Vita shade A2 were fabricated for each tooth, in total of 72 pieces. The surfaces of three prepared teeth were then painted to mimic situations of severe dental fluorosis, severe tetracycline teeth, and necrotic teeth. Each of the veneers was temporarily cemented to the corresponding tooth surface using try-in cements with three different colors (transparent, opaque, and yellow), then used the shade guide (3D master) and electronic colorimeter (easy shade) to record the shade of each porcelain veneer through hue, lightness, and chroma reading. After that, high-transparence porcelain veneers in thickness of 0.8 mm was fused with a layer of opaque porcelain in tissue surface, and were shade matched again after cementation. Statistic treatments were performed to analyze the difference in each masking method. Results: For each 0.2 mm increase in the veneer thickness of porcelain, the average lightness was reduced by 1 unit, while the chroma was not changed which was independent of the type of the resin cements. When the thickness of the porcelain veneer was decreased to 0.8 mm, the opacity effect was not remarkable even if a low-transparence porcelain veneer was used. Transparent and yellow resin cements had poor opaque performance, while opaque resin cement could reduce the lightness by 2 units and the chroma was also reduced. The opaque layer of the tissue surface could be applied uniformly, and the lightness and chroma could be reduced to Vita 2M1 to 2M1.5 levels regardless of the color of resin cements, which suggested a stable opacity effect for different discolored teeth in this study. Conclusion: For porcelain veneer restoration of discolored teeth, thickened veneers are the most effective means to display a natural transmittance and color. Tissue surface’s opacity coatings and opaque resin cements can also be used to reduce grayscale and increase lightness.

Key words: Discolored teeth, Opaque, Shade matching, Porcelain veneers

CLC Number: 

  • R783

Figure 1

Groups of masking treatments of laminate veneers LT, low transparence; HT, high transparence. "

Figure 2

Normal teeth and mimicked discolored teeth and their laminate veneers with three thicknesses and two transparencies A, normal teeth group; B, mimic discolored teeth based on the colors of natural die materials (Ivoclar Vivadent); C, discolored teeth and their laminate veneers; D, try-in paste with three colors. "

Figure 3

Shade matching A, shade matching with electronic colorimeter (easy shade); B, high-transparence porcelain veneers in thickness of 0.8 mm was painted with a layer of opaque porcelain in tissue surface; C and D, shade of laminate veneer with inner opaque layer was decreased from 5M3 to 3R1.5. "

Table 1

Shade matching of laminate veneers with different thickness and transparency"

Group Low transparence High transparence
0.8 mm 1.0 mm 1.2 mm 0.8 mm 1.0 mm 1.2 mm
Normal 2M2 2M2 2M2 2M2 2M2 2M2
Dental fluorosis 3M2 3M2 2R1.5 3L2.5 3M2 2M3
Necrotic teeth 4L1.5 3R1.5 2R1.5 3R1.5 3L1.5 2R2.5
Tetracycline teeth 3R1.5 2M1.5 2M2 3L1.5 3L1.5 3R1.5

Table 2

Shade matching of laminate veneers with different resin cements with/without inner opaque layer"

Group LT, 0.8 mm HT, 0.8 mm
Transparent Yellow Opaque Transparent Yellow Opaque
Normal WO 2M2 2M2 2M2 2M2 2M2 2M2
Dental fluorosis WO 3M2 3M2 3M1 3L2.5 3M2 3L1.5
W 2M1 2M1 2M1 2M1 2M1 2M1
Necrotic teeth WO 4L1.5 3R1.5 2R1.5 3R1.5 3L2.5 2R2.5
W 2M1 2M1 2M1 2L1.5 2M2 2M1
Tetracycline teeth WO 3R1.5 3R1.5 2M1 3L1.5 2R1.5 2M1
W 2R1.5 2R1.5 2L1.5 2L1.5 2M2 2M1

Table 3

Statistical results of different interventions between the tetracycline teeth group and the normal teeth group"

Shade/group Thickness Transparency Cements Opacity coating
0.8 mm 1.0 mm 1.2 mm High Low Transparent Yellow Opaque Yes No
Lightness P=0.012 P=0.630 P=0.001 P=0.001
Chroma P=0.132 P=0.067 P=0.022 P=0.001

Figure 4

Influence of thickness of porcelain veneer and light transmittance of porcelain materials on brightness and saturation of porcelain veneer LT, low transparence; HT, high transparence. "

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