Accuracy and resolution of conventional and additively manufactured silicone elastomers as applied in maxillofacial therapies.

STATEMENT OF PROBLEM: Silicone elastomers are becoming more readily available for additive manufacturing, which may be advantageous for fabricating maxillofacial prostheses. However, the properties of three-dimensionally (3D) printed silicone as compared with conventionally processed silicone have not been well studied. PURPOSE: The purpose of this in vitro study was to compare the dimensional accuracy and surface resolution of additively manufactured with conventional room-temperature vulcanized (RTV) silicones. MATERIAL AND METHODS: A custom aluminum mold was used to generate hand-spatulated specimens (A103 and VerSilTal-50F, n=20). A computer-aided design and computer-aided manufacturing workflow was used to generate additively manufactured specimens (Sil30 and TrueSil, n=20). Digital surface scans of each specimen were recorded; a scan of the mold served as the control. Surface dimensions were measured with a digital metrology software program, while digital overlays were made using a 3D processing software program. The surface resolution of the specimens was assessed by analyzing 4 topographical landmarks (flat surfaces, raised lines, domes, and scribed lines) with a visual qualitative grading scale. The data were analyzed with 1-way analysis of variance, followed by a Student-Newman-Keuls post hoc test (α=.05). RESULTS: The specimens demonstrated statistical differences in trueness and precision (P<.001). The TrueSil specimens showed the largest deviation in measurements of trueness and precision (up to -1.374%). The other specimens yielded percentage mean differences that were more consistently within the range of the American Dental Association International Organization for Standardization standard for elastomers. The manually fabricated specimens yielded more consistently ideal ratings for resolution than did the additively manufactured ones, with the Sil30 specimens receiving the most Charlie (not clinically acceptable) ratings. CONCLUSIONS: Numerical differences between each specimen and the control were considered negligible for maxillofacial applications. Notable discrepancies related to the quality of resolution, wherein the benchtop-manufactured specimens consistently generated better results compared with additively manufactured ones. Other factors, such as resiliency, odor, and cost, posed limitations in justifying the use of silicones in a direct-to-print workflow.

Mechanical properties of conventional versus microwave-polymerized denture base acrylic resins.

STATEMENT OF PROBLEM: New denture base acrylic resins have been introduced that are specifically formulated for microwave polymerization. Microwave polymerization is a time-efficient procedure, but few studies have evaluated how these new acrylic resin formulations compare with conventionally processed acrylic resins. PURPOSE: The purpose of this in vitro study was to compare the stiffness and strength of denture base acrylic resins formulated for microwave polymerization with conventionally processed acrylic resin. MATERIAL AND METHODS: Rectangular beams were fabricated from 2 microwave-polymerized denture base acrylic resins, microwave-specific resin (Nature-Cryl MC), resin with the option of microwave polymerization (Diamond D), and a conventionally processed resin as a control (Lucitone 199). Specimens (n=10) were stored in water for 1 week and subjected to a 3-point bend test to determine the flexural modulus (stiffness) and flexural strength before (initial properties) or after 120 000 load cycles. The load cycles, conducted between 5 and 25 N at 2 Hz, simulated 6 months of mastication. Data were analyzed by using 2-way ANOVA, followed by pairwise comparisons (α=.05). RESULTS: The initial flexural modulus (mean ±standard deviation) was conventionally processed resin, 2.65 ±0.33 GPa; microwave-specific resin, 3.01 ±0.20 GPa; and microwave-option resin, 2.63 ±0.04 GPa. After load cycling, the mean flexural modulus was conventionally processed resin, 2.34 ±0.32 GPa; microwave-specific resin, 2.69 ±0.20 GPa; and microwave-option resin, 1.96 ±0.11 GPa. The initial flexural strength was conventionally processed resin, 77.6 ±11.0 MPa; microwave-specific resin, 83.6 ±3.5 MPa; and microwave-option resin, 78.9 ±2.6 MPa. After load cycling, the mean flexural strength was conventionally processed resin, 68.7 ±9.0 MPa; microwave-specific resin, 73.3 ±3.3 MPa; and microwave-option resin, 65.5 ±3.5 MPa. Resin and loading state significantly affected the stiffness and strength (P<.01); the interaction resin×state was not significant (P≥.558). CONCLUSIONS: Microwave-polymerized denture base acrylic resins were comparable in stiffness and strength with conventionally processed acrylic resin. All acrylic resins decreased in stiffness and strength after load cycling. The microwave-specific resin was significantly stiffer and stronger than the other denture base acrylic resins, initially and after 120 000 load cycles.

Longevity of extrinsic stains on monolithic zirconia restorations: An in vitro study.

STATEMENT OF PROBLEM: Three-mol% yttria-stabilized tetragonal zirconia polycrystal (3Y-TZP) has been commonly used for fixed prosthodontic restorations. The opacity of 3Y-TZP may be masked with external staining, although the longevity of extrinsic stains applied to monolithic zirconia is unclear. PURPOSE: The purpose of this in vitro study was to analyze the color and surface roughness of extrinsically stained zirconia specimens after thermocycling and toothbrushing. MATERIAL AND METHODS: Monolithic Ø12.5×1.25-mm zirconia disks were milled from 3Y-TZP blocks, sintered according to manufacturer instructions, and then divided into 3 groups (C, J, and O; n=16) for application of stain and glaze. All specimens underwent 10 000 thermocycles in distilled water before being further divided into 2 dentifrice groups (n=8): normal grit, low relative dentin abrasivity (RDA) (Subgroup N) and abrasive grit, high RDA (Subgroup A). Specimens were brushed in a multistation brushing machine under 1.47 N of force using a 5:8 toothpaste and distilled water slurry for 10 000 cycles with a straight (American Dental Association Standard) toothbrush to simulate 1 year of toothbrushing. Color and surface roughness measurements were obtained at 3 time points: baseline, after thermocycling, and after brushing. A 2-way repeated measures ANOVA was used to independently assess changes in color and surface roughness with respect to thermocycling and brushing (α=.05). RESULTS: Group J displayed no significant change in color for either dentifrice system (P>.05). However, a significant change in surface roughness was observed for both dentifrice subgroups (P<.001). Group C specimens displayed significant changes in color (P<.001) and surface roughness (P<.001) for both dentifrice systems. Group O specimens displayed significant changes in color (P<.025) for both dentifrice systems and significant changes in surface roughness (P<.004) for subgroup A, but no significant changes for subgroup N (P=.075). CONCLUSIONS: Artificial aging of monolithic zirconia resulted in changes in color and surface roughness that did not surpass the thresholds for perceptibility and acceptability. This study failed to establish durability limits for extrinsic stains applied to 3Y-TZP.

Restoration of a Maxillary Anterior Defect With a Rotational Path Removable Partial Denture: Clinical Report of a Patient With Cleidocranial Dysplasia.

Cleidocranial dysplasia (CCD) is an uncommon genetic condition that affects teeth and bones, potentially leading to delayed ossification, dental abnormalities, and craniofacial changes, which can be treated through a combination of orthodontic and prosthodontic therapies. This case report describes the diagnostic evaluation, laboratory procedures, and prosthodontic treatment for a patient with CCD who had two missing maxillary anterior teeth. Following occlusal device therapy and the achievement of occlusal equilibration, restorative treatment was performed, consisting of a maxillary central incisor survey crown, rest seat preparations, and a lateral rotational path removable partial denture (RPD). The article highlights the value of this type of RPD as an alternative restoration for the replacement of missing anterior teeth.

MEPE Localization in the Craniofacial Complex and Function in Tooth Dentin Formation.

Matrix extracellular phosphoglycoprotein (MEPE) is an extracellular matrix protein found in dental and skeletal tissues. Although information regarding the role of MEPE in bone and disorders of phosphate metabolism is emerging, the role of MEPE in dental tissues remains unclear. We performed RNA in situ hybridization and immunohistochemistry analyses to delineate the expression pattern of MEPE during embryonic and postnatal development in craniofacial mineralizing tissues. Mepe RNA expression was seen within teeth from cap through root formation in association with odontoblasts and cellular cementoblasts. More intense expression was seen in the alveolar bone within the osteoblasts and osteocytes. MEPE immunohistochemistry showed biphasic dentin staining in incisors and more intense staining in alveolar bone matrix and in forming cartilage. Analysis of Mepe null mouse molars showed overall mineralized tooth volume and density of enamel and dentin comparable with that of wild-type samples. However, Mepe(-/-) molars exhibited increased thickness of predentin, dentin, and enamel over controls and decreased gene expression of Enam, Bsp, Dmp1, Dspp, and Opnby RT-PCR. In vitro Mepe overexpression in odontoblasts led to significant reductions in Dspp reporter activity. These data suggest MEPE may be instrumental in craniofacial and dental matrix maturation, potentially functioning in the maintenance of non-mineralized matrix.

Reduced Dentin Matrix Protein Expression in Camurati-Engelmann Disease Transgenic Mouse Model.

UNLABELLED: Overexpression of transforming growth factor-ß1 (TGF-ß1) has been shown to lead to mineralization defects in both the enamel and dentin layers of teeth. A TGFB1 point mutation (H222D), derived from published cases of Camurati-Engelmann disease (CED), has been shown to constitutively activate TGF-ß1, leading to excess bone matrix production. Although CED has been well documented in clinical case reports, there are no published studies on the effect of CED on the dentition. The objective of this study was to determine the dental manifestations of hyperactivated TGF-ß1 signaling using an established mouse model of CED-derived TGF-ß1 mutation. Murine dental tissues were studied via radiography, micro-CT, immunohistochemistry, and qRT-PCR. Results showed that initial decreased dental mineralized tissue density is resolved. Proliferation assays of incisor pulp and alveolar bone cell cultures revealed that cells from transgenic animals displayed a reduced rate of growth compared to alveolar bone cultures from wild-type mice. TGF-ß family gene expression analysis indicated significant fold changes in the expression of Alpl, Bmp2-5, Col-1, -2, -4, and -6, Fgf, Mmp, Runx2, Tgfb3, Tfgbr3, and Vdr genes. Assessment of SIBLINGs revealed downregulation of Ibsp, Dmp1, Dspp, Mepe, and Spp1, as well as reduced staining for BMP-2 and VDR in mesenchymal-derived pulp tissue in CED animals. Treatment of dental pulp cells with recombinant human TGF-ß1 resulted in increased SIBLING gene expression. CONCLUSIONS: Our results provide in vivo evidence suggesting that TFG-ß1 mediates expression of important dentin extracellular matrix components secreted by dental pulp, and when unbalanced, may contribute to abnormal dentin disorders.

U.S. dental students' attitudes toward research and science: impact of research experience.

This study aimed to provide a first nationwide assessment of dental students' attitudes toward the importance of research and its integration into the dental curriculum. For this purpose, the American Association for Dental Research National Student Research Group developed an online survey that was distributed to 89 percent of U.S. dental students in May 2012. The survey consisted of twenty-one Likert-type items divided into three groups: importance of research in dentistry, barriers to research involvement, and exposure to research in the dental curriculum. There were 733 responses (3.9 percent response rate), including students in all stages of education representing fifty-eight out of sixty-one dental schools. Age and race/ethnic distributions corresponded with U.S. dental school enrollees. Results showed that 63 percent of respondents had conducted research before matriculation, and of the 34 percent that participated in research during dental school, only 27 percent were newcomers. Respondents strongly agreed that scientific research enabled their progress in dentistry. Inadequate time in the curriculum was an obstacle they perceived to research involvement during dental school. Respondents agreed that dental curricula emphasize evidence-based practices but may be inadequately teaching biostatistics and research methodologies. Students with research experience tended to have stronger positive opinions about the importance of research in dental education. Efforts to foster research in schools have been well received by students, but several issues remain for enriching dental education through greater involvement of students in research.