Your search keyword '"Yuchun Sun"' showing total 200 results

1. A tantalum-containing zirconium-based metallic glass with superior endosseous implant relevant properties

Author

Yunshu Wu, Feifei Wang, Yao Huang, Fu Zheng, Yuhao Zeng, Zhen Lu, Songlin Wang, Baoan Sun, and Yuchun Sun

Subjects

Tantalum, Zirconium-based metallic glass, Surface chemistry, Atomic structure, Endosseous implant, Materials of engineering and construction. Mechanics of materials, TA401-492, Biology (General), QH301-705.5

Abstract

Zirconium-based metallic glasses (Zr-MGs) are demonstrated to exhibit high mechanical strength, low elastic modulus and excellent biocompatibility, making them promising materials for endosseous implants. Meanwhile, tantalum (Ta) is also well known for its ideal corrosion resistance and biological effects. However, the metal has an elastic modulus as high as 186 GPa which is not comparable to the natural bone (10–30 GPa), and it also has a relative high cost. Here, to fully exploit the advantages of Ta as endosseous implants, a small amount of Ta (as low as 3 at. %) was successfully added into a Zr-MG to generate an advanced functional endosseous implant, Zr58Cu25Al14Ta3 MG, with superior comprehensive properties. Upon carefully dissecting the atomic structure and surface chemistry, the results show that amorphization of Ta enables the uniform distribution in material surface, leading to a significantly improved chemical stability and extensive material-cell contact regulation. Systematical analyses on the immunological, angiogenesis and osteogenesis capability of the material are carried out utilizing the next-generation sequencing, revealing that Zr58Cu25Al14Ta3 MG can regulate angiogenesis through VEGF signaling pathway and osteogenesis via BMP signaling pathway. Animal experiment further confirms a sound osseointegration of Zr58Cu25Al14Ta3 MG in achieving better bone-implant-contact and inducing faster peri-implant bone formation.

Published

2024

2. Digital measurement method for comparing the absolute marginal discrepancy of three-unit ceramic fixed dental prostheses fabricated using conventional and digital technologies

Author

Shanshan Liang, Fusong Yuan, Deli Li, Lu Jia, and Yuchun Sun

Subjects

Marginal fit, Absolute marginal discrepancy, Digital evaluation, Fixed dental prostheses, Dentistry, RK1-715

Abstract

Abstract Background In clinical practice, control of the marginal fit of fixed dental prostheses is hindered by evaluation method, which needs to be further improved to increase its clinical applicability. This study aimed to quantitatively analyze the absolute marginal discrepancy of three-unit ceramic fixed dental prostheses fabricated by conventional and digital technologies using a digital measurement method based on the digital impression technology and open source software. Methods A digital workflow and the conventional impression combined with the lost-wax heat-pressed technique were adopted to separately fabricate 10 glass ceramic fixed dental prostheses. Three-dimensional data for the abutments, fixed dental prostheses, and fixed dental prostheses seated on the abutments, were obtained using a dental scanner. The two datasets were aligned using registration technology, specifically “multi-points registration” and “best fit alignment,” by reverse engineering software. Subsequently, the three-dimensional seated fit between the fixed dental prostheses and abutments were reconstructed. The margin of the abutment and crown was extracted using edge-sharpening and other functional modules, and the absolute marginal discrepancy was measured by the distance between the margin of the abutment and crown. One-way analysis of variance was used to statistically analyze the measurement results. Results Using the digital measurement method, the mean value of absolute marginal discrepancy for fixed dental prostheses fabricated by the conventional method was 106.69 ± 6.46 μm, and that fabricated by the digital workflow was 102.55 ± 6.96 μm. The difference in the absolute marginal discrepancy of three-unit all-ceramic fixed dental prostheses fabricated using the two methods was not statistically significant (p > 0.05). Conclusions The digital measurement method for absolute marginal discrepancy was preliminarily established based on open source software and applied in three-unit ceramic fixed dental prostheses. The absolute marginal discrepancy of three-unit ceramic fixed dental prostheses fabricated using digital technology was comparable to that of conventional technique.

Published

2023

3. Role of dendritic cells in MYD88-mediated immune recognition and osteoinduction initiated by the implantation of biomaterials

Author

Zifan Zhao, Qin Zhao, Hu Chen, Fanfan Chen, Feifei Wang, Hua Tang, Haibin Xia, Yongsheng Zhou, and Yuchun Sun

Subjects

Dentistry, RK1-715

Abstract

Abstract Bone substitute material implantation has become an important treatment strategy for the repair of oral and maxillofacial bone defects. Recent studies have shown that appropriate inflammatory and immune cells are essential factors in the process of osteoinduction of bone substitute materials. Previous studies have mainly focused on innate immune cells such as macrophages. In our previous work, we found that T lymphocytes, as adaptive immune cells, are also essential in the osteoinduction procedure. As the most important antigen-presenting cell, whether dendritic cells (DCs) can recognize non-antigen biomaterials and participate in osteoinduction was still unclear. In this study, we found that surgical trauma associated with materials implantation induces necrocytosis, and this causes the release of high mobility group protein-1 (HMGB1), which is adsorbed on the surface of bone substitute materials. Subsequently, HMGB1-adsorbed materials were recognized by the TLR4-MYD88-NFκB signal axis of dendritic cells, and the inflammatory response was activated. Finally, activated DCs release regeneration-related chemokines, recruit mesenchymal stem cells, and initiate the osteoinduction process. This study sheds light on the immune-regeneration process after bone substitute materials implantation, points out a potential direction for the development of bone substitute materials, and provides guidance for the development of clinical surgical methods.

Published

2023

4. Investigation of the ageing conditions of PEEK powder for the selective laser sintering process

Author

Yuqing Guo, Hu Chen, Sukun Tian, Yongxiang Xu, Kenan Ma, Shuai Ma, Xiang Wang, Yicha Zhang, and Yuchun Sun

Subjects

Polyetheretherketone (PEEK), powder ageing, reusability, selective laser sintering, mechanical property, Science, Manufactures, TS1-2301

Abstract

ABSTRACTAgeing mechanism of PEEK powders at optimal powder bed temperature (Tb) and factors affecting their reusability remain unclear. This study investigated effects of gas type (air, nitrogen, and argon) and holding time (0–8 h) on physico-chemical properties of PEEK powders at optimal Tb. The hardness of sintered single-layers was measured to evaluate the quality of the parts. Results revealed that the flowability, morphology, and crystallinity of PEEK powders changed with holding time in different gases. Further, the ageing mechanism involved chain crosslinking within molecular chains in all gases but chain breakage in air. Further, laser power required for SLS decreased with the increase in holding time. However, the hardness of single-layers was stable for powders aged in argon for up to 8 h, but decreased by 7% for powders aged in nitrogen for 4 h. Severe degradation and blackening were observed for single-layers sintered in air using both virgin and aged powders.

Published

2023

5. Occlusal contact and clearance of posterior implant-supported single crowns designed by two different methods: a self-controlled study

Author

Mingzhu He, Tingting Pu, Qian Ding, Yao Sun, Pengfei Wang, Yuchun Sun, and Lei Zhang

Subjects

Occlusal clearance, Implant-supported single crown, CAD/CAM, Accuracy, Dentistry, RK1-715

Abstract

Abstract Background Precise occlusal design of implant-supported fixed prostheses is difficult to achieve by the conventional wax-up method, often requiring chairside adjustments. The computer-aided design (CAD) method is promising. This study aims to compare the occlusal contacts and clearance of posterior implant-supported single crowns designed by the CAD and conventional methods. Methods Sample size calculation indicated fourteen samples per group. Two sets of type-IV plaster casts with a single implant analog inserted in the posterior teeth region were mounted as master casts in a mechanical articulator in maximal intercuspal position (MIP). Seven working cast sets were obtained from each master cast by a closed tray technique, and mounted in MIP. Two implant-supported single crowns were designed with an occlusal clearance to achieve light occlusal contact in each working cast set by CAD and conventional method, separately. For the CAD group, the crown was designed in digital models obtained by scanning the working casts. For the conventional group, wax-up of the crown was prepared on the working casts and scanned to generate a STL file. In the working and master casts, mean and minimum occlusal clearances in the designed occlusal contact area of the both finished prostheses were calculated using the occlusal clearance (OC) and occlusal record (OR) method. The prostheses’ occlusion was evaluated in master casts. Results For the evaluation in the working casts, both design methods had similar mean occlusal clearances by the OC method (195.4 ± 43.8 vs. 179.8 ± 41.8 μm; P = 0.300), while CAD group resulted in a significantly larger minimum occlusal clearance in the designed occlusal contact area (139.5 ± 52.3 vs. 99.8 ± 43.8 μm; P = 0.043). Both design methods had similar mean and minimum occlusal clearances by the OR method (P > 0.05). For the evaluation in the master casts, both design techniques had similar mean and minimum occlusal clearances, number and distribution of occlusal contacts, and lateral interference ratios (P > 0.05). Conclusion Occlusal contact and clearance of posterior implant-supported single crowns designed by the CAD method can be at least as good as those designed by the conventional wax-up method.

Published

2023

6. Spatial Trueness Evaluation of 3D-Printed Dental Model Made of Photopolymer Resin: Use of Special Structurized Dental Model

Author

Aonan Wen, Ning Xiao, Yujia Zhu, Zixiang Gao, Qingzhao Qin, Shenyao Shan, Wenbo Li, Yuchun Sun, Yong Wang, and Yijiao Zhao

Subjects

dentistry, dental model, stereolithography, photo-curing, rapid prototyping, linear measurement, Organic chemistry, QD241-441

Abstract

(1) Background: Various 3D printers are available for dental practice; however, a comprehensive accuracy evaluation method to effectively guide practitioners is lacking. This in vitro study aimed to propose an optimized method to evaluate the spatial trueness of a 3D-printed dental model made of photopolymer resin based on a special structurized dental model, and provide the preliminary evaluation results of six 3D printers. (2) Methods: A structurized dental model comprising several geometrical configurations was designed based on dental crown and arch measurement data reported in previous studies. Ninety-six feature sizes can be directly measured on this original model with minimized manual measurement errors. Six types of photo-curing 3D printers, including Objet30 Pro using the Polyjet technique, Projet 3510 HD Plus using the Multijet technique, Perfactory DDP and DLP 800d using the DLP technique, Form2 and Form3 using the SLA technique, and each printer’s respective 3D-printable dental model materials, were used to fabricate one set of physical models each. Regarding the feature sizes of the simulated dental crowns and dental arches, linear measurements were recorded. The scanned digital models were compared with the design data, and 3D form errors (including overall 3D deviation; flatness, parallelism, and perpendicularity errors) were measured. (3) Results: The lowest overall 3D deviation, flatness, parallelism, and perpendicularity errors were noted for the models printed using the Objet30 Pro (overall value: 45 μm), Form3 (0.061 ± 0.019 mm), Objet30 Pro (0.138 ± 0.068°), and Projet 3510 HD Plus (0.095 ± 0.070°), respectively. In color difference maps, different deformation patterns were observed in the printed models. The feature size proved most accurate for the Objet30 Pro fabricated models (occlusal plane error: 0.02 ± 0.36%, occlusogingival direction error: −0.06 ± 0.09%). (4) Conclusions: The authors investigated a novel evaluation approach for the spatial trueness of a 3D-printed dental model made of photopolymer resin based on a structurized dental model. This method can objectively and comprehensively evaluate the spatial trueness of 3D-printed dental models and has a good repeatability and generalizability.

Published

2024

7. Development of a manufacturability predictor for periodic cellular structures in a selective laser melting process via experiment and ANN modelling

Author

Liping Ding, Shujie Tan, Wenliang Chen, Yaming Jin, Yuchun Sun, and Yicha Zhang

Subjects

selective laser melting, artificial neural network, periodic cellular structure, manufacturability analysis, machine learning, Science, Manufactures, TS1-2301

Abstract

Manufacturability analysis is a critical step before manufacturing to reduce costs and risks. It is used widely in conventional manufacturing (CM) processes. However, to the best of our knowledge, there is no natural method to evaluate the manufacturability of additive manufacturing (AM) processes that have more uncertainty-derived risks and costs than CM processes. A clear definition of the manufacturability of AM processes has not been established, and there is no standard to check whether a component is manufactured successfully by an AM process, particularly for porous complex components. This study introduces the development of a new machine learning-based method to solve the problem mentioned above. It is based on the statistical measurement of experimental samples. The proposed method can be used to perform the manufacturability analysis for periodic cellular structures printed by a selective laser melting (SLM) process. A novel definition of the manufacturability of the SLM-ed periodic cellular structure was proposed. Experimental results indicate that the developed learning model (ANN model) can achieve up to 94% classification accuracy and 96% prediction accuracy, which satisfies the application requirements of the AM industry. Moreover, the developed model can be adapted for the manufacturability analysis of different AM processes.

Published

2022

8. Prediction of condylar movement envelope surface based on facial morphology

Author

Kenan Chen, Zhehao Zhang, Junqi Jiang, Junlin Wang, Jing Wang, Yuchun Sun, Xiangliang Xu, and Chuanbin Guo

Subjects

Envelope surface, Condylar process movement, Facial morphology, Artificial fossa component, Curve fitting, Matrix, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

The present study aimed to predict the envelope surfaces from facial morphology. Condylar envelope surfaces for 34 healthy adults were formed and simplified as sagittal section curves. Cephalometric and maximum mandibular moving distances measurement were performed on the participants. There was no statistically significant difference (p = 0.763) between the left and right maximum lateral movements. There was a statistically significant difference in the mandibular body length between the sexes. The envelope surfaces were divided into type 1 with Hp2 ≥ 1/3 Hp1 and type 2 with Hp2 < 1/3 × Hp1. SNA and SNB for type 2 were significantly greater than those for type 1 (p

Published

2023

9. Causes of Summer Ozone Pollution Events in Jinan, East China: Local Photochemical Formation or Regional Transport?

Author

Baolin Wang, Yuchun Sun, Lei Sun, Zhenguo Liu, Chen Wang, Rui Zhang, Chuanyong Zhu, Na Yang, Guolan Fan, Xiaoyan Sun, Zhiyong Xia, Hongyu Xu, Guang Pan, Zhanchao Zhang, Guihuan Yan, and Chongqing Xu

Subjects

volatile organic compounds, source apportionment, OH exposure, regional transport, Meteorology. Climatology, QC851-999

Abstract

Simultaneous measurements of atmospheric volatile organic compounds (VOCs), conventional gases and meteorological parameters were performed at an urban site in Jinan, East China, in June 2021 to explore the formation and evolution mechanisms of summertime ozone (O3) pollution events. O3 Episode Ⅰ, O3 Episode II, and non-O3 episodes were identified based on the China Ambient Air Quality Standards and the differences in precursor concentrations. The O3 concentrations in Episode I and Episode II were 145.4 μg/m3 and 166.4 μg/m3, respectively, which were significantly higher than that in non-O3 episode (90 μg/m3). For O3 precursors, VOCs and NOx concentrations increased by 48% and 34% in Episode I, and decreased by 21% and 27% in Episode II compared to non-O3 episode days. The analysis of the m,p-xylene to ethylbenzene ratio (X/E) and OH exposure demonstrated that the aging of the air masses in Episode II was significantly higher than the other two episodes, and the differences could not be explained by localized photochemical consumption. Therefore, we speculate that the high O3 concentrations in Episode II were driven by the regional transport of O3 and its precursors. Backward trajectory simulations indicated that the air masses during Episode II were concentrated from the south. In contrast, the combination of high precursor concentrations and favorable meteorological conditions (high temperatures and low humidity) led to an excess of O3 in Episode I. Positive matrix factorization (PMF) model results indicated that increased emissions from combustion and gasoline vehicle exhausts contributed to the elevated concentrations of VOCs in Episode I, and solvent usage may be an important contributor to O3 formation. The results of this study emphasize the importance of strengthening regional joint control of O3 and its precursors with neighboring cities, especially in the south, which is crucial for Jinan to mitigate O3 pollution.

Published

2024

10. Analysis of Crack Propagation Behaviors in RPV Dissimilar Metal Welded Joints Affected by Residual Stress

Author

Lingyan Zhao, Yuchun Sun, Zheren Shi, and Bin Yang

Subjects

residual stress, dissimilar metal welded joints, crack propagation, XFEM, yield strength, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

In severe service environments, the presence of high local residual stress, significant organizational gradient, and nonlinear changes in material properties often leads to stress corrosion cracking (SCC) in dissimilar metal welded (DMW) joints. To accurately predict the crack growth rate, researching the initiation and propagation behavior of SCC cracks in DMW joints under residual stress (RS) is one of the most important methods to ensure the safe operation of nuclear power plants. Using the extended finite element method (XFEM), the crack propagation behaviors in DMW joints under different RS states are predicted and compared. The effects of RS, crack location, and initial crack length on crack propagation behavior are investigated. The crack in a DMW joint without RS deflects to the material of low yield strength. High residual stress urges the crack growing direction to deflect toward the material of high yield strength. Young’s modulus has little impact on the crack deflection paths. The distance between the specimen symmetric line and the boundary line has little effect on the crack initiation and propagation within the RS field. A long initial crack is more likely to initiate and propagate than a short crack. To a long crack and the crack that is far from the interface of two materials, the impact of residual stress on the crack propagation path is significant when it is located in a material with high yield strength, while when the initial crack is located in the material with low yield strength, RS has a great influence on the deflection of a short crack growth direction on the condition that the crack is adjacent to the interface.

Published

2023

11. Evaluation of a dynamic navigation system for endodontic microsurgery: study protocol for a randomised controlled trial

Author

Bing Han, Xiaoyan Wang, Li Peng, Yuhan Wang, Chunyan Zheng, Zuhua Wang, and Yuchun Sun

Subjects

Medicine

Abstract

Introduction Endodontic microsurgery is a very important technique for preserving the natural teeth. The outcomes of endodontic microsurgery largely depend on the skill and experience of the operators, especially for cases in which the apices are located far away from the labial/buccal cortical bone. A dynamic navigation system (DNS) could provide a more accurate and efficient way to carry out endodontic microsurgery. This study is devoted to comparing the clinical outcomes of the DNS technique with those of the freehand technique.Methods and analysis Sixteen patients will be randomly assigned to one of two groups. For the experimental group, the osteotomy and root-end resection will be performed under the guidance of dynamic navigation. For the control group, these procedures will be performed freehand by an endodontist. The required time to perform these procedures will be used to evaluate the efficiency of the DNS technique. A Visual Analogue Scale will be used to evaluate pain at 1, 3 and 7 days after endodontic microsurgery. Preoperative and postoperative cone beam CT scans will be obtained to evaluate the accuracy of the DNS technique. The global coronal deviations, the apical deviations and the angular deflection will be measured. The root-end resection length deviation, the root-end resection angle deviations, the extent of the osteotomy and the volume change of the buccal cortical bone will also be measured. Periapical radiographs will be obtained to evaluate the outcome at 1 year after microsurgery. The time to execute the study, including follow-ups, will last from 1 June 2022 to 31 December 2025.Ethics and dissemination The present study has received approval from the Ethics Committee of Peking University School and Hospital of Stomatology. The results will be disseminated through scientific journals.Trial registration number ChiCTR2200059389.

Published

2022

12. Optimum design of reference points distribution in three-dimensional reconstruction of dental model in intercuspal position

Author

Yujia Wu, Zhewen Hu, Xinyue Zhang, Hefei Bai, Yuchun Sun, and Baolin Fan

Subjects

3D scanning, Dental models, Digital technology, Imaging, Three-dimensional, Intercuspal relation, Dentistry, RK1-715

Abstract

Abstract Purpose The scanning of plaster models for three-dimensional (3D) construction requires their rigid fixation in the intercuspal position. Factors such as installation, motion, and scanning procedures influenced the accuracy of this method, which ultimately influence the results. Therefore, the present study attempted to provide an optimal and accurate method with less complex procedures and a more accessible equipment for determining the intercuspal relation in the 3D occlusal construction of dental models. Methods A pair of plastic mounting plates that could be directly attached to a mechanical articulator was designed and 3D printed. Nine axial hemispherical concaves were introduced on the axial surface of each plate. The rigidly fixed maxillary and mandibular dental models were scanned directly. The distances D R between nine pairs of concaves on both mounting plates adhered to the maxillary and mandibular sections of the articulator were measured using the three-coordinate measuring machine Faro Edge as the reference. The present study comprised seven test groups varying in number and location. Assessing the reference points from each of the seven groups performed the 3D construction. The Geomagic Studio software was used to construct the concaves of digital casts, and the distances D M between the pairs of concaves were measured as test values. Variable differences between D R and D M were analyzed. Results An optimum distribution scheme was obtained for reference point registration by quantitatively evaluating accuracy levels of the 3D constructions of different reference point distribution patterns. This scheme can serve as a reference for related studies and dental clinic operations. Conclusions Three-dimensional construction of the intercuspal relation during scanning of the maxillary and mandibular models with an accuracy of 0.046 mm ± 0.009 mm can be achieved using the improved design of mounting plates.

Published

2021

13. Three-dimensional mandibular motion trajectory-tracking system based on BP neural network

Author

Sukun Tian, Ning Dai, Linlin Li, Weiwei Li, Yuchun Sun, and Xiaosheng Cheng

Subjects

mandible movement, 3d compensation method, bp neural network, motion capture system, binocular stereo vision, Biotechnology, TP248.13-248.65, Mathematics, QA1-939

Abstract

The aim of this study was to develop a prototype three-dimensional optical motion capture system based on binocular stereo vision, Back-propagation (BP) Neural Network and 3D compen-sation method for accurate and real-time recording of mandibular movement. A specialized 3D method of compensation to eliminate the involuntary vibration motions by human heart beating and respiration. A kind of binocular visual 3D measurement method based on projection line and a calibration method based on BP neural network is proposed to solve the problem of the high complexity of camera calibration process and the low accuracy of 3D measurement. The accuracy of the proposed system is systematically evaluated by means of electric platform and clinical trials, and the root-mean-square is 0.0773 mm. Finally, comparisons with state-of-the-art methods demonstrate that our system has higher reliability and accuracy. Meanwhile, the motion trajectory-tracking system is expected to be used in the diagnosis of clinical oral diseases and digital design of restoration.

Published

2020

14. Characteristics, Secondary Transformation Potential and Health Risks of Atmospheric Volatile Organic Compounds in an Industrial Area in Zibo, East China

Author

Baolin Wang, Ziang Li, Zhenguo Liu, Yuchun Sun, Chen Wang, Yang Xiao, Xiaochen Lu, Guihuan Yan, and Chongqing Xu

Subjects

industrial park, volatile organic compounds, ozone formation potential, secondary organic aerosol formation potential, health risk assessment, Meteorology. Climatology, QC851-999

Abstract

As an important anthropogenic source of volatile organic compounds (VOCs), industrial emissions have a significant impact on air quality and human health. In this study, the characteristics, chemical reactivities, and health risks of VOCs around an industrial park in Zibo were analyzed at two sampling sites. The results showed that the concentrations of total VOCs at Dongzhang Community (DZ) and Special School (SS) sites were 113.12 ppb and 139.40 ppb, respectively, with oxygenated VOCs (OVOCs) as the most abundant species, accounting for 42–45%, followed by alkanes (19.3–19.6%). Diurnal variation of OVOCs exhibited noticeable peaks at 3:00, which may be related to the nighttime sneaky emissions of some enterprises. OVOCs were the species with the highest photochemical activity, with an average contribution of 56.5% to OH radical loss rate and 57% to ozone generation. In addition, OVOCs contributed 40% to secondary organic aerosol formation potential at both sites, second only to aromatics (55%). Acrolein and 1,2-dichloropropane presented the highest non-cancer and cancer risks to human health. The results highlight the importance of OVOCs in some industrial areas.

Published

2023

15. Debt financing and technological innovation: evidence from China

Author

Kuang Xin, Yuchun Sun, Ran Zhang, and Xiao Liu

Subjects

debt financing, radical innovation, incremental innovation, R&D, negative binomial regression, China, Business, HF5001-6182

Abstract

The availabilities of debt for Chinese firms have been increased since 2008 due to the expansionary monetary policies. These policies triggered concerns over the impact of debt financing on firms’ technological innovation activities. Based on a sample of 225 listed computer and telecommunications equipment firms in China within 2008-2015, this study explored the effect of debt financing on two types of technological innovation, namely radical and incremental innovation. Specifically, both the direct effect of debt financing on technological innovation and its moderating effect on the relationship between R&D intensity and technological innovation were investigated. Results of this study reveal that radical innovation decreases with debt financing at decreasing rates, while incremental innovation is not affected by debt financing itself. In addition, debt financing interacted with R&D intensity exerts positive effect on both radical and incremental innovation. This study adds meaningful insights to the literature on financing technological innovation and builds a bridge connecting macroeconomic policies to firm activities.

Published

2019

16. Complete denture tooth arrangement technology driven by a reconfigurable rule.

Author

Ning Dai, Xiaoling Yu, Qilei Fan, Fulai Yuan, Lele Liu, and Yuchun Sun

Subjects

Medicine, Science

Abstract

The conventional technique for the fabrication of complete dentures is complex, with a long fabrication process and difficult-to-control restoration quality. In recent years, digital complete denture design has become a research focus. Digital complete denture tooth arrangement is a challenging issue that is difficult to efficiently implement under the constraints of complex tooth arrangement rules and the patient's individualized functional aesthetics. The present study proposes a complete denture automatic tooth arrangement method driven by a reconfigurable rule; it uses four typical operators, including a position operator, a scaling operator, a posture operator, and a contact operator, to establish the constraint mapping association between the teeth and the constraint set of the individual patient. By using the process reorganization of different constraint operators, this method can flexibly implement different clinical tooth arrangement rules. When combined with a virtual occlusion algorithm based on progressive iterative Laplacian deformation, the proposed method can achieve automatic and individual tooth arrangement. Finally, the experimental results verify that the proposed method is flexible and efficient.

Published

2018

17. Evaluation of adaptation of the polylactic acid pattern of maxillary complete dentures fabricated by fused deposition modelling technology: A pilot study.

Author

Kehui Deng, Hu Chen, Yijiao Zhao, Yongsheng Zhou, Yong Wang, and Yuchun Sun

Subjects

Medicine, Science

Abstract

OBJECTIVE:To quantitatively evaluate maxillary complete dentures fabricated from polylactic acid (PLA) using fused deposition modelling (FDM) technology. METHODS:A digital maxillary complete denture was prepared based on a standard maxillary edentulous plaster model. The PLA pattern was printed by a FDM machine, with 5 repetitions, while another 5 wax patterns were printed as control group, using a high accuracy three-dimensional (3D) wax printer. The patterns were scanned with a 3D scanner. A light-body silicone film was made after each denture pattern had been totally seated on the plaster model, and was scanned to determine its thickness, which reflected the 3D space between the plaster model and the tissue surface of the denture pattern. The overall area was separated into four parts: primary stress-bearing area, secondary stress-bearing area, border seal area and relief area, and the average deviation of these four parts were measured. The values were analyzed by independent t-test. RESULTS:The overall mean value and standard deviation of space between PLA denture patterns and plaster model was 0.277 ± 0.021 mm, while that of the wax denture patterns was 0.279 ± 0.045 mm, which showed a good fit overall. No statistically significant (𝑃 > 0.05) difference was observed between the PLA patterns and wax patterns. CONCLUSIONS:The adaptation of the PLA pattern of maxillary complete denture printed by FDM technology is comparable to that prepared by wax printer, and can satisfy the accuracy requirements.

Published

2018

18. Accuracy of a Real-Time, Computerized, Binocular, Three-Dimensional Trajectory-Tracking Device for Recording Functional Mandibular Movements.

Author

Tian Zhao, Huifang Yang, Huaxin Sui, Satyajeet Sudhir Salvi, Yong Wang, and Yuchun Sun

Subjects

Medicine, Science

Abstract

Developments in digital technology have permitted researchers to study mandibular movements. Here, the accuracy of a real-time, computerized, binocular, three-dimensional (3D) trajectory-tracking device for recording functional mandibular movements was evaluated.An occlusal splint without the occlusal region was created based on a plaster cast of the lower dentition. The splint was rigidly connected with a target on its labial side and seated on the cast. The cast was then rigidly attached to the stage of a high-precision triaxial electronic translator, which was used to move the target-cast-stage complex. Half-circular movements (5.00-mm radius) in three planes (XOY, XOZ, YOZ) and linear movements along the x-axis were performed at 5.00 mm/s. All trajectory points were recorded with the binocular 3D trajectory-tracking device and fitted to arcs or lines, respectively, with the Imageware software. To analyze the accuracy of the trajectory-tracking device, the mean distances between the trajectory points and the fitted arcs or lines were measured, and the mean differences between the lengths of the fitted arcs' radii and a set value (5.00 mm) were then calculated. A one-way analysis of variance was used to evaluate the spatial consistency of the recording accuracy in three different planes.The mean distances between the trajectory points and fitted arcs or lines were 0.076 ± 0.033 mm or 0.089 ± 0.014 mm. The mean difference between the lengths of the fitted arcs' radii and the set value (5.00 mm) was 0.025 ± 0.071 mm. A one-way ANOVA showed that the recording errors in three different planes were not statistically significant.These results suggest that the device can record certain movements at 5.00 mm/s, which is similar to the speed of functional mandibular movements. In addition, the recordings had an error of

Published

2016

19. A Method of Three-Dimensional Recording of Mandibular Movement Based on Two-Dimensional Image Feature Extraction.

Author

Fusong Yuan, Huaxin Sui, Zhongke Li, Huifang Yang, Peijun Lü, Yong Wang, and Yuchun Sun

Subjects

Medicine, Science

Abstract

To develop a real-time recording system based on computer binocular vision and two-dimensional image feature extraction to accurately record mandibular movement in three dimensions.A computer-based binocular vision device with two digital cameras was used in conjunction with a fixed head retention bracket to track occlusal movement. Software was developed for extracting target spatial coordinates in real time based on two-dimensional image feature recognition. A plaster model of a subject's upper and lower dentition were made using conventional methods. A mandibular occlusal splint was made on the plaster model, and then the occlusal surface was removed. Temporal denture base resin was used to make a 3-cm handle extending outside the mouth connecting the anterior labial surface of the occlusal splint with a detection target with intersecting lines designed for spatial coordinate extraction. The subject's head was firmly fixed in place, and the occlusal splint was fully seated on the mandibular dentition. The subject was then asked to make various mouth movements while the mandibular movement target locus point set was recorded. Comparisons between the coordinate values and the actual values of the 30 intersections on the detection target were then analyzed using paired t-tests.The three-dimensional trajectory curve shapes of the mandibular movements were consistent with the respective subject movements. Mean XYZ coordinate values and paired t-test results were as follows: X axis: -0.0037 ± 0.02953, P = 0.502; Y axis: 0.0037 ± 0.05242, P = 0.704; and Z axis: 0.0007 ± 0.06040, P = 0.952. The t-test result showed that the coordinate values of the 30 cross points were considered statistically no significant. (P

Published

2015

20. Evaluation of the quantitative accuracy of 3D reconstruction of edentulous jaw models with jaw relation based on reference point system alignment.

Author

Weiwei Li, Fusong Yuan, Peijun Lv, Yong Wang, and Yuchun Sun

Subjects

Medicine, Science

Abstract

OBJECTIVES:To apply contact measurement and reference point system (RPS) alignment techniques to establish a method for 3D reconstruction of the edentulous jaw models with centric relation and to quantitatively evaluate its accuracy. METHODS:Upper and lower edentulous jaw models were clinically prepared, 10 pairs of resin cylinders with same size were adhered to axial surfaces of upper and lower models. The occlusal bases and the upper and lower jaw models were installed in the centric relation position. Faro Edge 1.8m was used to directly obtain center points of the base surface of the cylinders (contact method). Activity 880 dental scanner was used to obtain 3D data of the cylinders and the center points were fitted (fitting method). 3 pairs of center points were used to align the virtual model to centric relation. An observation coordinate system was interactively established. The straight-line distances in the X (horizontal left/right), Y (horizontal anterior/posterior), and Z (vertical) between the remaining 7 pairs of center points derived from contact method and fitting method were measured respectively and analyzed using a paired t-test. RESULTS:The differences of the straight-line distances of the remaining 7 pairs of center points between the two methods were X: 0.074 ± 0.107 mm, Y: 0.168 ± 0.176 mm, and Z: -0.003± 0.155 mm. The results of paired t-test were X and Z: p >0.05, Y: p

Published

2015

21. Establishment and evaluation of a 3D quantitative analysis method for dental plaque based on an intraoral scanner technique.

Author

Suli Guo, Hu Chen, Yaopeng Zhang, Li Gao, Feng Wu, and Yuchun Sun

Subjects

DENTAL plaque, THREE-dimensional imaging, SCANNING systems, INTRACLASS correlation, QUANTITATIVE research

Abstract

Copyright of International Journal of Computerized Dentistry is the property of Quintessence Publishing Company Inc. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

22. Design of wear facets of mandibular first molar crowns by using patient-specific motion with an intraoral scanner: A clinical study

Author

Yuchun Sun, Weiwei Li, Hu Chen, Linlin Li, and Yong Wang

Subjects

Orthodontics, Molar, Coping (architecture), Articulator, medicine.medical_treatment, Mandibular first molar, Crown (dentistry), Root mean square, stomatognathic diseases, stomatognathic system, Occlusion, medicine, Oral Surgery, Occlusal Adjustment, Mathematics

Abstract

Although computer-aided design has become popular, restorations are typically designed from static occlusion and dynamically by using an average-value virtual articulator. Patient-specific motion recorded by using an intraoral scanner has rarely been used to design restorations, and its design ability has not been analyzed.The purpose of this clinical study was to record patient-specific motion by using an intraoral scanner and to analyze its ability to design the morphology of the wear facets on mandibular first molar crowns.An intraoral scanner was used to scan complete arch digital casts and to record patient-specific motion of 11 participants. Right and left mandibular first molars were selected as the target teeth. The complete crown preparations of the target teeth were virtually prepared on the digital mandibular casts by using the Geomagic Studio 2013 software program. High points were created by elevating the wear facets of the target teeth by 0.3 mm in the occlusal direction to generate digital wax patterns. The Dental System software program was used to design crowns with the anatomic coping design method. Occlusal adjustment with static occlusion (STA crown), with the average-value virtual articulator (DYN crown), and with patient-specific motion (FUN crown) was carried out. The crowns adjusted with these 3 methods were compared with the original wear facets. The mean value and root mean square (RMS) of 3D deviation were measured. One-way ANOVA was used to analyze the influence of the occlusal surface design methods on the morphology of the wear facets (α=.05).The STA crowns had the poorest results with the mean ±standard deviation 3D deviation value of 0.15 ±0.05 mm and RMS value of 0.19 ±0.04 mm. The best results occurred in the FUN group, with the mean ±standard deviation 3D deviation value of 0.05 ±0.06 mm and RMS value of 0.13 ±0.03 mm. Significant differences were found among the 3 groups (P.01). Except for the RMS value between the STA and DYN groups, significant differences were found between groups from the pairwise comparisons.The occlusal surface of the crowns designed by using the patient-specific motion recorded with the intraoral scanner had the best coincidence with the morphology of the wear facets on the original teeth.

Published

2023

23. Comparison of treatment outcomes and time efficiency between a digital complete denture and conventional complete denture

Author

Kehui Deng, Yong Wang, Yongsheng Zhou, and Yuchun Sun

Subjects

General Dentistry

Published

2023

24. Accuracy of recording edentulous jaw relations by using an optical jaw tracking system: An in vitro study.

Author

Weiwei Li, Linlin Li, Yong Wang, Yuchun Sun, Qiufei Xie, Li, Weiwei, Li, Linlin, Wang, Yong, Sun, Yuchun, and Xie, Qiufei

Subjects

EDENTULOUS mouth, MANDIBLE, MAXILLA, DENTURES, JAWS, JAW diseases, COMPLETE dentures, DENTISTRY

Abstract

Purpose: To establish a recording method for edentulous jaw relations and to perform quantitative accuracy evaluation in vitro.Materials and Methods: Maxillary and mandibular edentulous arch models and complete dentures were mounted on an articulator, simulating protrusion (A), left and right laterotrusion (B and C), and small opening jaw relations (D), aided by metal foil wax record. Using the tracking system, 3D trajectories of targets were recorded from intercuspation to A, B, C, and D, then used to rehabilitate digital arch relations of A, B, C, and D in the test group. Axial model surfaces were pasted with six pairs of positioning cylinders. The center points of the bottom surfaces of the cylinders in A, B, C, and D were measured to rehabilitate digital arch relations in the control group. With the maxilla as the common area, arch relations of the test group were registered in the control group; 3D deviations of the mandible were calculated, and displacements in horizontal left/right, horizontal anterior/posterior, and vertical directions were analyzed.Results: 3D deviations of the mandible in A, B, C, and D were 131 ± 39 μm, 133 ± 44 μm, 120 ± 51 μm, and 112 ± 52 μm, respectively. Mean absolute values of displacements of the mandible were less than 200 μm.Conclusion: By using the optical jaw tracking system, the accuracy of jaw relation records as measured on an articulator was acceptable for clinical demand. Further investigations among patients are required to clinically verify the results of this study. [ABSTRACT FROM AUTHOR]

Published

2022

25. Research on digitalized design technology of teeth shape support implant guide based on image guide.

Author

Yicheng Zhong, Ning Dai, Rui Xing, Xiaosheng Cheng, and Yuchun Sun

Published

2016

26. A preliminary study on the digital evaluation of absolute marginal discrepancy of fixed dental prostheses

Author

Shanshan Liang, Fusong Yuan, Yuchun Sun, Deli Li, and Lu Jia

Abstract

Background In clinical practice, the control of the marginal fit of fixed dental prostheses is hindered by the evaluation method, which needs to be further improved to increase its clinical applicability. We aimed to develop a fully digital method to quantitatively evaluate the absolute marginal discrepancy of fixed dental prostheses based on the digital impression technology and reverse engineering software. Methods A digital workflow and the conventional impression combined with the lost-wax heat-pressed technique were adopted to separately fabricate ten glass ceramic fixed dental prostheses. These twenty fixed dental prostheses were seated on the abutment, and the absolute marginal discrepancy was evaluated using the method developed in this study. One-way analysis of variance was used to statistically analyze the measurement results. Results Using the fully digital quantitative evaluation method, the mean value of absolute marginal discrepancy for fixed dental prostheses fabricated by the conventional method was 106.69 ± 6.46 μm, and that fabricated by the digital workflow was 102.55 ± 6.96 μm. The difference in the absolute marginal discrepancy of three-unit all-ceramic fixed dental prostheses fabricated using the two methods was not statistically significant (p > 0.05). Conclusions The digital quantitative evaluation method for absolute marginal discrepancy was preliminarily established and applied in three-unit ceramic fixed dental prostheses. This study provided a fully digital quantitative method for the absolute marginal discrepancy of three-unit fixed dental prostheses, which allows for improvements in measurement, thus facilitated quality control of the marginal fit of fixed dental prostheses. This lays the foundation for the development of an automated software platform for evaluating marginal fit of dental prostheses.

Published

2023

27. 3D path planning of a laser manipulation robotic system for tooth preparing.

Author

Lei Ma, Dangxiao Wang, Yuru Zhang, Lei Wang, Pei-jun Lv, and Yuchun Sun

Published

2014

28. Digital Determination and Recording of Edentulous Maxillomandibular Relationship Using a Jaw Movement Tracking System

Author

Weiwei Li, Hu Chen, Yong Wang, Qiufei Xie, and Yuchun Sun

Subjects

Denture, Complete, Jaw Relation Record, Movement, Humans, Jaw, Edentulous, Vertical Dimension, Mouth, Edentulous, General Dentistry

Abstract

To establish a direct digital method for determining and recording edentulous maxillomandibular relationship using a custom-made jaw movement tracking system and evaluate its accuracy.A novel jaw tracking system was used to record the trajectory of habitual opening-closing jaw movement, and mandibular rest position (MRP) in 10 edentulous patients. 3D surface scanning was performed on the conventional maxillomandibular impressions and facial structures of patients in MRP. The multisource data were registered using a custom-made recording tool. A plane parallel to the ala-tragus and horizontal lines was constructed 2 mm above the MRP, and its vertical position was used to determine the vertical relationship. The intersections of the trajectory passing through the plane were located, and their density distributions were analyzed. The coordinates of highest density, which presented the highest repeatability of jaw movement, were used to construct the digital maxillomandibular relationship (test group). The maxillomandibular relationship of the new complete dentures with artificial teeth in the intercuspal position was defined as the control group. The displacements of the anterior reference point and 3D deviations of the entire mandibular arch were measured and compared between the test and control groups using a Wilcoxon signed-ranks test and a one-sample t-test, respectively.With reference to the centric relationship position, the maximum displacements of the anterior reference points were in the horizontal anteroposterior direction for both groups, and there were no significant differences. Compared to the control group, the 3D deviations of the entire mandibular arch in the test group were significant (95% confidence interval: 0.76 mm to 1.35 mm, p0.001).By analyzing the individual trajectory features obtained by the in-house developed jaw tracking system, a digital method for determining and recording edentulous maxillomandibular relationships was established; however, the accuracy needs to be further improved.

Published

2022

29. Accuracy of Recording Edentulous Arch Relations Using an Optical Jaw-Tracking System: An In Vitro Study

Author

Weiwei Li, Yong Wang, Yuchun Sun, Qiufei Xie, and Linlin Li

Subjects

Orthodontics, Denture, Complete, medicine.medical_treatment, Articulator, Mandible, Jaw Relation Record, General Medicine, Maxilla, medicine, Humans, Jaw, Edentulous, In vitro study, Jaw tracking, Mouth, Edentulous, Oral Surgery, Dentures, Arch, Mathematics

Abstract

PURPOSE To establish a recording method for edentulous jaw relations and to perform quantitative accuracy evaluation in vitro. MATERIALS AND METHODS Maxillary and mandibular edentulous arch models and complete dentures were mounted on an articulator, simulating protrusion (A), left and right laterotrusion (B and C), and small opening jaw relations (D), aided by metal foil wax record. Using the tracking system, 3D trajectories of targets were recorded from intercuspation to A, B, C, and D, then used to rehabilitate digital arch relations of A, B, C, and D in the test group. Axial model surfaces were pasted with six pairs of positioning cylinders. The center points of the bottom surfaces of the cylinders in A, B, C, and D were measured to rehabilitate digital arch relations in the control group. With the maxilla as the common area, arch relations of the test group were registered in the control group; 3D deviations of the mandible were calculated, and displacements in horizontal left/right, horizontal anterior/posterior, and vertical directions were analyzed. RESULTS 3D deviations of the mandible in A, B, C, and D were 131 ± 39 μm, 133 ± 44 μm, 120 ± 51 μm, and 112 ± 52 μm, respectively. Mean absolute values of displacements of the mandible were less than 200 μm. CONCLUSION By using the optical jaw tracking system, the accuracy of jaw relation records as measured on an articulator was acceptable for clinical demand. Further investigations among patients are required to clinically verify the results of this study.

Published

2022

30. Preliminary Exploration of a Laser-Based Surface Microtexturing Strategy for Improving the Wear Resistance of Dentin: An In Vitro Study

Author

Xiao Zong, Bin Qin, Yong Wang, Hu Chen, Li Peng, Xiaowei Li, and Yuchun Sun

Subjects

Biomedical Engineering, Radiology, Nuclear Medicine and imaging

Published

2022

31. Additive manufacturing of 3D batteries: a perspective

Author

Kai Narita, Max A. Saccone, Yuchun Sun, and Julia R. Greer

Subjects

Mechanics of Materials, Mechanical Engineering, General Materials Science, Condensed Matter Physics

Published

2022

32. Effects of selective laser melting process parameters on the accuracy of the intaglio surface of maxillary removable partial denture frameworks

Author

Hu Chen, Kenan Ma, Yongsheng Zhou, Yong Wang, and Yuchun Sun

Subjects

Mechanical Engineering, Industrial and Manufacturing Engineering

Abstract

Purpose This in vitro study aims to explore the effects of selective laser melting (SLM) process parameters on the accuracy of the intaglio surface of cobalt–chromium alloy (Co–Cr), commercially pure titanium (CP Ti) and titanium alloy (Ti–6Al–4V) maxillary removable partial denture (RPD) frameworks and optimize these process parameters. Design/methodology/approach Maxillary RPD framework specimens designed on a benchmark model were built. The process parameters, including contour scan speed and laser power, infill scan speed and laser power, hatch space, build orientation and metallic powder type, were arranged through the Taguchi design. Three-dimensional deviations of the clasps area, connector area and overall area of maxillary RPD frameworks were analyzed by using root mean square (RMS) as a metric. One-way analyses of variance with the above RMSs as the dependent variable were carried out (α = 0.05). Findings Maxillary RPD frameworks built horizontally had a more accurate intaglio surface than those built at other orientation angles; CP Ti or Ti–6Al–4V maxillary RPD frameworks had a more accurate intaglio surface than Co–Cr ones; the Maxillary RPD framework built with a higher infill scan speed and lower infill laser power had the more accurate intaglio surface than the one built with other levels of these two process parameters. Originality/value A novel benchmark model for evaluating the accuracy of the intaglio surface of maxillary RPD frameworks manufactured by SLM is proposed. The accuracy of the intaglio surface of maxillary RPD frameworks can be improved by adjusting SLM process parameters. The optimal setting of process parameters concerning the accuracy of the intaglio surface of maxillary RPD frameworks was given.

Published

2022

33. The Relationship Between Collaborative Innovation Risk and Performance of Industrial Parks

Author

Xiaofei Wang, Yuchun Sun, and Guoqiang Li

Subjects

Information Systems and Management, Strategy and Management, Management Science and Operations Research, Business and International Management, Computer Science Applications

Abstract

From the perspective of collaborative innovation risk, the relationship between different risks and IP is explored based on the BPNN (Back Propagation Neural Network) model. Then, the SE (Synergy Effect) and the DC (Dynamic Capability) are introduced as intermediary and moderating variables. Following specific enterprise data input, the relationship between collaborative innovation risk and IP is analyzed based on deep learning and its endogenous mechanism. Conclusion: the analysis model of enterprise IP based on deep learning BPNN can well process enterprise data; different types of collaborative innovation risks in industrial parks have significantly negative effects on IP; the negative effect of organizational collaborative risk on IP is −0.268; apart from market risk factors, the other collaborative innovation methods further hinder the improvement of IP by inhibiting SE; apart from the risk of benefit distribution, the other collaborative innovation risks and IP are negatively regulated by DC, and the regulation effect on the risk of innovative factor input is the largest.

Published

2022

34. DCPR-GAN: Dental Crown Prosthesis Restoration Using Two-Stage Generative Adversarial Networks

Author

Yangmin Li, Yuchun Sun, Linlin Li, Miaohui Wang, Luca Fiorenza, Ning Dai, Sukun Tian, and Haifeng Ma

Subjects

Crowns, business.industry, Computer science, medicine.medical_treatment, Deep learning, Perspective (graphical), Artificial Limbs, Pattern recognition, Prosthesis, Standard deviation, Crown (dentistry), Computer Science Applications, Constraint (information theory), stomatognathic diseases, stomatognathic system, Health Information Management, medicine, Humans, Stage (hydrology), Artificial intelligence, Electrical and Electronic Engineering, business, Tooth, Generative grammar, Biotechnology

Abstract

Restoring the correct masticatory function of broken teeth is the basis of dental crown prosthesis rehabilitation. However, it is a challenging task primarily due to the complex and personalized morphology of the occlusal surface. In this article, we address this problem by designing a new two-stage generative adversarial network (GAN) to reconstruct a dental crown surface in the data-driven perspective. Specifically, in the first stage, a conditional GAN (CGAN) is designed to learn the inherent relationship between the defective tooth and the target crown, which can solve the problem of the occlusal relationship restoration. In the second stage, an improved CGAN is further devised by considering an occlusal groove parsing network (GroNet) and an occlusal fingerprint constraint to enforce the generator to enrich the functional characteristics of the occlusal surface. Experimental results demonstrate that the proposed framework significantly outperforms the state-of-the-art deep learning methods in functional occlusal surface reconstruction using a real-world patient database. Moreover, the standard deviation (SD) and root mean square (RMS) between the generated occlusal surface and the target crown calculated by our method are both less than 0.161 mm. Importantly, the designed dental crown have enough anatomical morphology and higher clinical applicability.

Published

2022

35. Three-dimensional digital evaluation of thickness accuracy of mock-ups fabricated by silicone matrices: An in vitro study

Author

Bai Hefei, Hongqiang Ye, Yuchun Sun, Yong Wang, Yongsheng Zhou, Yijiao Zhao, and Li Zhongyi

Subjects

Orthodontics, Materials science, technology, industry, and agriculture, Mock ups, 3d scanning, stomatognathic diseases, chemistry.chemical_compound, Silicone, stomatognathic system, chemistry, In vitro study, Dentistry (miscellaneous), Oral Surgery, Dental veneers, Anterior teeth

Abstract

Purpose Although mock-ups have been widely used in dental esthetic rehabilitation, their accuracy has not been quantitatively evaluated, and the methods of fabricating mock-ups are various. This in vitro study investigated the thickness accuracy of mock-ups fabricated with different silicone matrices. Methods Mock-ups of maxillary anterior teeth were respectively fabricated by 72 silicone matrices that were equally divided into four groups (n=18 for each group) according to two variables of the silicone matrices: labial margin position (equigingival or cover labial gingiva for 1-2 mm) and palatal notches (with or without notches on the palatal side of silicone matrices). The thickness accuracy of the mock-ups was analyzed using 3D scanning and 3D deviation analysis techniques compared with diagnostic waxing. The thickness change ratios of the mock-ups were compared using a two-way analysis of variance (ANOVA). One-way ANOVA and Kruskal-Wallis tests were used to compare differences in thickness change ratios between different teeth in each group. Results The thickness accuracy of the mock-ups was significantly affected by the labial margin position and the palatal notches of the silicone matrices, respectively, in the labial area and the incisal area. The most accurate mock-ups were made using silicone matrices with equigingival labial margins and palatal notches. The thickness accuracy of the mock-ups was also inconsistent on different teeth. Conclusions The mock-ups fabricated by silicone matrices were thicker than the diagnostic waxing. The application of silicone matrices to equigingival labial margins and palatal notches was beneficial to the thickness accuracy of mock-ups.

Published

2022

36. Evaluation and Calibration of CBCT Reconstruction Models

Author

Yuchun Sun, Tao gao, fusong yuan, and Shanshan Liang

Subjects

Radiology, Nuclear Medicine and imaging

Abstract

Purpose: This study proposes a method for improving the accuracy of three-dimensional (3D) models generated through cone-beam computed tomography (CBCT). Methods: A 3D cuboid model fitted with a ¼-scale dentition on its top surface was constructed to simulate an alveolar bone with teeth. A physical specimen of the model was printed and the distance between its opposite sides was measured using a vernier caliper. The physical model was light-scanned, and the surface data of the generated 3D model were corrected by calibrating the distance between opposite sides against the vernier caliper measurements. The physical model was also scanned using CBCT to reconstruct a second 3D model. The overall deviation between the two models and the distance deviation in each direction of the cuboid and dentition were quantified and statistically analyzed. Results: The overall deviation between the reconstructed CBCT model and the calibrated structured light-scanned model was 0.098 ± 0.001 mm. Following calibration, the overall deviation was 0.010 ± 0.006 mm. A one-way variance analysis suggested that the overall deviations' differences were not statistically significant (P < 0.05). method: A 3D cuboid model fitted with a ¼-scale dentition on its top surface was constructed to simulate an alveolar bone with teeth. A physical specimen of the model was printed and the distance between its opposite sides was measured using a vernier caliper. The physical model was light-scanned, and the surface data of the generated 3D model were corrected by calibrating the distance between opposite sides against the vernier caliper measurements. The physical model was also scanned using CBCT to reconstruct a second 3D model. The overall deviation between the two models and the distance deviation in each direction of the cuboid and dentition were quantified and statistically analyzed. Conclusion: This study lays a solid foundation for accurate dental implantation. conclusion: This study lays a solid foundation for accurate dental implantation. other: no

Published

2023

37. Trajectory tracking control of a miniature laser manipulation robotic end-effector for dental preparation.

Author

Lei Ma, Yuru Zhang, Dangxiao Wang, Pei-jun Lv, Yuchun Sun, and Hu Wang

Published

2013

38. Preliminary experiments of a miniature robotic system for tooth ablation using ultra-short pulsed lasers.

Author

Lei Wang, Dangxiao Wang, Lei Ma, Yuru Zhang, Fusong Yuan, Yuchun Sun, and Pei-jun Lv

Published

2013

39. Simulation Analysis of Collaborative Efficiency Improvement of Innovative Talents Management in Colleges and Universities Based on BP Neural Network

Author

Xiyin Chang and Yuchun Sun

Subjects

Health (social science), Health Policy, Public Health, Environmental and Occupational Health

Abstract

Objectives: In recent years, it is more and more difficult to manage innovative talents. In order to improve the collaborative efficiency of innovative talents management, this paper presents a simulation analysis of collaborative efficiency of innovative talents management in Colleges and Universities Based on BP neural network algorithm. Methods: Data simulation technology is used to establish talent management model. This model puts forward the optimization scheme from the algorithm flow, and improves the synergy of talent management by using data transformation technology. This model is analyzed from two aspects of universities and talents. BP neural network algorithm is added to the calculation of management efficiency to realize the sequence optimization of data. Results: In order to test the authenticity and efficiency of the algorithm in the talent management model, a comparative experiment is set up to analyze the results. The test results show that the accuracy of the optimized data analysis model is generally above 95%, while the accuracy of the traditional algorithm is generally below 80%, the collaborative efficiency calculation time of talent management model is the shortest, averaging only about 15 seconds; the traditional model calculation time is very unstable, from short 12 seconds to long 45 seconds, the calculation span is very large, and the accuracy rate is low. Conclusion: The research shows that BP neural network algorithm can improve the synergy of management and optimize the management mode of innovative talents, which is worthy of further promotion.

Published

2021

40. Efficient Computer-Aided Design of Dental Inlay Restoration: A Deep Adversarial Framework

Author

Jing Qin, Sukun Tian, Fulai Yuan, Yuchun Sun, Wuyuan Xie, Ning Dai, and Miaohui Wang

Subjects

Discriminator, Radiological and Ultrasound Technology, Inlay, business.industry, Computer science, medicine.medical_treatment, Dais, Crown (dentistry), Computer Science Applications, stomatognathic diseases, stomatognathic system, Inlays, Local consistency, Dental Prosthesis Design, medicine, Computer-Aided Design, Humans, Computer vision, Artificial intelligence, Electrical and Electronic Engineering, business, Tooth, Software, Image restoration, Surface reconstruction

Abstract

Restoring the normal masticatory function of broken teeth is a challenging task primarily due to the defect location and size of a patient's teeth. In recent years, although some representative image-to-image transformation methods (e.g. Pix2Pix) can be potentially applicable to restore the missing crown surface, most of them fail to generate dental inlay surface with realistic crown details (e.g. occlusal groove) that are critical to the restoration of defective teeth with varying shapes. In this article, we design a computer-aided Deep Adversarial-driven dental Inlay reStoration (DAIS) framework to automatically reconstruct a realistic surface for a defective tooth. Specifically, DAIS consists of a Wasserstein generative adversarial network (WGAN) with a specially designed loss measurement, and a new local-global discriminator mechanism. The local discriminator focuses on missing regions to ensure the local consistency of a generated occlusal surface, while the global discriminator aims at defective teeth and adjacent teeth to assess if it is coherent as a whole. Experimental results demonstrate that DAIS is highly efficient to deal with a large area of missing teeth in arbitrary shapes and generate realistic occlusal surface completion. Moreover, the designed watertight inlay prostheses have enough anatomical morphology, thus providing higher clinical applicability compared with more state-of-the-art methods.

Published

2021

41. Effects of Different Microstructured Surfaces on the Osseointegration of CAD/CAM Zirconia Dental Implants: An Experimental Study in Rabbits.

Author

Qian Ding, Rui Zhang, Lei Zhang, Yuchun Sun, and Qiufei Xie

Subjects

DENTAL implants, ZIRCONIUM oxide, OSSEOINTEGRATION, COMPUTED tomography, COMPUTER-aided design, ANIMAL experimentation, BONE density, RABBITS

Abstract

Purpose: To assess different microstructured surfaces created by sandblasting and acid etching in an effort to optimize the osseointegration performance of dental zirconia implants with an optimized surface. Materials and Methods: Sixty CAD/CAM zirconia implants were divided into four groups. The control group had no surface treatment after sintering. The other groups had three different types of surface modifications: sandblasting; sandblasting and etching with hydrofluoric acid; and sandblasting and etching with an experimental hot etching solution composed of methanol, 37% hydrochloric acid, and ferric chloride, heated to 100°C and applied for 60 minutes. Commercially available titanium implants with sandblasted and etched surfaces and identical dimensions were employed as a positive control. Surface micromorphologies of implants from the five groups were evaluated. The osseointegration performance of all the implants was assessed in adult New Zealand rabbits based on microcomputed tomography (micro-CT) and histologic analysis. Results: Sandblasting and acid etching with hot etching solution or hydrofluoric acid exhibited moderately rough surfaces with microstructures in both microscale and nanoscale. The sandblasting and etching with hydrofluoric acid group showed the highest surface roughness. Micro-CT revealed a significantly lower mean bone volume/total volume for the control group compared with the other four groups (P < .05). Among the groups, the sandblasting and hydrofluoric acid etching group was the highest, significantly higher than the titanium implant and sandblasting groups (P < .05). The sandblasting and etching with hot etching solution (P = .006) group also showed a significantly higher bone volume/total volume value than the titanium implant group. Histologic analysis revealed significantly higher boneto- implant contact for implants with modified surfaces compared with a sintered surface (P < .05), and no significant difference was found with respect to the sandblasted and etched titanium implants. Conclusion: The microstructured surfaces created by sandblasting and acid etching show osseointegration comparable to that of commonly used titanium implants. [ABSTRACT FROM AUTHOR]

Published

2020

42. Accuracy of a Novel Virtual Articulator for Recording Three-Dimensional Dentition.

Author

Linlin Li, Yuchun Sun, Yong Wang, Weiwei Li, Ning Dai, Sukun Tian, Haihua Cui, Li, Linlin, Sun, Yuchun, Wang, Yong, Li, Weiwei, Dai, Ning, Tian, Sukun, and Cui, Haihua

Subjects

DENTAL equipment, MANDIBLE, MAXILLA, BODY movement, DENTITION

Abstract

Purpose: To research and develop a novel virtual articulator system (the PN-300) based on computer binocular vision, raster scanning, and simulation technology and to conduct a preliminary evaluation of its accuracy.Materials and Methods: Two digital cameras were used to build the trajectory-tracking part of the virtual articulator system, and cameras combined with a projection module were used to form the scanning part of the system. The most prominent feature of the PN-300 is its ability to simultaneously obtain the 3D data of the subject's teeth and the movement trajectory of the mandible relative to the maxilla. The PN-300 recorded the linear, circular, and rectangular quadrilateral movements of a high-accuracy 3D electronic translation stage. The accuracy of measurement of the inclination of incisal guidance derived from the PN-300 based on the PROTAR evo7 articulator was also estimated.Results: The measurement error was below 100 μm for the linear and circular movements, and the angle error was within 0.2 degrees for the rectangular quadrilateral movements. The error of inclination of protrusive incisal guidance was 1.51 ± 0.68 degrees, and for incisal guidance was 0.82 ± 0.55 degrees. Trajectories and incisal 3D data obtained by the PN-300 were combined with data from plaster models and CBCT to simulate mandibular movement and to calculate the trajectories of the condyle.Conclusion: The PN-300 achieved a good accuracy for recording mandibular movement and can be expected to calculate the movement of the condyle. [ABSTRACT FROM AUTHOR]

Published

2020

43. The Accuracy of Transferring Casts in Maximal Intercuspal Position to a Virtual Articulator

Author

Lei Zhang, Yijiao Zhao, Mingzhu He, Guangju Yang, Qian Ding, Linlin Li, and Yuchun Sun

Subjects

Orthodontics, Dental Articulators, Articulator, Significant difference, Mandibular arch, Dental Occlusion, Polyvinyl siloxane, Jaw Relation Record, Position (vector), Occlusion, Maxilla, Occlusal surface, Maxillary central incisor, Tooth, General Dentistry, Mathematics

Abstract

Purpose To analyze the accuracy of transferring casts in maximal intercuspal position to a virtual articulator by using transfer plates in the laboratory scanner before and after occlusal optimization. Material and methods Five sets of standard dental casts were mounted on a mechanical articulator in maximal intercuspal position. The number and position of occlusal contacts were determined with 12-μm articulating foil. After a calibration process according to the manufacturer's instructions, the mountings were transferred to a virtual articulator using the transfer plates in a laboratory scanner. The occlusion of the digital casts was determined before and after the occlusal optimization process. Then, the sensitivity and positive predictive values were determined by comparing the occlusal contact points in the virtual articulator with those in the mechanical articulator. To evaluate trueness, the occlusal surface of the maxillary teeth in the mechanical articulator was recorded by polyvinyl siloxane occlusal record in maximal intercuspal position and retained on the mandibular arch. The trueness was calculated as the deviation between the occlusal surface of the maxillary teeth in the mechanical articulator and the virtual articulator. To evaluate precision, one set of the casts was scanned 10 times. And the deviation of the interarch position of the maxillary arches when superimposing the mandibular arches of every 2 different scans was calculated. Results The sensitivity before occlusal optimization (0.14 ±0.15) was significantly lower than that after occlusal optimization (0.82 ±0.10) (P = 0.003). However, there was no significant difference between the positive predictive value before (0.80 ±0.45) and after (0.81 ±0.09) occlusal optimization (P = 0.952). The trueness before (91.0 ±10.7 μm) and after (75.4 ±25.2 μm) occlusal optimization had no significant difference (P = 0.249). The precision before occlusal optimization (11.6 ±3.8 μm) was significantly superior to that after occlusal optimization (75.6 ±39.2 μm ) (P Conclusions The accuracy of transferring casts in maximal intercuspal position to a virtual articulator using transfer plates in the laboratory scanner could be improved after occlusal optimization and can meet the clinical needs for occlusal design and analysis of prostheses. This article is protected by copyright. All rights reserved.

Published

2021

44. Effect of Optical Wedge Rotary on Ablation Efficiency of Femtosecond Laser on Dental Hard Tissue and Restorative Materials.

Author

Xiao Zong, Xu Yang, Yuchun Sun, Yong Wang, Chenggang Duan, and Hu Chen

Published

2023

45. Morphological design of occlusal wear facets for the mandibular first molar crown using different bite registration methods

Author

Hu, Chen, Xu, Yang, Linlin, Li, Yong, Wang, and Yuchun, Sun

Subjects

General Dentistry

Abstract

To compare the accuracy of occlusal wear facet morphology designed using different bite registration methods for mandibular first molar crowns.The posterior teeth and intraoral intercuspal occlusions of 12 participants were scanned. The abutment shape of the mandibular first molars for complete crowns was virtually designed, and the anatomic coping design method was used to design crowns. In the anatomic coping design, digital wax patterns were constructed by elevating the wear facets on the original surface of the first molars and then adjusting the facets with 2 types of virtual occlusions determined by buccal bite registration (BBR) or segmented tooth registration (STR) methods, where the displacement of teeth under bite force was considered (STR) or not (BBR). The occlusal distance between the original wear facets and the antagonists as well as 3D deviations between the facets on the designed crowns and on the surfaces of the original teeth were measured. Paired-samples t-test was used to analyze the results (α = 0.05).Regarding occlusal distance, the mean 3D deviation and the root mean square (RMS) values of BBR were greater than those of the STR groups (p0.001 and p = 0.008). The mean 3D deviations of the crowns of the BBR and STR groups were 0.19 ±0.04 mm and 0.14 ±0.06 mm, respectively and the RMS values were 0.22 ±0.03 mm and 0.18 ±0.04 mm (p0.001), respectively.The morphology of occlusal wear facets of mandibular first molar crowns designed with the occlusion constructed using the segmented tooth registration method are more coincident with the original morphology.

Published

2022

46. Surface Characteristics and Flexural Strength of Porous‐Surface Designed Zirconia Manufactured via Stereolithography

Author

Quanquan Ma, Qian Ding, Lei Zhang, Yuchun Sun, and Qiufei Xie

Subjects

General Dentistry

Abstract

To design and fabricate zirconia bars with porous surfaces using stereolithography and evaluate their surface characteristics and flexural strengths.Five groups of zirconia bars (20 mm × 4 mm × 2 mm) with interconnected porous surfaces were designed and manufactured: (i) 400-µm pore size and 50% porosity (D400-P50 group), (ii) 400-µm pore size and 30% porosity (D400-P30 group), (iii) 200-µm pore size and 50% porosity (D200-P50 group), (iv) 200-µm pore size and 30% porosity (D200-P30 group), and (v) 100-µm pore size and 30% porosity (D100-P30 group). Zirconia bars without a porous surface (NP) were used as controls. The surface topographies and pore structures were investigated using scanning electron microscopy and three-dimensional laser microscopy. The printed porosity was calculated using the Archimedes method. Fifteen specimens from each group were subjected to a three-point bending test according to the ISO 6872:2015 standard. A Weibull analysis was performed, and the fractured surfaces were examined using scanning electron microscopy.Zirconia bars with porous surfaces were designed and successfully manufactured. The designed pore size, porosity, and shape of the printed pores were approximately achieved for all the porous surfaces. The flexural strength of the control group was significantly higher than those of the groups with porous surfaces (p0.001). For the same porosity, groups with a pore size of 400 µm exhibited a lower flexural strength than the other groups (p0.001). Additionally, for the same pore-size design, the flexural strengths of group D400-P50 and D400-P30 exhibited no significant differences (p = 0.150), while the flexural strengths of D200-P30 were significantly higher than that of the D200-P50 group (p = 0.043). The control group and D400-P50 group had higher Weibull moduli than the other groups. The fractography of the specimens with porous surfaces indicated more than one crack origin, mainly owing to defects, including pores and cracks.Zirconia bars with porous surfaces were successfully designed and fabricated using the stereolithography technique. Although porous surfaces may be advantageous for osteogenesis, the porous-surface design can reduce the flexural strength of the printed zirconia bars. By reducing the pore size, controlling the porosity, and improving the printing accuracy, a higher strength can be achieved.

Published

2022

47. Suitability of the triple-scan method with a dental laboratory scanner to assess the 3D adaptation of zirconia crowns

Author

Rong Li, Yuchun Sun, Hu Chen, and Yong Wang

Subjects

Scanner, Dental laboratory, Materials science, Crowns, Laboratories, Dental, medicine.medical_treatment, 030206 dentistry, Dental Marginal Adaptation, Crown (dentistry), Impression, stomatognathic diseases, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Silicone, Dental Prosthesis Design, chemistry, medicine, Computer-Aided Design, Zirconium, Oral Surgery, Abutment (dentistry), Biomedical engineering

Abstract

Statement of problem The triple-scan method for assessing the 3D adaptation of dental restorations has been introduced and reported to be reliable. However, the suitability of using a dental laboratory scanner in the triple-scan method has not been evaluated. Purpose The purpose of this in vitro study was to evaluate the suitability of the triple-scan method using a dental laboratory scanner to assess the 3D adaptation zirconia crowns. Material and methods A zirconia abutment and a zirconia crown were fabricated, and the abutment was fixed in a custom-made base. The crown was seated onto the abutment with the interposition of light-body silicone impression material between them. The triple-scan method was performed by using a dental laboratory scanner, and the mean cement-gap thickness was calculated. The seating and digitalization process was repeated 10 times, and after each digitalization, the light-body silicone layer was stabilized by applying heavy-body silicone impression material over it. Cement-gap thickness was measured on cross-sections of the aligned scan data sets and of the physical silicone replica. The results were assessed by using the paired t test and the Bland-Altman method (α=.05). Results Mean 3D cement-gap thickness assessed by the triple-scan method reported small dispersion with a coefficient of variation of 5.6% for the occlusal area, 1.9% for the axial area, and 6.4% for the margin area. Cement gap thickness measured at corresponding locations in the aligned scan data sets and in the physical silicone replica reported no significant difference (P=.326) and good agreement. Conclusions The cement gap was accurately duplicated in scan data sets. The triple-scan method by using a dental laboratory scanner is suitable for assessing the 3D adaptation of zirconia crowns.

Published

2021

48. Comparing the accuracy of full-arch implant impressions using the conventional technique and digital scans with and without prefabricated landmarks in the mandible: An in vitro study

Author

Yifang Ke, Yaopeng Zhang, Yong Wang, Hu Chen, and Yuchun Sun

Subjects

General Dentistry

Published

2023

49. Feasibility study and material selection for powder-bed fusion process in printing of denture clasps

Author

Kenan Ma, Hu Chen, Yanru Shen, Yuqing Guo, Weiwei Li, Yong Wang, Yicha Zhang, and Yuchun Sun

Subjects

Health Informatics, Computer Science Applications

Published

2023

50. Digital evaluation of the effect of nanosilica-lithium spray coating on the internal and marginal fit of high translucent zirconia crowns

Author

Shanshan Liang, Fusong Yuan, Hu Chen, and Yuchun Sun

Subjects

General Dentistry

Published

2023