1.The clinical evaluation of a new diagnostic kit for hepatitis B virus YMDD mutation DNA detection
Lifei HE ; Xiaoyu FU ; Hongjun HUANG ; Bo LIU ; Baiping WU
Journal of Chinese Physician 2015;17(10):1482-1484
Objective To evaluate the clinical application of a novel hepatitis B virus YMDD mutation DNA diagnostic kit (magnetic beads method kit).Methods A total of 324 HBV clinical serum samples was tested with the magnetic beads method kit and another kind of fluorescence diagnostic kit (boiling method).Accuracy, specificity, and sensitivity were compared.Results The consistency of positive detection rate of two kits was 100% (95% CI : 98.0% ~ 100%), negative consistency was 97.12% (95% CI : 92.8% ~99.2%) and the total consistency was 98.76% (95% CI : 96.9% ~99.7%).Four cases of discrepant samples were confirmed by sequencing, and statistical analysis performed by Kappa test (Kappa =0.975) shows good consistency between the two methods.Conclusions The magnetic beads method kit has good consistency compared to the regular boiling method kit, and the polymerase chain reaction (PCR) detection system contains an internal positive control (internal control) to avoid a false negative resuit, which is more suitable for clinical diagnosis.
2.Application of optical illusion in stomatological aesthetics
ZHAO Weijia ; ZHANG Pengfei ; JIN Xiaoting ; JIN Xiaogang ; FU Baiping
Journal of Prevention and Treatment for Stomatological Diseases 2022;30(2):127-133
Optical illusion refers to the phenomenon in which the scene observed by the human eye is not completely consistent with the objectively presented scene. Optical illusions in stomatology, as well as their clinical application, are demonstrated in this paper in terms of shade, shape and aesthetic design. Shade is not only affected by the optical illusions with which it is associated, such as color metamerism, color constancy and the Chevreul illusion, but also influenced by the surroundings. It is suggested that the surrounding lighting during veneering should be the same as that during color matching in the clinic. As indicated by the Poggendorf illusion and the Leaning Tower illusion, the practice should be conducted and checked from multiple perspectives to compensate for the limitation of human eyes, such as intraoral scanning. Other digital technologies, including digital facial scanning and cephalometric measurement, could be used to reduce the subjective influence of observation. In terms of esthetic design, the interaction of the part and the whole, suggested by Ebbinghaus illusion, should be considered: an individual harmony smile should be designed considering the characteristics of the personality and the features of the face, lips, teeth and gingiva of the patient. Furthermore, personal information, such as gender and age, should be taken into consideration in beautification presentation. Further research should be focused on the influence of optical illusions in stomatology in more details. More communication among doctors, technicians and patients is needed. Clinicians should be aware of the impact of optical illusions to reduce subjective bias in clinical standardized operations and further take advantage of optical illusions to create beautification presentations of dental restorations and smiles.
3.A novel porous silica-zirconia coating for improving bond performance of dental zirconia.
Zhiwei SU ; Mingxing LI ; Ling ZHANG ; Chaoyang WANG ; Leiqing ZHANG ; Jingqiu XU ; Baiping FU
Journal of Zhejiang University. Science. B 2021;22(3):214-222
OBJECTIVES:
To coat a zirconia surface with silica-zirconia using a dip-coating technique and evaluate its effect on resin-zirconia shear bond strength (SBS).
METHODS:
A silica-zirconia suspension was prepared and used to coat a zirconia surface using a dip-coating technique. One hundred and eighty-nine zirconia disks were divided into three groups according to their different surface treatments (polishing, sandblasting, and silica-zirconia coating). Scanning electron microscopy (SEM), energy dispersive X-ray (EDX), and X-ray diffraction (XRD) were used to analyze the differently treated zirconia surfaces. Different primer treatments (Monobond N, Z-PRIME Plus, and no primer) were also applied to the zirconia surfaces. Subsequently, 180 composite resin cylinders (Filtek Z350) were cemented onto the zirconia disks with resin cement (RelyX Ultimate). The SBS was measured after water storage for 24 h or 6 months. The data were analyzed by two-way analysis of variance (ANOVA).
RESULTS:
SEM and EDX showed that the silica-zirconia coating produced a porous layer with additional Si, and XRD showed that only tetragonal zirconia was on the silica-zirconia-coating surface. Compared with the control group, the resin-zirconia SBSs of the sandblasting group and silica-zirconia-coating group were significantly increased (
CONCLUSIONS
Dip-coating with silica-zirconia might be a feasible way to improve resin-zirconia bonding.