Cardiovascular Ultrasound Contrast Agent and Microembolic Signals on Transcranial Doppler

The objective of this study was to explore the application value of microbubble contrast materials in the diagnosis of prostate cancer. Firstly, ordinary nano-microbubbles and biotinylated nano-microbubbles were prepared by rotary evaporation method and mechanical vibration method. Then, the biotinylated anti-six-transmembrane prostate epithelial antigen-1 (STQWK-1) antibody was connected with the previously prepared nano-microbubbles with the help of biotin-avidin method, so as to generate a nano-microbubble contrast agent targeting prostate PC3 cells. While the contrast agent was characterized based on the immunofluorescence method, a microscope was applied to observe the in vitro targeting performance of targeted nano-microbubbles on PC3 cells. A prostate PC3 cell nude mouse transplanted tumor model was established, so that the contrast-enhanced ultrasound (CEUS) effect of different contrast agents on transplanted tumor was compared, which were applied in CEUS examination of prostate cancer patients. The results showed that the targeted nano-microbubbles could display circular green fluorescence under the microscope, and the blank nano-microbubbles had no display under the microscope. Both ultrasonic microbubbles were circular and evenly distributed. The in vitro targeting experiments indicated that targeted nano-bubbles could accumulate on the surface of prostate cancer PC3 cells, and tumor transplantation model proved that the targeted contrast agent carrying STQWK-1 antibody had a strong development and enhancement effect. In the diagnosis of prostate cancer patients, the sensitivity (83.3% vs. 52%), specificity (66.7% vs. 36.3%), accuracy (75% vs. 47.2%), and other indicators of the diagnosis of targeted nano-bubbles prepared showed marked advantages compared with routine trans-rectal US (TRUS) diagnosis. The contrast agent prepared in this study could be specifically targeted to prostate PC3 cells in vitro, which had the effect of development and enhancement and had a good diagnostic performance in the diagnosis of prostate cancer.

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Application of Zirconia Ceramic Biomaterial Implants in the Restoration of Tooth Loss Caused by Periodontal Disease

Wei

2022

sci adv mater

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Zirconia ceramics (ZiC) has become a biomaterial with good clinical application prospects due to its good biocompatibility, stability, and excellent mechanical properties. In this study, bioactive glass (BioS) was undertaken as the modifier, and the ZiC precursor solution was penetrated on the surface of the ZiC body or the ZiC particles were coated with the BioS precursor solution, so as to obtain the ZiC with biological activity by introducing the BioS phase. While the material was characterized, its mechanical properties and biological activity were analyzed by simulating the mineralization of the body fluid, including the cell adhesion, proliferation, and differentiation of the material. The ZiC was applied as an implant for restoration of patients with teeth loss caused by periodontal disease. In the test, after surface infiltration of BioS sol or coating of ZiC particles, a very thin BioS phase can be formed on the surface of ZiC after high temperature sintering. The in vitro mineralization test showed that the activation of the grain boundary promoted the deposition of calcium and phosphorus layers on the surface of the sample. The mechanical test revealed that the relative density, flexural strength, and fracture toughness of the material decreased with the infiltration and coating of BioS. However, under proper preparation conditions, the modified ZiC still showed good mechanical properties and can promote the spreading, adhesion, and differentiation of mouse bone marrow mesenchymal stem cells (mBMSCs). Clinical trials proved that after the modified ZiC implant material was implanted in patients with teeth loss, the structure was not loose or broken, and the intraoral prosthesis could function normally. After treatment, the level of IL-1β in the gingival crevicular fluid of the patient decreased obviously (P <0.05). In addition, the probing depth (PD), clinical attachment loss (CAL), and other indicators decreased greatly (P <0.05).

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Cardiovascular Ultrasound Contrast Agent and Microembolic Signals on Transcranial Doppler

Cited by 5 publications

References 4 publications

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Preparation of Targeted Nano-Microbubble Contrast Agent and Its Application in the Diagnosis of Prostate Cancer

Application of Zirconia Ceramic Biomaterial Implants in the Restoration of Tooth Loss Caused by Periodontal Disease

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