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

Li, Wei; Liang, Qianhui; Zhou, Wei; Han, Haoyuan; Mao, Zhengzhong

doi:10.1166/sam.2021.4027

sci adv mater

2021

DOI: 10.1166/sam.2021.4027

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

Wei Li

Qianhui Liang

Wei Zhou

et al.

Abstract: 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… Show more

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Cited by 2 publications

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Applications of Ultrasound Targeted Micro/Nano Probes and Intelligent Ultrasound Molecular Imaging Technology

Wen,

2023

j biomed nanotechnol

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Targeted ultrasound molecular probes are the core technology of ultrasound molecular imaging, which connect molecular specific antibodies or ligands of the target tissue to the surface of ultrasound contrast agents, enabling ultrasound microbubbles to actively bind to the target tissue, thereby observing the specific imaging of the target tissue at the cellular or molecular level, reflecting the changes in the diseased tissue at the cellular or molecular level. Ultrasound molecular imaging has rapidly developed and applied in the diagnosis and treatment of breast, thyroid, cardiovascular and other diseases, as well as targeted drug delivery and targeted physical therapy of tumors. This article focuses on the theoretical innovation and technological progress of ultrasound micro/nano targeted probes, key technologies of ultrasound molecular imaging, new ultrasound imaging technologies, and the application of ultrasound micro/nano target bubbles in recent years. The integration of multifunctional micro/nano bubbles and multimodal molecular imaging, as well as diagnosis and treatment, is the development trend of ultrasound molecular probes. Artificial intelligence technology will serve as a basic tool to provide technical support for intelligent ultrasound molecular probes and molecular imaging.

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Applications of Ultrasound Targeted Micro/Nano Probes and Intelligent Ultrasound Molecular Imaging Technology

Wen,

2023

j biomed nanotechnol

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Application of Targeted Nano-Bubble Ultrasound Contrast Agent in the Detection of Arterial Intima Inflammation in Rats

Chen,

Hao,

Lang

et al. 2024

sci adv mater

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Tumor-specific antibodies or ligands were connected to the surface of nano-bubbles to form a targeted nano-bubble ultrasound contrast agent (UCA), which can accumulate in tumor tissues, enhance tumor tissue visualization, and realize extravascular disease detection and ultrasound molecular imaging. In this research, the positive and negative charges were attracted to promote the self-assembly connection between the targeted vascular endothelial growth factor (VEGF) antibody and the envelope surface of the nano-bubble, thereby obtaining a tumor-specific targeted nano-bubble UCA. Then, from the basic characterization, in vivo and in vitro ultrasound contrast performance analysis, a rat model of arterial intima inflammation in vivo was constructed. 16 Wistar rats were screened and divided into a control group and a contrast-enhanced ultrasound group. The imaging performance of the targeted molecules was analyzed by preparing an UCA. in vitro contrast-enhanced ultrasound found that the contrast intensity of self-made targeted nano-bubbles was greatly affected by concentration, but there was no linear relationship between the two. in vivo experiments were performed to observe rat liver contrast. The results showed that the contrast intensity and contrast time of the targeted nano-bubbles in vivo were greatly affected by the dose, and the stability in vivo was lower than the stability in vitro. Immunohistochemical tests found that P-selectin was expressed in large amounts in the intima of damaged blood vessels. Compared with ordinary contrast agents, the prepared targeted nano-UCA after modeling can enhance the video intensity of the inner membrane (P <0.05) and prolong the imaging time (P <0.05). It suggested that the contrast agent can specifically bind to P-selectin on the surface of vascular endothelial cells, and it was expected to be used for the detection of early inflammatory lesions in atherosclerotic diseases.

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

Cited by 2 publications

References 25 publications

Applications of Ultrasound Targeted Micro/Nano Probes and Intelligent Ultrasound Molecular Imaging Technology

Applications of Ultrasound Targeted Micro/Nano Probes and Intelligent Ultrasound Molecular Imaging Technology

Application of Targeted Nano-Bubble Ultrasound Contrast Agent in the Detection of Arterial Intima Inflammation in Rats

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