Your search keyword '"Jinfa Ye"' showing total 5 results

1. A SU6668 pure nanoparticle-based eyedrops: toward its high drug Accumulation and Long-time treatment for corneal neovascularization

Author

Han Wu, Jinfa Ye, Minjie Zhang, Lingyu Zhang, Sijie Lin, Qingjian Li, Yanbo Liu, Yun Han, Caihong Huang, Yiming Wu, Yuhang Cheng, Shundong Cai, Lang Ke, Gang Liu, Wei Li, and Chengchao Chu

Subjects

Corneal neovascularization, Pure drug nanoparticle, SU6668, Cell membrane vesicle, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract Corneal neovascularization (CNV) is one of the common blinding factors worldwide, leading to reduced vision or even blindness. However, current treatments such as surgical intervention and anti-VEGF agent therapy still have some shortcomings or evoke some adverse effects. Recently, SU6668, an inhibitor targeting angiogenic tyrosine kinases, has demonstrated growth inhibition of neovascularization. But the hydrophobicity and low ocular bioavailability limit its application in cornea. Hereby, we proposed the preparation of SU6668 pure nanoparticles (NanoSU6668; size ~135 nm) using a super-stable pure-nanomedicine formulation technology (SPFT), which possessed uniform particle size and excellent aqueous dispersion at 1 mg/mL. Furthermore, mesenchymal stem cell membrane vesicle (MSCm) was coated on the surface of NanoSU6668, and then conjugated with TAT cell penetrating peptide, preparing multifunctional TAT-MSCm@NanoSU6668 (T-MNS). The T-MNS at a concentration of 200 µg/mL was treated for CNV via eye drops, and accumulated in blood vessels with a high targeting performance, resulting in elimination of blood vessels and recovery of cornea transparency after 4 days of treatment. Meanwhile, drug safety test confirmed that T-MNS did not cause any damage to cornea, retina and other eye tissues. In conclusion, the T-MNS eye drop had the potential to treat CNV effectively and safely in a low dosing frequency, which broke new ground for CNV theranostics.

Published

2024

2. A clinical trial of super-stable homogeneous lipiodol-nanoICG formulation-guided precise fluorescent laparoscopic hepatocellular carcinoma resection

Author

Pan He, Yongfu Xiong, Jinfa Ye, Biaoqi Chen, Hongwei Cheng, Hao Liu, Yating Zheng, Chengchao Chu, Jingsong Mao, Aizheng Chen, Yang Zhang, Jingdong Li, Jie Tian, and Gang Liu

Subjects

Indocyanine green nanoparticles, Fluorescent laparoscope, Hepatectomy, Translational medicine, Theranostics, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract Background Applying traditional fluorescence navigation technologies in hepatocellular carcinoma is severely restricted by high false-positive rates, variable tumor differentiation, and unstable fluorescence performance. Results In this study, a green, economical and safe nanomedicine formulation technology was developed to construct carrier-free indocyanine green nanoparticles (nanoICG) with a small uniform size and better fluorescent properties without any molecular structure changes compared to the ICG molecule. Subsequently, nanoICG dispersed into lipiodol via a super-stable homogeneous intermixed formulation technology (SHIFT&nanoICG) for transhepatic arterial embolization combined with fluorescent laparoscopic hepatectomy to eliminate the existing shortcomings. A 52-year-old liver cancer patient was recruited for the clinical trial of SHIFT&nanoICG. We demonstrate that SHIFT&nanoICG could accurately identify and mark the lesion with excellent stability, embolism, optical imaging performance, and higher tumor-to-normal tissue ratio, especially in the detection of the microsatellite lesions (0.4 × 0.3 cm), which could not be detected by preoperative imaging, to realize a complete resection of hepatocellular carcinoma under fluorescence laparoscopy in a shorter period (within 2 h) and with less intraoperative blood loss (50 mL). Conclusions This simple and effective strategy integrates the diagnosis and treatment of hepatocellular carcinoma, and thus, it has great potential in various clinical applications.

Published

2022

3. Revolutionizing eye care: the game-changing applications of nano-antioxidants in ophthalmology.

Author

Yuhang Cheng, Shundong Cai, Han Wu, Jintao Pan, Min Su, Xingyuan Wei, Jinfa Ye, Lang Ke, Gang Liu, and Chengchao Chu

Published

2024

4. Nanoparticle-mediated corneal neovascularization treatments: Toward new generation of drug delivery systems

Author

Huimin Zhu, Jingwen Yu, Jinfa Ye, Yiming Wu, Jintao Pan, Yingying Li, Chuan Chen, Li Zheng, Gang Liu, and Chengchao Chu

Subjects

General Chemistry

Published

2023

5. Research Progress on Microstructure Characterization of Silicon Carbide Fibers

Author

Changkui Liu, Xingjian Zhang, Jinfa Ye, Jinjuan Fan, and Zixi Cai

Subjects

History, chemistry.chemical_compound, Materials science, chemistry, Metallurgy, Silicon carbide, Microstructure, Computer Science Applications, Education, Characterization (materials science)

Abstract

Ceramic matrix composites have excellent properties such as high temperature resistance and oxidation resistance, and have good application prospects in the hot end parts of engines. In ceramic matrix composites, the microstructure composition of silicon carbide fibers determines their macroscopic properties. Therefore, this article takes silicon carbide fiber as the research object, summarizes the existing SiC fibers structure, composition, and morphology characterization methods, compares the development and advantages and disadvantages of XRD, SEM, TEM and other testing equipment analysis, and proposes The problems of sample preparation, surface defects and internal structure changes in the microstructure characterization of silicon carbide fibers are discussed, which provides a reference for the preparation of high-performance SiC fibers and the improvement of their characterization work.

Published

2021