Your search keyword '"LV Tian-shi"' showing total 4 results

1. Preparation and investigation of MRI-traceable Eudragit-E liquid embolic agent.

Author

LIU Ying-ying, LU Xiao-jing, ZHENG Zhuo-zhao, GUAN Hai-tao, FU Nai-qi, LV Tian-shi, ZHANG Shui-sheng, SONG Li, ZOU Ying-hua, and FAN Tian-yuan

Published

2014

2. Preparation and property study of doxorubicin loaded microspheres.

Author

SA Er-a, LU Xiao-jing, CUI Dai-chao, GUAN Hai-tao, LV Tian-shi, ZHANG Shui-sheng, YAN Zi-guang, SONG Li, ZOU Ying-hua, and FAN Tian-yuan

Published

2014

3. [Preparation and investigation of MRI-traceable Eudragit-E liquid embolic agent].

Author

Liu YY, Lu XJ, Zheng ZZ, Guan HT, Fu NQ, Lv TS, Zhang SS, Song L, Zou YH, and Fan TY

Subjects

Animals, Kidney drug effects, Magnetic Resonance Imaging, Magnetite Nanoparticles, Phantoms, Imaging, Rabbits, Dextrans pharmacology, Embolization, Therapeutic, Methylmethacrylates pharmacology, Renal Artery

Abstract

Objective: To develop and investigate the properties of MRI-traceable Eudragit-E liquid embolic agent (MR-E)., Methods: Polyethylene glycol-modified superparamagnetic iron oxides (PEG-SPIO) was synthesized by chemical co-precipitation method. MR-E was prepared by mixing PEG-SPIO and Eudragit-E liquid embolic agent homogeneously. An in vitro MR phantom study was carried out to measure MR traceability of MR-E and to determine the concentration of PEG-SPIO for further studies. The microcatheter deliverability and sol-gel transition process of MR-E were investigated. MR-E was injected into the kidney of a Japanese white big ear rabbit via an angiographic microcatheter, and detected by MRI., Results: A PEG-SPIO concentration of 2 g/L was considered to be suitable for further studies. MR-E was injected through the microcatheter without any difficulty. MR-E instantly solidified on release into saline. Then 0.2 mL of MR-E effectively embolized distal renal arteries, and MR-E could be detected by MRI in the embolized kidney., Conclusion: MR-E seems to be a promising MRI-traceable liquid embolic agent.

Published

2014

4. [Preparation and property study of doxorubicin loaded microspheres].

Author

Sa EA, Lu XJ, Cui DC, Guan HT, Lv TS, Zhang SS, Yan ZG, Song L, Zou YH, and Fan TY

Subjects

Acrylates, Animals, Elasticity, Embolization, Therapeutic, Polyvinyl Alcohol, Rabbits, Doxorubicin chemistry, Drug Carriers chemistry, Microspheres

Abstract

Objective: To prepare doxorubicin-loaded polyvinylalcohol-acrylic acid (PVA-AA) microspheres and evaluate properties of this chemoembolic agent., Methods: PVA-AA microspheres were synthesized by inverse suspension polymerization method and then verified by infrared spectroscopy. drug loading (DL) and entrapment efficiency (EE%) were measured after doxorubicinwas loaded on PVA-AA microspheres. Their morphology and elasticity were investigated by optical microscope, environmental scanning electron microscope and texture analyzer, respectively. T-cell apparatus was used to evaluate the in vitro release behavior of doxorubicin-loaded microspheres.The external carotid of the rabbit was chosen as an embolization site to evaluate the in vivo embolic property of the microspheres., Results: PVA-AA microspheres, which were transparent spheres,turned into red spheres after doxorubicin loading. DL of the microspheres was (20.56 ± 0.69)g/L and (23.25 ± 0.27) g/L,and EE% was 82.22% ± 2.76% and 93.00% ± 1.06% within 20 min and 6 h, respectively. The in vitro release results showed a significantly delayed release of the drug for 10.32% ± 0.47% after 24 h. The Young's modulus was (178.30 ± 12.33) kPa and (213.29 ± 15.61) kPa for blank microspheres and doxorubicin-loaded microspheres, respectively. Both blank microspheres and doxorubicin-loaded microspheres exhibited good elasticity. In vivo embolization showed that 0.3 mL of microspheres could produce distal embolic efficiency., Conclusion: The doxorubicin-loaded microspheres are expected to be a promising new chemoembolic agent.

Published

2014