Your search keyword '"Zhou, Zhi-Cai"' showing total 3 results

1. Experiment on the factors for enhancing the susceptibility of cancer cells to chemotherapeutic drug by ultrasound microbubbles.

Author

Zhao YZ, Gao HS, Zhou ZC, Tang QQ, Lu CT, Jin Z, Tian JL, Xu YY, Tian XQ, Wang L, Kong FL, Li XK, Huang PT, He HL, and Wu Y

Subjects

Antineoplastic Agents pharmacokinetics, Antineoplastic Agents pharmacology, Cell Line, Tumor, Cell Survival drug effects, Humans, Phospholipids chemistry, Sonication, Topotecan pharmacokinetics, Topotecan pharmacology, Antineoplastic Agents administration & dosage, Drug Delivery Systems methods, Microbubbles, Topotecan administration & dosage, Ultrasonics

Abstract

The objective of this study was to investigate the factors for enhancing the susceptibility of cancer cells to chemotherapeutic drug by ultrasound microbubbles. Ultrasound (US) combined with phospholipid-based microbubbles (MB) was used to enhance the susceptibility of colon cancer cell line SWD-620 to anticancer drugs Topotecan hydrochloride (TOP). Experiments were designed to investigate the influence of main factors on cell viability and cell inhibition, such as US intensity, MB concentration, drug combination with MB, asynchronous action between US triggered cavitation and drug entering cell, MB particle size. US exposure for 10 sec with US probe power at 0.6 W/cm(2) had satisfied cell viability. Treated with US combined with 15% MB, cell viability maintained more than 85% and cell inhibition 86.16%. Under optimal US combined with MB, TOP showed much higher cell inhibition than that of only TOP group. Cell inhibition under short delayed time (<2 h) for TOP addition did not show obvious difference. In terms of MB particle size, the order of cell inhibition was: Mixture > Micron bubble part > Nanometer bubble part. US combined with MB can enhance the susceptibility of cancer cells to chemotherapeutic drug, which may provide a potential method for US-mediated tumor chemotherapy.

Published

2010

2. Comparing encapsulation efficiency and ultrasound-triggered release for protein between phospholipid-based microbubbles and liposomes.

Author

Lu CT, Zhao YZ, Gao HS, Tian JL, Zhou ZC, Zhao GT, Tang QQ, Jin Z, Xu YY, Huang PT, Han J, Wang L, and Li XK

Subjects

Animals, Cattle, Equipment Design, Kidney ultrastructure, Male, Rabbits, Ultrasonics, Drug Delivery Systems instrumentation, Liposomes chemistry, Microbubbles, Phospholipids chemistry, Serum Albumin, Bovine administration & dosage

Abstract

This work was to compare the encapsulation efficiency and ultrasound-triggered release for protein between microbubbles and liposomes. Bovine serum albumin (BSA) was used as a model. Final ratios between BSA and HPC in microbubbles and liposomes were 1:5, 1:7 and 1:10, respectively. Morphologic characteristics and contrast enhancement of loaded microbubbles and liposomes were measured. Encapsulation efficiency and ultrasound-stimulated release profile were detected. The mean size of loaded microbubbles and liposomes was 3.4 microm and 1.7 microm, respectively. Encapsulation efficiency of microbubbles had an inverse relationship with the ratio between BSA and HPC, while loaded liposomes remained nearly unchanged in the designed range of the ratio between BSA and HPC. Microbubbles resulted in significant enhancement of CnTi images. After ultrasound, more than 90% of the entrapped BSA was released from microbubbles, but less than 5% of BSA released from liposomes. Microbubbles are a promising delivery system for proteins.

Published

2010

3. Phospholipid-based ultrasonic microbubbles for loading protein and ultrasound-triggered release.

Author

Zhao, Ying-Zheng, Lu, Cui-Tao, Fu, Hong-Xing, Li, Xiao-Kun, Zhou, Zhi-Cai, Zhao, Gang-Tao, Tian, Ji-Lai, Gao, Hui-Sheng, Jiang, Yi-Na, Hu, Shu-Ping, and Yang, Wei

Subjects

DRUG development, PROTEIN drugs, SERUM albumin, BLOOD proteins, DRUGS

Abstract

Background: Ultrasonic microbubbles are used as ultrasound-triggered delivery carriers for protein drugs. Aim: This work was to prepare stabilized protein-loaded phospholipid-based ultrasonic microbubbles (PUM) and to determine its value as a protein delivery system. Method: Bovine serum albumin (BSA) was used as a model protein drug. BSA-containing PUM were prepared by dissolving lyophilized PUM powder in BSA solution. The particle size and microbubble concentration of BSA-containing PUM were measured. The BSA encapsulation efficiency as a function of BSA concentration was determined. Contrast enhancement of BSA-containing PUM in vivo was detected. The release profile of BSA from PUM was also investigated. Results: The mean particle size and microbubble concentration of PUM were unchanged by the presence of BSA for at least 30 minutes after preparation. The net amount of BSA entrapped in PUM was maintained unchanged with increasing BSA concentration. BSA-containing PUM were shown easily to be visible in in vivo rabbit kidney. There was no difference in echogenicity between the loaded and unloaded PUM. Ultrasound duration had a positive relationship with BSA release. Ultrasound of 30 seconds stimulated 94.1% and 93.3% of BSA release from PUM solutions containing 0.3% and 1.5% BSA, respectively. Conclusions: Protein-loaded PUM exhibited satisfactory physical characteristics and were potent for using in ultrasound-triggered delivery. [ABSTRACT FROM AUTHOR]

Published

2009