Yanwu Cao scite author profile

Yanwu Cao

3Publications

45Citation Statements Received

62Citation Statements Given

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Affiliations

Tianjin University, Collaborative Innovation Center of Chemical Science and Engineering Tianjin, PLA Army Engineering University

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Triggered-release polymeric conjugate micelles for on-demand intracellular drug delivery

et al. 2015

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Nanoscale drug delivery platforms have been developed over the past four decades that have shown promising clinical results in several types of cancer and inflammatory disorders. These nanocarriers carrying therapeutic payloads are maximizing the therapeutic outcomes while minimizing adverse effects. Yet one of the major challenges facing drug developers is the dilemma of premature versus on-demand drug release, which influences the therapeutic regiment, efficacy and potential toxicity. Herein, we report on redox-sensitive polymer-drug conjugate micelles for on-demand intracellular delivery of a model active agent, curcumin. Biodegradable methoxy poly(ethylene glycol)-poly(lactic acid) copolymer (mPEG-PLA) was conjugated with curcumin via a disulfide bond or ester bond (control), respectively. The self-assembled redox-sensitive micelles exhibited a hydrodynamic size of 115.6 ± 5.9 (nm) with a zeta potential of -10.6 ± 0.7 (mV). The critical micelle concentration was determined at 6.7 ± 0.4 (μg mL(-1)). Under sink conditions with a mimicked redox environment (10 mM dithiothreitol), the extent of curcumin release at 48 h from disulfide bond-linked micelles was nearly three times higher compared to the control micelles. Such rapid release led to a lower half maximal inhibitory concentration (IC50) in HeLa cells at 18.5 ± 1.4 (μg mL(-1)), whereas the IC50 of control micelles was 41.0 ± 2.4 (μg mL(-1)). The cellular uptake study also revealed higher fluorescence intensity for redox-sensitive micelles. In conclusion, the redox-sensitive polymeric conjugate micelles could enhance curcumin delivery while avoiding premature release, and achieving on-demand release under the high glutathione concentration in the cell cytoplasm. This strategy opens new avenues for on-demand drug release of nanoscale intracellular delivery platforms that ultimately might be translated into pre-clinical and future clinical practice.

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Analysis of the Short-Term Stability of High Precise Atomic Frequency Transfer over Telecommunication Networks

Cao

Zhu

2011

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High precise atomic frequency suffers from intensity noise, chromatic dispersion noise, temperature variance, optical fiber loss and inserted loss over optical fiber transfer. Thus, frequency stability declines. This article has analyzed the source noise of laser, optical fiber transfer noise and receiver noise through theory. In result, short-term stability depends on the level of averaging received power, modulation frequency, index of chromatic dispersion, and transfer distance. The averaging received power is predominant for frequency standard of 100MHz transferred over100 km telecommunication networks.

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Phospholipid-like amphiphilic polymer conjugate micelles for on-demand intracellular curcumin delivery

Cao

Gao

Chen

et al. 2015

Journal of Controlled Release

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Yanwu Cao

Triggered-release polymeric conjugate micelles for on-demand intracellular drug delivery

Analysis of the Short-Term Stability of High Precise Atomic Frequency Transfer over Telecommunication Networks

Phospholipid-like amphiphilic polymer conjugate micelles for on-demand intracellular curcumin delivery

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