Fang Shu Lu scite author profile

Fang Shu Lu

2Publications

9Citation Statements Received

94Citation Statements Given

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Beijing Institute of Technology

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Biocompatible Microcapsule of Carboxymethyl Cellulose/Chitosan as Drug Carrier

Wang

Cui

et al. 2015

AMR

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The biocompatible microcapsule of carboxymethyl cellulose/chitosan is obtained through two steps: firstly, carboxymethyl cellulose (CMC) and chitosan (CS) layer-by-layer self-assemble onto melamine formaldehyde (MF) microspheres; secondly, MF template is removed. The electrostatic interaction between CMC and CS, solution ionic strength and growth of LbL membrane are investigated by IR spectra and UV-vis spectra. The morphology and size of hollow microcapsules is observed by SEM and TEM. The results show that the hollow microcapsules are spherical shape with a little distortion and the shell average thickness of one bilayer of CMC/chitosan polyelectrolyte complex was 25 nm. The result for drug delivery and release experiments, tetracycline is as the drug model, shows that tetracycline is encapsulated with a high drug loading efficiency and could be sustained release.

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A study on the hemocompatibility of dendronized chitosan derivatives in red blood cells

Zhou¹,

Li²,

Lu³

et al. 2015

DDDT

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Dendrimers are hyperbranched macromolecules with well-defined topological structures and multivalent functionalization sites, but they may cause cytotoxicity due to the presence of cationic charge. Recently, we have introduced alkyne-terminated poly(amidoamine) (PAMAM) dendrons of different generations (G=2,3) into chitosan to obtain dendronized chitosan derivatives [Cs-g-PAMAM (G=2,3)], which exhibited a better water solubility and enhanced plasmid DNA transfection efficiency. In this study, we attempted to examine the impact of Cs-g-PAMAM (G=2,3) at different concentrations (25 μg/mL, 50 μg/mL, and 100 μg/mL) on the morphology, surface structure, and viability of rat red blood cells (RBCs). The results showed that treatment of RBCs with Cs-g-PAMAM (G=2,3) at 50 μg/mL and 100 μg/mL induced a slightly higher hemolysis than Cs, and Cs-g-PAMAM (G=3) caused a slightly higher hemolysis than Cs-g-PAMAM (G=2), but all values were <5.0%. Optical microscopic and atomic force microscopic examinations indicated that Cs-g-PAMAM (G=2,3) caused slight RBC aggregation and lysis. Treatment of RBCs with 100 μg/mL Cs-g-PAMAM (G=3) induced echinocytic transformation, and RBCs displayed characteristic irregular contour due to the folding of the periphery. Drephanocyte-like RBCs were observed when treated with 100 μg/mL Cs-g-PAMAM (G=3). Erythrocytes underwent similar shape transition upon treatment with Cs-g-PAMAM (G=2) or Cs. The roughness values (Rms) of RBCs incubated with Cs-g-PAMAM (G=2,3) were significantly larger than those for RBCs incubated with physiological saline (P<0.01), but the Rms showed no difference for Cs and Cs-g-PAMAM (G=2,3) (P>0.05). Furthermore, Cs-g-PAMAM (G=2,3) exhibited a lower cytotoxicity in human kidney 293T cells. These results indicate that Cs-g-PAMAM (G=2,3) are hemocompatible but may disturb membrane and lipid structures at higher concentrations. Further safety and biocompatibility evaluations are warranted for Cs-g-PAMAM. Our findings prove helpful for a better understanding of the advantages of combining PAMAM dendrimers and chitosan to design and develop new, safe, and effective drug delivery vehicles.

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Fang Shu Lu

Biocompatible Microcapsule of Carboxymethyl Cellulose/Chitosan as Drug Carrier

A study on the hemocompatibility of dendronized chitosan derivatives in red blood cells

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