Preparation of 5‐Fluorouracil‐Poly(<scp>L</scp>‐lactide) Microparticles Using Solution‐Enhanced Dispersion by Supercritical CO<sub>2</sub>

Chen, Ai-Zheng; Pu, Ximing; Kang, Yunqing; Liao, Li; Yao, Yadong; Yin, Guofu

doi:10.1002/marc.200600221

Cited by 58 publications

(40 citation statements)

References 22 publications

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“…The research groups of Ghaderi, Lee, and Rantakyla, had reported their findings on the preparation of PLA and copolymer microparticles via SAS process separately [13,22,25]. In our previous studies [36,37], we had succeeded in micronizing PLLA with various molecular weight using different processing conditions, and loading 5-Fluorouracil into PLLA microparticles, via SEDS process. However, to our knowledge, few researchers reported that paclitaxel was encapsulated into PLA-PEG-PLA triblock copolymer microparticles by scCO 2 technique in the SEDS process.…”

Section: Introductionmentioning

confidence: 96%

Fabrication of hydrophilic paclitaxel-loaded PLA-PEG-PLA microparticles via SEDS process

Ouyang

Kang

Yin

et al. 2009

Front. Mater. Sci. China

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In this work, chemically bonded poly(D, Llactide)-polyethylene glycol-poly(D, L-lactide) (PLA-PEG-PLA) triblock copolymers with various PEG contents and PLA homopolymer were synthesized via melt polymerization, and were confirmed by FTIR and 1 H-NMR results. The molecular weight and polydispersity of the synthesized PLA and PLA-PEG-PLA copolymers were investigated by gel permeation chromatography. Hydrophilicity of the copolymers was identified by contact angle measurement. PLA-PEG-PLA and PLA microparticles loaded with and without PTX were then produced via solution enhanced dispersion by supercritical CO 2 (SEDS) process. The effect of the PEG content on the particle size distribution, morphology, drug load, and encapsulation efficiency of the fabricated microparticles was also studied. Results indicate that PLA and PLA-PEG-PLA microparticles all exhibit sphere-like shape with smooth surface, when PEG content is relatively low. The produced microparticles have narrow particle size distributions and small particle sizes. The drug load and encapsulation efficiency of the produced microparticles decreases with higher PEG content in the copolymer matrix. Moreover, high hydrophilicity is found when PEG is chemically attached to originally hydrophobic PLA, providing the produced drug-loaded microparticles with high hydrophilicity, biocompatibility, and prolonged circulation time, which are considered of vital importance for vesselcirculating drug delivery system.

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Section: Introductionmentioning

confidence: 96%

Fabrication of hydrophilic paclitaxel-loaded PLA-PEG-PLA microparticles via SEDS process

Ouyang

Kang

Yin

et al. 2009

Front. Mater. Sci. China

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“…25,26 Curcumin is widely used as an anticancer agent in preclinical and clinical trials, probably due to their capability of generating intracellular ROS. However, this drug is poorly soluble in water, which restricts it from being directly used in aqueous solutions.…”

Section: Discussionmentioning

confidence: 99%

“…24 5-Fluorouracil (5-FU) is another highly efficient chemotherapeutic agent that inhibits the methylation reaction of deoxyuridylic acid to thymidylic acid. 25,26 This chemical drug can cause intense thymine deficit in the cells by interfering with the synthesis of deoxyribonucleic acid and ribonucleic acid, which eventually results in an imbalanced growth and death of cancer cells. To increase their water solubility and biocompatibility, several drug carriers are developed based on nanotechnology, 27 ranging from liposome, 28 proteins, 29 saccharides, 30 phospholipids, 31 to inorganic silica particles 32,33 and polymeric organic nanoparticles.…”

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confidence: 99%

Self-assembled silk fibroin nanoparticles loaded with binary drugs in the treatment of breast carcinoma

Li¹,

Tian²,

Wu³

et al. 2016

IJN

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Self-assembled nanoparticles of the natural polymer, silk fibroin (SF), are a very promising candidate in drug delivery due to their biocompatible and biodegradable properties. In this study, SF nanoparticles loaded with 5-fluorouracil (5-FU) and curcumin with size 217±0.4 nm and with a loading efficacy of 45% and 15% for 5-FU and curcumin, respectively, were prepared. The in vitro release effect of 5-FU and curcumin from nanoparticles was evaluated as ~100% and ~5%, respectively. It has been revealed that the application of such a nanodrug can increase the level of reactive oxygen species, which in turn induces apoptosis of cancer cells in vitro. Animal studies have shown that tumors could be noticeably reduced after being injected with the drug-entrapped nanoparticles. More apoptotic cells were found after 7 days of treatment with SF nanoparticles by a hematoxylin–eosin staining assay. These results demonstrate the future potential of nanoparticle-loaded binary drugs in the treatment of breast cancer.

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“…Solution-enhanced dispersion by supercritical fluids (SEDS) is one of the SFP processes that have attracted high attention in producing high-quality drug composite microparticles. Some successful examples include: composite crystals of acetaminophen and p-acetoxyacetanilide [6], budesonide-b-cyclodextrin complexes [7], microencapsulation of amoxicillin in poly(L-lactic acid) [8], 5-fluorouracil-poly-(L-lactide) microparticles [9], budesonide-c-cyclodextrin complexes [10], etc. In our previous works, the SEDS-prefilming atomization (PA) process has been also successfully applied to deposit the composite microparticles of polyethylene glycol (PEG) loaded with natural carotene [2] and caroteneproanthocyanidin composite microparticles [11].…”

Section: Introductionmentioning

confidence: 99%

Preparation of Emodin‐Polyethylene Glycol Composite Microparticles Using a Supercritical Antisolvent Process

et al. 2011

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Emodin-polyethylene glycol (PEG) composite microparticles were obtained from a dichloromethane-methanol mixture via the solution-enhanced dispersion by supercritical fluids through prefilming atomization (SEDS-PA) process. Morphologies, particle sizes (PSs), and emodin contents of the composite microparticles were analyzed by scanning electron microscopy and UV-visible spectrophotometry. The crystallinity change of emodin before and after the SEDS-PA process was demonstrated by X-ray powder diffraction (XRD). The composite microparticles present nubbly, rod-like emodin dispersed in PEG or a nubbly, sheet emodin inlay on PEG, with PSs ranging between 3 and 12 lm. The PSs of the composite microparticles increase with the increase of temperature, decrease with the increase of pressure, and do not seem to depend on the emodin content of the initial solute and on the solution flow rate. The emodin contents of the composite microparticles increase with the increasing emodin content in the initial solute and temperature and decrease with increasing solution flow rate.

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Preparation of 5‐Fluorouracil‐Poly(L‐lactide) Microparticles Using Solution‐Enhanced Dispersion by Supercritical CO₂

Cited by 58 publications

References 22 publications

Fabrication of hydrophilic paclitaxel-loaded PLA-PEG-PLA microparticles via SEDS process

Fabrication of hydrophilic paclitaxel-loaded PLA-PEG-PLA microparticles via SEDS process

Self-assembled silk fibroin nanoparticles loaded with binary drugs in the treatment of breast carcinoma

Preparation of Emodin‐Polyethylene Glycol Composite Microparticles Using a Supercritical Antisolvent Process

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Preparation of 5‐Fluorouracil‐Poly(L‐lactide) Microparticles Using Solution‐Enhanced Dispersion by Supercritical CO2

Cited by 58 publications

References 22 publications

Fabrication of hydrophilic paclitaxel-loaded PLA-PEG-PLA microparticles via SEDS process

Fabrication of hydrophilic paclitaxel-loaded PLA-PEG-PLA microparticles via SEDS process

Self-assembled silk fibroin nanoparticles loaded with binary drugs in the treatment of breast carcinoma

Preparation of Emodin‐Polyethylene Glycol Composite Microparticles Using a Supercritical Antisolvent Process

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Preparation of 5‐Fluorouracil‐Poly(L‐lactide) Microparticles Using Solution‐Enhanced Dispersion by Supercritical CO₂