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Incorporation of Carvedilol into PAMAM-functionalized MWNTs as a sustained drug delivery system for enhanced dissolution and drug-loading capacity
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作者 Xin Zheng Tianyi Wang +4 位作者 Haitao Jiang Yuting Li Tongying Jiang Jinghai Zhang Siling Wang 《Asian Journal of Pharmaceutical Sciences》 SCIE CAS 2013年第5期278-286,共9页
The purpose of this study was to develop poly(amidoamine)(PAMAM)-functionalized multi-walled carbon nanotubes(MWNTs)loaded with a poorly water-soluble drug,intended to improve the drug-loading capacity,dissolution an... The purpose of this study was to develop poly(amidoamine)(PAMAM)-functionalized multi-walled carbon nanotubes(MWNTs)loaded with a poorly water-soluble drug,intended to improve the drug-loading capacity,dissolution and design a sustained release system.MWNTs were modified with a carboxyl group by acid treatment and then complex with PAMAM.PAMAM-MWNTs were investigated as a scaffold for loading the model drug,Carvedilol(CAR),using three different methods(the fusion method,the incipient wetness impregnation method,and the solvent method).The effects of different pore size,specific surface area and physical state were systematically studied using FT-IR,TGA,SEM,DSC,nitrogen adsorption,XPS and XRD.All the samples made by PAMAM-MWNTs to load the drug had a marked effect on the drug-loading capacity as well as drug dissolution,especially theⅡ-30%. 展开更多
关键词 PAMAM-MWNTs Drug delivery Drug-loading improved dissolution Sustained release
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Role of Polyethylene Glycol and Silica for Dissolution Enhancement of Cefuroxime Axetil: In-Vitro Performance Evaluation and Characterization
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作者 Mst. Boby Aktar Bithy Milon Kumar Ghosh +3 位作者 Ashim Kumar Md. Rafiqul Islam Khan Mir Imam Ibne Wahed Ranjan Kumar Barman 《Pharmacology & Pharmacy》 CAS 2023年第5期156-175,共20页
Cefuroxime Axetil (CA) a widely used cephalosporin antibiotic displays low aqueous solubility and high membrane penetrability. This results in its solubility driven variable and/or low oral bioavailability and therape... Cefuroxime Axetil (CA) a widely used cephalosporin antibiotic displays low aqueous solubility and high membrane penetrability. This results in its solubility driven variable and/or low oral bioavailability and therapeutic efficacy as a major drawback. Thus, most of the goal of our study was to increase the solubility as well as dissolution rate of CA using the simple and cost-effective solid dispersion (SD) method. At first, the SD formulations of CA were prepared at various weight ratios of Carplex-67 and PEG-4000 by solvent evaporation technique. These new formulations were then subjected to an in-vitro drug release performance study and tested for physicochemical characterization to distinguish the thermal behavior, crystallinity, interactions phenomena, and surface morphology. Among the formulated Cefuroxime Axetil Solid Dispersion (CSD), CSD-8 which contained CA, Carplex-67, and PEG-4000 at the weight ratio 1:3:2, respectively showed the most significant (p in-vitro dissolution in water, Gastric Simulated Fluid (GSF), and Intestinal Simulated Fluid (ISF). This study also showed a significant (p < 0.001) increase in drug release compared to the marketed product. Therefore, it is supposed to be a promising alternative to conventional antimicrobial therapy. 展开更多
关键词 Carplex-67 Cefuroxime Axetil improved dissolution PEG-4000 Solid Dispersion Solvent Evaporation
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Dissolution improvement of fenofibrate by melting inclusion in mesoporous silica 被引量:1
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作者 Fumiaki Uejo Waree Limwikrant +1 位作者 Kunikazu Moribe Keiji Yamamoto 《Asian Journal of Pharmaceutical Sciences》 SCIE CAS 2013年第6期329-335,共7页
In this study,using mesoporous silica for the solubility enhancement of poorly watersoluble drug was investigated.Although the incorporating drug into mesoporous silica is generally performed through the solvent meth... In this study,using mesoporous silica for the solubility enhancement of poorly watersoluble drug was investigated.Although the incorporating drug into mesoporous silica is generally performed through the solvent method,the new melting method was proposed in the present study.Fenofibrate,a poorly water-soluble drug,was incorporated into mesoporous silica by solvent method and melting method.The obtained samples were observed by SEM and their physicochemical properties were evaluated by PXRD and DSC measurement.The dissolution and supersaturated property were also investigated.The results from SEM,PXRD and DSC measurement showed that drug could be loaded into pore via the melting method as well as by the solvent method.The drug loaded quantity depended on the pore volume.Drug up to 33%could be incorporated into mesoporous silica and existed in amorphous state.When drug was overloaded or difficulty in incorporation into pore was found,recrystallization of drug occurred at the outer surface of mesoporous silica.From the dissolution test,samples prepared by solvent method and melting method gave the supersaturated drug concentration which sample from melting method showed superior dissolution to the one from solvent method.From this study,drug was efficiently incorporated into mesoporous silica by the melting method which is a simple and solvent-free process,and the aqueous solubility enhancement of poorly watersoluble drug was achieved. 展开更多
关键词 Mesoporous silica Poorly water-soluble drugs FENOFIBRATE Melting method dissolution improvement
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