期刊文献+
共找到7篇文章
< 1 >
每页显示 20 50 100
Pharmaceutical particle technologies: An approach to improve drug solubility, dissolution and bioavailability 被引量:16
1
作者 Prakash Khadka Jieun Ro +6 位作者 Hyeongmin Kim Iksoo Kim Jeong Tae Kim Hyunil Kim Jae Min Cho Gyiae Yun Jaehwi Lee 《Asian Journal of Pharmaceutical Sciences》 SCIE CAS 2014年第6期304-316,共13页
Pharmaceutical particle technology is employed to improve poor aqueous solubility of drug compounds that limits in vivo bioavailability owing to their low dissolution rate in the gastrointestinal fluids following oral... Pharmaceutical particle technology is employed to improve poor aqueous solubility of drug compounds that limits in vivo bioavailability owing to their low dissolution rate in the gastrointestinal fluids following oral administration.The particle technology involves several approaches from the conventional size reduction processes to the newer,novel particle technologies that modify the solubility properties of the drugs and produce solid,powdered form of the drugs that are readily soluble in water and can be easily formulated into various dosage forms.This review highlights the solid particle technologies available for improving solubility,dissolution and bioavailability of drugs with poor aqueous solubility. 展开更多
关键词 Particle technology drug solubility Poorly water soluble drug solubility enhancement DISSOLUTION
下载PDF
Overview of milling techniques for improving the solubility of poorly water-soluble drugs 被引量:7
2
作者 Zhi Hui Loh Asim Kumar Samanta Paul Wan Sia Heng 《Asian Journal of Pharmaceutical Sciences》 SCIE CAS 2015年第4期255-274,共20页
Milling involves the application of mechanical energy to physically break down coarse particles to finer ones and is regarded as a“topedown”approach in the production of fine particles.Fine drug particulates are esp... Milling involves the application of mechanical energy to physically break down coarse particles to finer ones and is regarded as a“topedown”approach in the production of fine particles.Fine drug particulates are especially desired in formulations designed for parenteral,respiratory and transdermal use.Most drugs after crystallization may have to be comminuted and this physical transformation is required to various extents,often to enhance processability or solubility especially for drugs with limited aqueous solubility.The mechanisms by which milling enhances drug dissolution and solubility include alterations in the size,specific surface area and shape of the drug particles as well as millinginduced amorphization and/or structural disordering of the drug crystal(mechanochemical activation).Technology advancements in milling now enable the production of drug micro-and nano-particles on a commercial scale with relative ease.This review will provide a background on milling followed by the introduction of common milling techniques employed for the micronization and nanonization of drugs.Salient information contained in the cited examples are further extracted and summarized for ease of reference by researchers keen on employing these techniques for drug solubility and bioavailability enhancement. 展开更多
关键词 drug solubility Fluid energy milling Ball milling Media milling High pressure homogenization CRYOMILLING
下载PDF
An emerging terpolymeric nanoparticle pore former as an internal recrystallization inhibitor of celecoxib in controlled release amorphous solid dispersion beads:Experimental studies and molecular dynamics analysis
3
作者 Jamie Anne Lugtu-Pe Xuning Zhang +7 位作者 Sako Mirzaie Hao Han R.Chang Nour AL-Mousawi Kuan Chen Yongqiang Li Anil Kane Daniel Bar-Shalom Xiao Yu Wu 《Acta Pharmaceutica Sinica B》 SCIE CAS CSCD 2024年第6期2669-2684,共16页
Solid oral controlled release formulations feature numerous clinical advantages for drug candidates with adequate solubility and dissolution rate.However,most new chemical entities exhibit poor water solubility,and he... Solid oral controlled release formulations feature numerous clinical advantages for drug candidates with adequate solubility and dissolution rate.However,most new chemical entities exhibit poor water solubility,and hence are exempt from such benefits.Although combining drug amorphization with controlled release formulation is promising to elevate drug solubility,like other supersaturating systems,the problem of drug recrystallization has yet to be resolved,particularly within the dosage form.Here,we explored the potential of an emerging,non-leachable terpolymer nanoparticle(TPN)pore former as an internal recrystallization inhibitor within controlled release amorphous solid dispersion(CRASD)beads comprising a poorly soluble drug(celecoxib)reservoir and insoluble polymer(ethylcellulose)membrane.Compared to conventional pore former,polyvinylpyrrolidone(PVP),TPN-containing membranes exhibited superior structural integrity,less crystal formation at the CRASD bead surface,and greater extent of celecoxib release.All-atom molecular dynamics analyses revealed that in the presence of TPN,intra-molecular bonding,crystal formation tendency,diffusion coefficient,and molecular flexibility of celecoxib were reduced,while intermolecular H-bonding was increased as compared to PVP.This work suggests that selection of a pore former that promotes prolonged molecular separation within a nanoporous controlled release membrane structure may serve as an effective strategy to enhance amorphicity preservation inside CRASD. 展开更多
关键词 Controlled release amorphous solid dispersion Poorly soluble drug Internal recrystallization Membrane-reservoir coated beads Molecular dynamics simulation Effect of pore formers Terpolymer nanogel drug-polymer interactions
原文传递
Mesoporous silica nanoparticles for drug and gene delivery 被引量:39
4
作者 Yixian Zhou Guilan Quan +6 位作者 Qiaoli Wu Xiaoxu Zhang Boyi Niua Biyuan Wu Ying Huang Xin Pan Chuanbin Wu 《Acta Pharmaceutica Sinica B》 SCIE CAS CSCD 2018年第2期165-177,共13页
Mesoporous silica nanoparticles(MSNs) are attracting increasing interest for potential biomedical applications. With tailored mesoporous structure, huge surface area and pore volume,selective surface functionality, as... Mesoporous silica nanoparticles(MSNs) are attracting increasing interest for potential biomedical applications. With tailored mesoporous structure, huge surface area and pore volume,selective surface functionality, as well as morphology control, MSNs exhibit high loading capacity for therapeutic agents and controlled release properties if modified with stimuli-responsive groups, polymers or proteins. In this review article, the applications of MSNs in pharmaceutics to improve drug bioavailability, reduce drug toxicity, and deliver with cellular targetability are summarized. Particularly,the exciting progress in the development of MSNs-based effective delivery systems for poorly soluble drugs, anticancer agents, and therapeutic genes are highlighted. 展开更多
关键词 Mesoporous silica nanoparticles Poorly soluble drug Cancer therapy Multidrug resistance Gene delivery
原文传递
Fundamental aspects of solid dispersion technology for poorly soluble drugs 被引量:17
5
作者 Yanbin Huang Wei-Guo Dai 《Acta Pharmaceutica Sinica B》 SCIE CAS 2014年第1期18-25,共8页
The solid dispersion has become an established solubilization technology for poorly water soluble drugs.Since a solid dispersion is basically a drug-polymer two-component system,the drug-polymer interaction is the det... The solid dispersion has become an established solubilization technology for poorly water soluble drugs.Since a solid dispersion is basically a drug-polymer two-component system,the drug-polymer interaction is the determining factor in its design and performance.In this review,we summarize our current understanding of solid dispersions both in the solid state and in dissolution,emphasizing the fundamental aspects of this important technology. 展开更多
关键词 Solid dispersion Poorly soluble drug Phase separation drug-polymer interaction
原文传递
Crystalline inclusion complexes formed between the drug diflunisal and block copolymers
6
作者 Zhi Zhong Xiaotong Yang +4 位作者 Xiao-Bin Fu Ye-Feng Yao Bao-Hua Guo Yanbin Huang Jun Xu 《Chinese Chemical Letters》 SCIE CAS CSCD 2017年第6期1268-1275,共8页
The solid form of drugs plays a central role in optimizing the physicochemical properties of drugs,and new solid forms will provide more options to achieve the desirable pharmaceutical profiles of drugs.Recently,certa... The solid form of drugs plays a central role in optimizing the physicochemical properties of drugs,and new solid forms will provide more options to achieve the desirable pharmaceutical profiles of drugs.Recently,certain drugs have been found to form crystalline inclusion complexes(ICs) with multiple types of linear polymers,representing a new subcategory of pharmaceutical solids.In this study,we used diflunisal(DIF) as the model drug host and extended the guest of drug/polymer ICs from homopolymers to block copolymers of poly(ethylene glycol)(PEG) and poly(s-caprolactone)(PCL).The block length in the guest copolymers showed a significant influence on the formation,thermal stability and dissolution behavior of the DIF ICs.Though the PEG block could hardly be included alone,it could indeed be included in the DIF ICs when the PCL block was long enough.The increase of the PCL block length produced IC crystals with improved thermal stability.The dissolution profiles of DIF/block copolymer ICs exhibited gradually decreased aqueous solubility and dissolution rate with the increasing PCL block length.These results demonstrate the possibility of using drug/polymer ICs to modulate the desired pharmaceutical profiles of drugs in a predictable and controllable manner. 展开更多
关键词 Pharmaceutical solid forms Inclusion complexes drugs Block copolymers Thermal stability Aqueous solubility Dissolution profiles
原文传递
Use of the liquisolid compact technique for improvement of the dissolution rate of valsartan 被引量:4
7
作者 Chella Naveen Nalini Shastri Rama Rao Tadikonda 《Acta Pharmaceutica Sinica B》 SCIE CAS 2012年第5期502-508,共7页
The aim of this study was to improve the dissolution rate of the poorly soluble drug valsartan by delivering the drug as a liquisolid compact.Liquisolid compacts were prepared using propylene glycol as solvent,Avicel ... The aim of this study was to improve the dissolution rate of the poorly soluble drug valsartan by delivering the drug as a liquisolid compact.Liquisolid compacts were prepared using propylene glycol as solvent,Avicel PH102 as carrier,and Aerosil 200 as the coating material.The crystallinity of the newly formulated drug and the interaction between excipients was examined by X-ray powder diffraction and Fourier-transform infrared spectroscopy,respectively.The dissolution studies for the liquisolid formula-tion and the marketed product were carried out at different pH values.The results showed no change in the crystallinity of the drug and no interaction between excipients.The dissolution efficiency of valsartan at 15 min was increased from 4.02% for plain drug and 13.58% for marketed product to 29.47% for the liquisolid formulation.The increase in the dissolution rate was also found to be significant compared to the marketed product at lower pH values,simulating the gastric environment where valsartan is largely absorbed.The liquisolid technique appears to be a promising approach for improving the dissolution of poorly soluble drugs like valsartan. 展开更多
关键词 Liquisolid compact VALSARTAN DISSOLUTION Poorly soluble drug
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部