The synthesis and phase behavior of a series of 4'-alkyloxy -4-hydroxy biphenyls were discribed.The effects of reaction conditions on the yields of products were investigated.The characterizations of thermotropic ...The synthesis and phase behavior of a series of 4'-alkyloxy -4-hydroxy biphenyls were discribed.The effects of reaction conditions on the yields of products were investigated.The characterizations of thermotropic liquid crystalline products for the type and thermal properties are discussed through the use of differential scanning calorimetry,polarizing microscopy.展开更多
The use of lipid nanocarriers for drug delivery applications is an active research area,and a great interest has particularly been shown in the past two decades.Among different lipid nanocarriers,ISAsomes(Internally s...The use of lipid nanocarriers for drug delivery applications is an active research area,and a great interest has particularly been shown in the past two decades.Among different lipid nanocarriers,ISAsomes(Internally self-assembled somes or particles),including cubosomes and hexosomes,and solid lipid nanoparticles(SLNs)have unique structural features,making them attractive as nanocarriers for drug delivery.In this contribution,we focus exclusively on recent advances in formation and characterization of ISAsomes,mainly cubosomes and hexosomes,and their use as versatile nanocarriers for different drug delivery applications.Additionally,the advantages of SLNs and their application in oral and pulmonary drug delivery are discussed with focus on the biological fates of these lipid nanocarriers in vivo.Despite the demonstrated advantages in in vitro and in vivo evaluations including preclinical studies,further investigations on improved understanding of the interactions of these nanoparticles with biological fuids and tissues of the target sites is necessary for effcient designing of drug nanocarriers and exploring potential clinical applications.展开更多
Microemulsions are promising drug delivery systems for the oral administration of poorly watersoluble drugs. However, the evolution of microemulsions in the gastrointestinal tract is still poorly characterized,especia...Microemulsions are promising drug delivery systems for the oral administration of poorly watersoluble drugs. However, the evolution of microemulsions in the gastrointestinal tract is still poorly characterized,especially the structural change of microemulsions under the effect of lipase and mucus. To better understand the fate of microemulsions in the gastrointestinal tract, we applied small-angle X-ray scattering(SAXS) and fluorescence resonance energy transfer(FRET) to monitor the structural change of microemulsions under the effect of lipolysis and mucus. First, the effect of lipolysis on microemulsions was studied by SAXS, which found the generation of liquid crystalline phases. Meanwhile, FRET spectra indicated micelles with smaller particle sizes were generated during lipolysis, which could be affected by CaCl_2, bile salts and lecithin. Then, the effect of mucus on the structural change of lipolysed microemulsions was studied. The results of SAXS and FRET indicated that the liquid crystalline phases disappeared, and more micelles were generated. In summary, we studied the structural change of microemulsions in simulated gastrointestinal conditions by SAXS and FRET, and successfully monitored the appearance and disappearance of the liquid crystalline phases and micelles.展开更多
文摘The synthesis and phase behavior of a series of 4'-alkyloxy -4-hydroxy biphenyls were discribed.The effects of reaction conditions on the yields of products were investigated.The characterizations of thermotropic liquid crystalline products for the type and thermal properties are discussed through the use of differential scanning calorimetry,polarizing microscopy.
基金Financial support to Anan Yaghmur for studies on development of drug nanocarriers based on cubosomes and hexosomes by the Danish Council for Independent Research|Technology and Production Sciences(references 1335-00150b and DFF-7017-00065,Denmark)。
文摘The use of lipid nanocarriers for drug delivery applications is an active research area,and a great interest has particularly been shown in the past two decades.Among different lipid nanocarriers,ISAsomes(Internally self-assembled somes or particles),including cubosomes and hexosomes,and solid lipid nanoparticles(SLNs)have unique structural features,making them attractive as nanocarriers for drug delivery.In this contribution,we focus exclusively on recent advances in formation and characterization of ISAsomes,mainly cubosomes and hexosomes,and their use as versatile nanocarriers for different drug delivery applications.Additionally,the advantages of SLNs and their application in oral and pulmonary drug delivery are discussed with focus on the biological fates of these lipid nanocarriers in vivo.Despite the demonstrated advantages in in vitro and in vivo evaluations including preclinical studies,further investigations on improved understanding of the interactions of these nanoparticles with biological fuids and tissues of the target sites is necessary for effcient designing of drug nanocarriers and exploring potential clinical applications.
基金supported by the National Natural Science Foundation of China (Grant No. 81703606)the Educational Committee Foundation of Liaoning Province (Grant No. L2016026)the Fundamental Research Funds for the Central Universities (Grant no. wd01185)
文摘Microemulsions are promising drug delivery systems for the oral administration of poorly watersoluble drugs. However, the evolution of microemulsions in the gastrointestinal tract is still poorly characterized,especially the structural change of microemulsions under the effect of lipase and mucus. To better understand the fate of microemulsions in the gastrointestinal tract, we applied small-angle X-ray scattering(SAXS) and fluorescence resonance energy transfer(FRET) to monitor the structural change of microemulsions under the effect of lipolysis and mucus. First, the effect of lipolysis on microemulsions was studied by SAXS, which found the generation of liquid crystalline phases. Meanwhile, FRET spectra indicated micelles with smaller particle sizes were generated during lipolysis, which could be affected by CaCl_2, bile salts and lecithin. Then, the effect of mucus on the structural change of lipolysed microemulsions was studied. The results of SAXS and FRET indicated that the liquid crystalline phases disappeared, and more micelles were generated. In summary, we studied the structural change of microemulsions in simulated gastrointestinal conditions by SAXS and FRET, and successfully monitored the appearance and disappearance of the liquid crystalline phases and micelles.
