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This study investigated the effect of different carrier materials on the in vitro properties of progesterone solid dispersions. The solid dispersions of the insoluble drug progesterone were prepared by hot melt extrusion technique using rheological properties as the index of investigation, and the in vitro properties of the solid dispersions were characterized. Scanning electron microscope revealed solid dispersions with rough surfaces and agglomerated microstructures into irregular lumpy particles. Differential scanning calorimetry and powder X-ray diffraction showed the change of progesterone crystalline form in solid dispersions from crystalline to amorphous state. In vitro dissolution studies showed that solid dispersions prepared with different carrier materials can effectively improve the dissolution rate of drugs. The results of the study showed that the type of carrier material had a significant effect on the in vitro properties of solid dispersions, providing a reference for the study of solid dispersions in the controlled release of insoluble drugs.
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As one of the traditional computer simulation techniques, molecular simulation can intuitively display and quantify molecular structure and explain experimental phenomena from the microscopic molecular level. When the simulation system increases, the amount of calculation will also increase, which will cause a great burden on the simulation system. Coarse-grained molecular dynamics is a method of mesoscopic molecular simulation, which can simplify the molecular structure and improve computational efficiency, as a result, coarse-grained molecular dynamics is often used when simulating macromolecular systems such as drug carrier materials. In this article, we reviewed the recent research results of using coarse-grained molecular dynamics to simulate drug carriers, in order to provide a reference for future pharmaceutical preparation research and accelerate the entry of drug research into the era of precision drug design.
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Simulación de Dinámica Molecular , Portadores de FármacosRESUMEN
Silk fibroin is a natural polymer with certain water solubility, structural modification, good biocompatibility and biodegradability, which can be used as a drug delivery carrier material. As a promising drug delivery system, drug-loaded silk fibroin nanoparticles can control drug release, reduce toxicity and improve therapeutic effects. In this paper, the basic characteristics of silk fibroin, the preparation methods of drug-loaded silk fibroin nanoparticles and the application of silk fibroin in nanoparticulate drug delivery systems are reviewed, and on this basis, the further development of drug-loaded silk fibroin nanoparticles is prospected.
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With the rapid development of nanotechnology, the research and development of nanomedicine has become one of the current development directions of drug innovation. The pharmacokinetic characteristics of nanomedicine are significantly different from general drugs because of the scale effect based on nanostructures, and pharmacokinetics studies of nanomedicine may be different from the general drugs. This article focuses on the research strategies and considerations on non-clinical pharmacokinetics of nanomedicine, including test agents, in vivo/in vitro assays, biological sample analysis, data evaluation and analysis etc., providing references for developers.
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Solid dispersions provide an effective technical method for improving solubility and bioavailability of insoluble drugs. From its discovery to the present 60 years, 26 drug formulations have been approved by FDA. Moreover, the preparation technology of solid dispersion system has been continuously innovated and developed, such as electrospinning method, supercritical fluid method, spray freeze-drying technology and so on. In this paper, the development process of solid dispersion technology and carrier is reviewed, and the development of solid dispersion technology and carrier is summarized, and the existing problems are analyzed and prospected. It is expected to provide the reference for the research and development of drug solid dispersion.
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Spironolactone, a class II drug of the biopharmaceutics classification system, has low oral bioavailability due to poor solubility. Spironolactone solid dispersions were prepared using the solvent method in order to improve its aqueous solubility. Optimization studies of spironolactone solid dispersions were performed using in vitro dissolution tests. Differential scanning calorimetry, X-ray diffraction and Fourier transform infrared were used to investigate the physical state of the drug in carrier materials and to detect the possible interactions between the drug and carrier materials in the solid dispersions. In addition, stress tests were employed to elucidate the key factors which have influence on the stability of the spironolactone solid dispersions. Results showed that spironolactone in the solid dispersions formulated with Soluplus and HPMC-E5 were both in amorphous state and the hydrogen bonds between the drug and carrier materials were formed in the solid dispersion. Therefore, the in vitro dissolution of spironolactone was also significantly enhanced. Stress tests demonstrated that the physical stability of spironolactone solid dispersions prepared with Soluplus was greatly improved compared to those formulated with HPMC-E5. Thus, spironolactone solid dispersion formulated with Soluplus using the solvent method could be used to improve the in vitro dissolution and stability of poorly soluble drugs.
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@#Microsphere as a drug delivery system with broad prospect for development and application has always been a research focus in pharmaceutics for its. Though literature survey of related papers published in domestic and foreign journals by Chinese authors in 2016, the research advances of materials of microspheres, which can be divided into natural polymer materials, synthetic polymer materials and inorganic materials, were summarized. Microsphere products at home and abroad were also analyzed. This review will provide some reference for correlative researchers.
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It has been an active approach to screen the active ingredients in traditional Chinese medicines (TCMs) according to the affinity property between small molecule compounds and biomaterials such as cells, bacteria and proteins. On the other hand, the biomaterials can be immobilized on a solid support before the screening procedure. The immobilization method not only can maintain the biological activities of biomaterials, but also have other advantages such as high efficiency, simple operation, easy to be continuous and automatic, etc. Carrier materials (solid supports) for the immobilization including silica gel, magnetic materials, hollow fiber, and the surface plasma resonance sensor chips have been used to immobilize biomaterials and successfully applied in the screening of active ingredients from TCMs. In this paper, applications of immobilization techniques in the screening of active components from TCMs were reviewed to provide a scientific reference to the future applications.
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Nanogels combine the advantages of hydrogels and nanoparticles, such as small particle size, prolonged blood circulation time, biocompatibility, biodegradation and high drug loading. Common carrier materials is used for the preparation of nanogels include polyacrylic acid, polyacrylamide, pluronic, polysaccharide and their derivates. They can be cross-linked based on amine reaction, "click" chemistry, photo-induced cross-linking, physical cross-linking or heterogeneous polymerization of monomers to form nanogel carrier systems. Nanogels, as ideal and novel drug delivery systems, have great promise in the delivery of chemotherapeutic drugs, proteins and genes. The carrier materials, preparation methods and applications of nanogels were reviewed based on relevant articles published in recent years.
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Colorectal cancer is currently the world's fourth incidence of malignant tumors,the early clinical manifestations are not obvious,so the early diagnosis is difficult to find,most of them are in progress.Treatment of advanced stage with chemotherapy,interventional therapy,radiotherapy and other methods,in which chemotherapy in the killing of tumor cells at the same time,the normal cells of the body also has a killing effect.In recent years,all kinds of new nano targeting delivery system has been developed,which can be targeted to the tumor tissue,so it is more and more important in the treatment of intestinal tumor,especially with metastasis.The author has made an overview of the types of nano drug carrier materials,the research status and its application in the research of colorectal cancer.
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This study was aimed to prepare solid dispersions of Acanthopanax leaves total flavonoids in order to im-prove its bioavailability. PEG4000, PEG6000, F68, PVPK30 were used as carrier materials in the preparation of four different types of solid dispersion to screen the best type of carrier material and evaluate the amount of carrier mate-rial and its influence on the drug dissolution. Rutin was used as reference substance. NaNO2-Al(NO3)3-NaOH was used as the color system, with a UV spectrophotometer measured absorbance at 500 nm. The dissolution characteris-tics of different proportions of solid dispersions were examined in vitro. The results showed that compared with raw material, the in vitro drug release rate with PVPK30 as carrier material in the obtained solid dispersion of the pro-portion of the raw material was significantly improved, and the cumulative release rate was also increased significant-ly. It was concluded that the solid dispersion prepared by solvent method significantly improved in vitro drug release in water.
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Implant drug delivery system(IDDS) is helpful to the therapy of infection、tuberculosis and tumor of bone. With the development of tissue engineering, various materials has been used as the carriers for the IDDS. Research of the carrier materials used in implant drug delivery system is reviewed in this article.