Solvent evaporation method for preparation of nanomatrix has the disadvantages,such as residual organic solvent,environmental pollution,explosion-proofing and so on.To overcome these shortcomings,a series of fenofibra...Solvent evaporation method for preparation of nanomatrix has the disadvantages,such as residual organic solvent,environmental pollution,explosion-proofing and so on.To overcome these shortcomings,a series of fenofibrate nanomatrix drug delivery system(NDDS)consisting of nano-porous silica Sylysia■350(S350)and pH sensitive material Eudragit■L100-55(EL100-55)were prepared using hot-melt extrusion(HME),and their in vitro dissolution and in vivo bioavailability were compared.Finally,the formulation with the highest in vivo bioavailability was selected as the optimized formulation for DSC and PXRD characterization.The results showed that the optimized NDDS showed a higher bioavailability than the reference formulation,although there was crystalline form drug remaining in NDDS.The relative bioavailability of the optimized formulation was 157.1%compared with the commercial product Lipanthyl■.In addition,the relative bioavailability of the optimized formulation was 124.8%in comparison with the formulation prepared by solvent evaporation method,showing that the NDDS prepared by the HME method was effective in improving the bioavailability of fenofibrate.In conclusion,HME was a promising method to prepare NDDS.展开更多
The completed skeletal muscle regeneration resulted from severe injury and muscle-related disease is still a challenge.Here,we developed an injectable muscle-adhesive antioxidant conductive bioactive photothermo-respo...The completed skeletal muscle regeneration resulted from severe injury and muscle-related disease is still a challenge.Here,we developed an injectable muscle-adhesive antioxidant conductive bioactive photothermo-responsive nanomatrix for regulating the myogenic differentiation and promoting the skeletal muscle regeneration in vivo.The multifunctional nanomatrix was composed of polypyrrole@polydopamine(PPy@PDA,342±5.6 nm)nanoparticles-crosslinked Pluronic F-127(F127)-polycitrate matrix(FPCP).The FPCP nanomatrix demonstrated inherent multifunctional properties including excellent photothermo-responsive and shear-thinning behavior,muscle-adhesive feature,injectable ability,electronic conductivity(0.48±0.03 S/m)and antioxidant activity and photothermal function.The FPCP nanomatrix displayed better photothermal performance with near-infrared irradiation,which could provide the photo-controlled release of protein(91%±2.6%of BSA was released after irradiated 3 times).Additionally,FPCP nanomatrix could significantly enhance the cell proliferation and myogenic differentiation of mouse myoblast cells(C2C12)by promoting the expressions of myogenic genes(MyoD and MyoG)and myosin heavy chain(MHC)protein with negligible cytotoxicity.Based on the multifunctional properties,FPCP nanomatrix efficiently promoted the full-thickness skeletal muscle repair and regeneration in vivo,through stimulating the angiogenesis and myotube formation.This study firstly indicated the vital role of multifunctional PPy@PDA nanoparticles in regulating myogenic differentiation and skeletal muscle regeneration.This work also suggests that rational design of bioactive matrix with multifunctional feature would greatly enhance the development of regenerative medicine.展开更多
The ability to precisely control the size of semiconductor nanocrystals can create an opportunity for producing functional materials with new properties, which are of importance to applications such as Light emitting ...The ability to precisely control the size of semiconductor nanocrystals can create an opportunity for producing functional materials with new properties, which are of importance to applications such as Light emitting diodes, biomedical diagnosis, solar cells, and spintronics. And size of nanoparticle can be controlled with efficient capping agent. For the same purpose we reported, two types of capping, one will lead to nanomatrix and other to Shelled nanostructures. Enhancement in emission intensity observed with Shell nanostructures compare to matrix. PVP is used to control the particle size, to prevent agglomeration and making thin films. A blue shift in energy level at the nanoscale is demonstrated by optical absorption. Electron microscopy studies with an SEM and TEM show a particle size of 10 nm and 15 nm. We also investigated the particle size distribution of nanoparticles by small angle scattering (SAXS) study.展开更多
基金National Basic Research Program of China(Grant No.2015CB932100)
文摘Solvent evaporation method for preparation of nanomatrix has the disadvantages,such as residual organic solvent,environmental pollution,explosion-proofing and so on.To overcome these shortcomings,a series of fenofibrate nanomatrix drug delivery system(NDDS)consisting of nano-porous silica Sylysia■350(S350)and pH sensitive material Eudragit■L100-55(EL100-55)were prepared using hot-melt extrusion(HME),and their in vitro dissolution and in vivo bioavailability were compared.Finally,the formulation with the highest in vivo bioavailability was selected as the optimized formulation for DSC and PXRD characterization.The results showed that the optimized NDDS showed a higher bioavailability than the reference formulation,although there was crystalline form drug remaining in NDDS.The relative bioavailability of the optimized formulation was 157.1%compared with the commercial product Lipanthyl■.In addition,the relative bioavailability of the optimized formulation was 124.8%in comparison with the formulation prepared by solvent evaporation method,showing that the NDDS prepared by the HME method was effective in improving the bioavailability of fenofibrate.In conclusion,HME was a promising method to prepare NDDS.
基金This work was supported by National Natural Science Foundation of China(Grant No.51872224,51802227)Special Support Program for High Level Talents of Shaanxi Province(Grant No.7122200063)+4 种基金Special Guidance Funds for the Construction of World-class Universities(disciplines)Characteristic Development in Central Universities(grant No.PY3A078)China Postdoctoral Science Foundation(Grant No.2019M653754)Key Laboratory of Shaanxi Province for Craniofacial Precision Medicine Research,College of Stomatology,Xi’an Jiaotong University(Grant No.2018LHM-KFKT004)Wenzhou Science and Technology Bureau Project(Grant No.ZY2019003,Y20190123,Y2020236).
文摘The completed skeletal muscle regeneration resulted from severe injury and muscle-related disease is still a challenge.Here,we developed an injectable muscle-adhesive antioxidant conductive bioactive photothermo-responsive nanomatrix for regulating the myogenic differentiation and promoting the skeletal muscle regeneration in vivo.The multifunctional nanomatrix was composed of polypyrrole@polydopamine(PPy@PDA,342±5.6 nm)nanoparticles-crosslinked Pluronic F-127(F127)-polycitrate matrix(FPCP).The FPCP nanomatrix demonstrated inherent multifunctional properties including excellent photothermo-responsive and shear-thinning behavior,muscle-adhesive feature,injectable ability,electronic conductivity(0.48±0.03 S/m)and antioxidant activity and photothermal function.The FPCP nanomatrix displayed better photothermal performance with near-infrared irradiation,which could provide the photo-controlled release of protein(91%±2.6%of BSA was released after irradiated 3 times).Additionally,FPCP nanomatrix could significantly enhance the cell proliferation and myogenic differentiation of mouse myoblast cells(C2C12)by promoting the expressions of myogenic genes(MyoD and MyoG)and myosin heavy chain(MHC)protein with negligible cytotoxicity.Based on the multifunctional properties,FPCP nanomatrix efficiently promoted the full-thickness skeletal muscle repair and regeneration in vivo,through stimulating the angiogenesis and myotube formation.This study firstly indicated the vital role of multifunctional PPy@PDA nanoparticles in regulating myogenic differentiation and skeletal muscle regeneration.This work also suggests that rational design of bioactive matrix with multifunctional feature would greatly enhance the development of regenerative medicine.
文摘The ability to precisely control the size of semiconductor nanocrystals can create an opportunity for producing functional materials with new properties, which are of importance to applications such as Light emitting diodes, biomedical diagnosis, solar cells, and spintronics. And size of nanoparticle can be controlled with efficient capping agent. For the same purpose we reported, two types of capping, one will lead to nanomatrix and other to Shelled nanostructures. Enhancement in emission intensity observed with Shell nanostructures compare to matrix. PVP is used to control the particle size, to prevent agglomeration and making thin films. A blue shift in energy level at the nanoscale is demonstrated by optical absorption. Electron microscopy studies with an SEM and TEM show a particle size of 10 nm and 15 nm. We also investigated the particle size distribution of nanoparticles by small angle scattering (SAXS) study.
