Similar to blood,interstitial fluid(ISF)contains exogenous drugs and biomarkers and may therefore substitute blood in drug analysis.However,current ISF extraction techniques require bulky instruments and are both time-consuming and complicated,which has inspired the development of viable alterna-tives such as those relying on skin or tissue puncturing with microneedles.Currently,microneedles are widely employed for transdermal drug delivery and have been successfully used for ISF extraction by different mechanisms to facilitate subsequent analysis.The integration of microneedles with sensors enables in situ ISF analysis and specific compound monitoring,while the integration of monitoring and delivery functions in wearable devices allows real-time dose modification.Herein,we review the progress in drug analysis based on microneedle-assisted ISF extraction and discuss the related future opportunities and challenges.

Erythrocytes (red blood cells, RBCs) are the most abundant circulating cells in the blood and have been widely used in drug delivery systems (DDS) because of their features of biocompatibility, biodegradability, and long circulating half-life. Accordingly, a "camouflage" comprised of erythrocyte membranes renders nanoparticles as a platform that combines the advantages of native erythrocyte membranes with those of nanomaterials. Following injection into the blood of animal models, the coated nanoparticles imitate RBCs and interact with the surroundings to achieve long-term circulation. In this review, the biomimetic platform of erythrocyte membrane-coated nano-cores is described with regard to various aspects, with particular focus placed on the coating mechanism, preparation methods, verification methods, and the latest anti-tumor applications. Finally, further functional modifications of the erythrocyte membranes and attempts to fuse the surface properties of multiple cell membranes are discussed, providing a foundation to stimulate extensive research into multifunctional nano-biomimetic systems.

In recent years ,as a novel drug delivery system ,gold nanoparticles have attracted widespread attention .Be-cause of their special physicochemical properties ,such as quantum size effect ,unique optical phenomenon ,easily reacting with thiol compounds or disulfides and so on ,gold nanoparticles can delivery variety of types of drugs ,like proteins ,nucleic acid , small molecular drugs ,therefore they can be applied in tumor treatment and detection .In this paper the preparation of drug-loading gold nanoparticles ,their drug-loading ways and safety issues were reviewed .

Objective To investigate the immunoregulatory effect of Fasudil-modified macrophages on cell transferred experimental autoimmune encephalomyelitis ( EAE) in a mouse model.Methods Fe-male C57BL/6 mice were immunized with MOG35-55 to establish the model of EAE.The encephalomyelitic mononuclear cells ( MNCs) were isolated from spleen of mice with EAE on day 9 after immunization and treated with or without Fasudil for 72 h in vitro.Several assays including the flow cytometry analysis, Griess reaction and ELISA were performed to analyze the M1 and M2 phenotypes of macrophages, the production of NO and the levels of cytokines, respectively.The cultured MNCs (5×107 cells) were resuspended in 500μl of PBS and transferred into na?ve C57BL/6 recipients via intraperitoneal injection.Two groups including the PBS-MNCs group and the Fasudil-MNCs group were set up.The body weights and clinical scores of the mice in each group were recorded in every other days after the induction of EAE in the recipients.Results The Fasudil treated MNCs affected the induction of EAE in adoptive cell transferred mice.The expression of CD16/32, iNOS and IL-12 on F4/80-macrophages were decreased, while the expression of CD206, CD23 and IL-10 on F4/80-macrophages were increased upon the treatment of Fasudil, indicating that Fasudil im-proved the differentiation of macrophages from M1 to M2 phenotypes.Moreover, Fasudil inhibited the pro-duction of NO and enhanced the expression of Arginase-1.Conclusion Fasudil ameliorated the clinical se-verity of EAE in mice by promoting the transformation of macrophages from M1 to M2 phenotype.

OBJECTIVETo prepare vincristine sulphate loaded poly (butylcyanoacrylate) nanoparticles (VCR-PBCA-NPs) and to investigate the in vitro release charactersitics.

METHODVCR-PBCA-NPs were prepared by emulsion polymerization method, and characterized for morphology, particle size, drug encapsulation efficiency and loading efficiency. The formulation was optimized using central composite design and response surface methodology. In vitro release study of VCR-PBCA-NPs was performed by dialysis technique. Model fitting was used to determine the kinetics and to discuss the mechanism.

RESULTThe nanoparticles were spherical and uniform with a mean diameter of (98.9 +/- 3.05) nm. The drug encapsulation efficiency and loading efficiency were (55.23 +/- 0.96)% and (7.87 +/- 0.11)%, respectively. In vitro release results showed that 63.66% of VCR was released from VCR-PBCA-NPs in 4 h, and the Weibull model fitted VCR release pattern best.

CONCLUSIONThe VCR-PBCA-NPs prepared in this study showed sustained release compared with VCR solution.

Chemistry, Pharmaceutical ; methods ; Cyanoacrylates ; analysis ; Delayed-Action Preparations ; chemistry ; Drug Carriers ; chemistry ; Drug Compounding ; methods ; Emulsions ; Enbucrilate ; chemistry ; In Vitro Techniques ; Nanoparticles ; chemistry ; Particle Size ; Vincristine ; chemistry

OBJECTIVETo investigate the stability of oridonin (ORI) solution for research and development of novel ORI prepartions.

METHODThe effect of pH on the degradation rate of ORI was evaluated, the pH values of the oridonin solutions were adjusted to the setting pH, with 1 mol x L(-1) HCl or NaOH, respectively, and stored at room temperature for 60 h. The constant temperature method was applied to evaluate the stability of ORI solution at room temperature and at 4 degrees C.

RESULTThe pH-rate profile of ORI was V-shaped, and the pHm was 5. The t90 of ORI solution at room temperature was 53.2 h and 91.5 h at 4 degrees C CONCLUSION: The ORI solution is not stable. The pH-dependent degradation of ORI solution confirms to specific acid-base catalysis reaction.

Diterpenes, Kaurane ; chemistry ; Drug Stability ; Hydrogen-Ion Concentration ; Solubility ; Solutions ; Temperature ; Time Factors ; Water ; chemistry

OBJECTIVETo prepare and evaluate brucine-loaded polylacticacid nanoparticles (Bru-PLA-NPs).

METHODThe Bru-PLA-NPs were prepared by solvent diffusion method. The physical, chemical properties and in vitro release behavior of the prepared Bru-PLA-NPs were evaluated, respectively.

RESULTThe mean particle size of the prepared Bru-PLA-NPs was 95 nm with polydispersity index of 0.362. The zeta potential was -15.68 mV. The mean loading and entrapment efficiency of Bru were 7% and 37%, respectively. Compared with Bru solution, an obvious sustained release behavior of Bru from Bru-PLA-NPs was observed in the in vitro release experiment.

CONCLUSIONThe Bru-PLA-NPs prepared by solvent diffusion method exhibit small particle size, high Bru-loading efficiency, and obvious sustained release in vitro

Drug Carriers ; chemistry ; Drug Delivery Systems ; methods ; Drugs, Chinese Herbal ; chemistry ; Kinetics ; Lactic Acid ; chemistry ; Nanoparticles ; chemistry ; Particle Size ; Polyesters ; Polymers ; chemistry ; Strychnine ; analogs & derivatives ; chemistry

OBJECTIVETo study plasma protein binding rate of bufalin.

METHODHPLC was employed to determine the concentration of bufalin. Plasma protein binding rate studies were conducted by equilibrium dialysis method. The influence of drug concentration and plasma in different species on plasma protein binding rate were studied.

RESULTThere was no significant difference in the plasma protein binding rates at low, middle and high bufalin concentrations in dilution medium. The protein binding rate of bufalin in human plasma was higher than in the rat plasma.

CONCLUSIONBufalin has higher protein binding extent with both rat plasma and human plasma.

Animals ; Blood Proteins ; chemistry ; Bufanolides ; chemistry ; Humans ; Kinetics ; Male ; Protein Binding ; Rats ; Rats, Sprague-Dawley

Bone marrow mesenchymal stem cells have received great attention in the studies of therapeutic methods of cerebral ischemia in recent years. This article reviews its research Status Quo and some unsolved problems.

AIM　To explore the biotransformation of compound 7-(4-chlorbenzyl)-7,8,13,13a-tetrahydroberberine in the rabbit. METHODS　Analyze the rabbit bile sample with HPLC, LC/MS and LC/NMR. RESULTS　A metabolite and unchanged 7-(4-chlorbenzyl)-7,8,13,13a-tetrahydroberberine were found in the rabit bile, the metabolite was characterized and its structure was elucidated. CONCLUSION　Compound 7-(4-chlorbenzyl)-7,8,13,13a-tetrahydroberberine is metabolized by demethylation at 10-OCH3 position.