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OBJECTIVE:To pre pare Glycyrrhetinic acid-modified docetaxel magnetic nanoparticles (GA-DTX-NGO/IONP- NPs),and to evaluate its physicochemical properties. METHODS :Magnetic nano graphene oxide (NGO/IONP)was chosen as the anti-tumor drug carrier ,docetaxel(DTX)as the model drug and glycyrrhetinic acid (GA)as the target molecule. Firstly ,NGO/ IONP was synthesized by hydrothermal method and GA-CS was synthesized by amidation reaction. Fourier IR spectrometer ,DSC and vibration sample magnetic measuring instrument were used to characterize NGO/IONP and GA-CS. GA-DTX-NGO/IONP-NPs Huperzine A in the nicotinic acetylcholine receptor alleviates Aβ -induced 1-42 treatment of Alzheimer ’s disease and vascular dementia :a neurotoxicity via downregulation of p 38 and JNK MAPK meta-analysis[J]. Evid Based Complement Alternat Med , signaling pathways[J]. Neurochem Int ,2018. DOI :10. 2014. DOI :10.1155/2014/363985. 1016/j.neuint.2018.09.005. were prepared by the ion gelation method. TEM and particle size analyzer were used to observe and determine the morphology , particle size and Zeta potential of GA-DTX-NGO/IONP-NPs ;the ultrafiltration-centrifugation method was used to determine encapsulation efficiency and drug loading amount ;the magnetic properties were investigated by investigating the state with or without external magnetic field ;the photothermal conversion test was carried out with laser irradiation of 808 nm. RESULTS :NGO/ IONP and GA-CS were successfully synthesized ,and NGO/IONP exhibited superparamagnetism characteristics. GA-DTX-NGO/ IONP-NPs were spherical under TEM ,the particle size was (262.8±4.23)nm and the Zeta potential was (13.6±1.51)mV. The encapsulation rate and drug loading amount were (94.29±0.50)% and(17.12±0.12)%,respectively. GA-DTX-NGO/IONP-NPs were black in appearance and evenly dispersed. Under the external magnetic field ,the magnetic nanoparticles could move directionally,showing good magnetic properties. GA-DTX-NGO/IONP-NPs showed a good concentration- and time-dependent photothermal conversion effect under 808 nm laser irradiation. CONCLUSIONS :GA-DTX-NGO/IONP-NPs are successfully prepared. This study could provide some theoretical basis for the combined treatment of magnetic heating-chemotherapy for liver tumors.
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OBJECTIVE: To prepare Adriamycin hydrochloride (DOX) magnetic thermosensitive liposome (MTSL), investigate its physicochemical properties, magnetic effect and photothermal effect, so as to provide reference for tumor chemo- therapy and photodynamic/photothermal therapy. METHODS: Using DOX as model drug, TiO2@Fe3O4 as photosensitizers and magnetic materials, DOX-TiO2@Fe3O4-MTSL was prepared with membrane dispersion method. The morphology and dispersibility were observed; particle size and Zeta potential were detected; encapsulation efficiency of the liposome were determined by centrifugal ultrafiltration and HPLC. Its paramagnetism property was also detected by magnetometer. Compared with DOX solution, in vitro release behavior of the liposome was investigated by dialysis method, and the release curves at different temperatures (at 37, 43 ℃) were compared. The photothermal conversion effect of the liposome and the production of reactive oxygen species (ROS) in human breast cancer MCF-7 cells were investigated by near infrared laser irradiation at 808 nm. RESULTS: Prepared DOX-TiO2@Fe3O4-MTSL was brown-black with good water dispersion, and was spherical in shape and uniform in size under electron microscopy. Average particle size was 250.6 nm; polydispersity index was 0.107; Zeta potential was (-7.76±3.41)mV; encapsulation efficiency was (92.3±3.2)%. Under the external magnetic field, the liposome could move in a directional direction and had obvious paramagnetism. Compared with DOX solution, the liposomes released slowly and showed obvious sustained- release characteristics. Compared with at 37 ℃, the drug release of liposome speeded up significantly at 43 ℃.With the increase of laser (808 nm) irradiation time, the temperature of the liposome kept rising, which had obvious photothermal conversion effect and could induce the increase of ROS in MCF-7 cells. CONCLUSIONS: DOX-TiO2@Fe3O4-MTSL is prepared succe- ssfully, which has uniform appearance, good physical and chemical properties. It has obvious paramagnetism sustained release effect and photothermal conversion efficiency, and can promote ROS production in MCF-7 cells under near infrared laser irradiation at 808 nm.
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OBJECTIVE: To establish the fingerprint of Maizao yishen granules, and to provide scientific basis for its further development. METHODS: HPLC method was adopted to establish the fingerprint by using 10 batches of Maizao yishen granules sa samples. The determination was performed on Venusil XBP C18(L) column with mobile phase consisted of acetonitrile-0.2% phosphoric acid (gradient elution) at the flow rate of 1→0.7 mL/min at 7-10 min, 0.7→1 mL/min at 10-15 min and 1 mL/min at the rest of time. The detection wavelengths were set at 284 nm (0-7 min), 330 nm (7-32 min) and 360 nm (32-45 min). The column temperature was 25 ℃, and sample size was 10 μL. The fingerprint of Maizao yishen granules was established, and the similarity evaluation was performed by using “Similarity Evaluation System of TCM Chromatographic Fingerprints” (2004 A edition) software. Then, the common peaks were assigned and identified by comparing reference substance and control medicinal materials. RESULTS: The precision, stability (24 h) and repeatability of the methodological investigation were all good [RSD values of relative retention time and relative peak area of each chromatographic peak were less than 3% (n=6)]. The similarity of 10 batches of samples were all above 0.900. Seventeen common peaks were identified, of which common peak 1 and 6 came from Semen Raphani; common peak 7, 9, 14, 15 and 16 from Citrus reticulata; common peak 5, 10, 11, 12 and 13 came from Glycyrrhiza uralensis; common peak 2 came from C. reticulata, G. uralensis and Ziziphus jujuba; peak 3 came from G. uralensis and Semen Raphani; peak 8 came from Hordeum vulgare and Semen Raphani; peak 4 and 17 came from C. reticulata and G. uralensis. Peak 1 was identified as hesperidin and the peak 9 was identified as sinapine. CONCLUSIONS: Established fingerprint of Maizao yishen granules is accurate and reliable, and can be used for quality control of Maizao yishen granules.
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OBJECTIVE: To establish a methaod for content determination of doxorubicin hydrochloride nano-liposomes, and to optimize its preparation technology. METHODS: The contents of doxorubicin hydrochloride nano-liposomes was determined by UV spectrophotometry. The membrane dispersion method was used to prepare doxorubicin hydrochloride nano-liposomes. Using particle size, encapsulation efficiency and drug-loading amount as indexes, the weight ratio of phospholipid to drug (mg/mg), the weight ratio of phospholipid to cholesterol (mg/mg) and ultrasonic time (min) as factors, central composite design-response surface methodology was used to optimize the preparation technology. The photothermal conversion effect of doxorubicin hydrochloride nano-liposomes was investigated by near infrared irradiation. RESULTS: The linear range of doxorubicin hydrochloride were 1.01-16.16 μg/mL(r=0.999 7); precision, stability and reproducibility tests were all in line with the requirments of Chinese Pharmacopoeia. The optimal preparation technology included that the weight ratio of phospholipid to drug was 13.30 ∶ 1(mg/mg); the weight ratio of phospholipid to cholesterol was 4.09 ∶ 1 (mg/mg); the ultrasonic time was 10 min. Under this technology, the particle size and drug-loading amount of doxorubicin hydrochloride nano-liposomes were (200.5±25.1) nm and (11.02±0.20)%, relative errors of which to predicted value (196.3 nm, 10.68%) were 1.82% and 1.63%. The consistency between measured value and predicted value was good. Doxorubicin hydrochloride nano-liposomes exhibited concentration- dependent and time-dependent photothermal conversion characteristics under near infrared irradiation at 808 nm. CONCLUSIONS: Established method is simple and good accuracy. The optimized preparation technology is simple and feasible.
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The liposomes were prepared by reverse-phase evaporation technique. The morphology of the liposomes, the entrapment efficiency and the particle size distribution were evaluated. The CT signals of Iohexol liposomes in rabbits were compared with those of Iohexol injection in rabbits. The entrapment efficiency of Iohexol liposomes was 82.35% +/- 1.82%. The liposmes were spherical or ellipsoidal shape in shape. The mean diameter of the Iohexol liposomes was 207 7 nm. The polydispersity index was 0.355. The Zeta potential was--1.83 mV. The drug was highly entrapped into the liposomes with good reproduction and stability. The in vitro release of Iohexol liposomes was significantly slower than that of Iohexol,and was 98.57% at 24 h. Iohexol liposomes may reduce the dosage, prolong the effective time of the developing agent, and could reduce the side effects of Iohexol on the blood vessels and cerebral nerves.