1)stealth nano-liposomes隐形纳米脂质体
1.Preparation of Magnetic Gemcitabine Stealth Nano-liposomes and Its Targeted Antitumor Effects;磁性吉西他滨隐形纳米脂质体的制备及其磁控靶向抑瘤作用的实验研究
2.Objective To study the optimal conditions to prepare magnetic gemcitabine stealth nano-liposomes (MGSL), evaluate their physico-chemical properties and antitumor effects in vivo.目的研究制备磁性吉西他滨隐形纳米脂质体(MGSL)的最佳条件并考察其理化性质以及体内靶向治疗裸鼠乳腺癌的效果。
3.OBJECTIVE To study the magnetic responsibility and directional distribution of magnetic gemcitabine stealth nano-liposomes(MGSL),and evaluate its antitumor effects on human breast cancer xenografts in nude mice.目的研究磁性吉西他滨隐形纳米脂质体(MGSL)的体内磁响应性、磁场作用下的分布差异以及靶向治疗效果。
英文短句/例句
1.Effects of magnetic gemcitabine stealth nano-liposomes on the characteristics of breast cancer cell line MCF-7磁性吉西他滨隐形纳米脂质体对MCF-7细胞生物学特性的影响
2.Distribution of Magnetic Gemcitabine Stealth Nano-Liposomes in Vivo and Its Antitumor Effects on Human Breast Cancer Xenografts in Nude Mice磁性吉西他滨隐形纳米脂质体的体内分布及其对裸鼠移植瘤的靶向治疗作用
3.Preparation of Magnetic Gemcitabine Stealth Nano-liposomes and Its Targeted Antitumor Effects;磁性吉西他滨隐形纳米脂质体的制备及其磁控靶向抑瘤作用的实验研究
4.To Prepare Cryptotanshione Liposomes by Freeze-drying;冷冻干燥法制备隐丹参酮纳米脂质体
5.Comparison of permeation rates in vitro between indometacin ultradeformable nanoliposomes and general nanoliposomes吲哚美辛柔性纳米脂质体与普通纳米脂质体体外透皮速率的比较
6.Preparation and Physicochemical Characteristics of Lipid Nanoparticulate Carriers;脂质纳米载体制备及其理化性质研究
7.In Vitro Release of Baicalin Solid Lipid Nanoparticles黄芩苷固体脂质纳米粒体外释放研究
8.The Study on Biotransport of Solid Lipid Nanoparticles Through Gastrointestinal Tract;固体脂质纳米粒经胃肠道转运的研究
9.Preparation and Lymphatic Transport of Solid Lipid Nanoparticles;固体脂质纳米粒的制备及其小肠吸收
10.Preparation and Characterization of Nano-magnetic Cationic Liposomes;磁性阳离子纳米脂质体的制备及表征
11.The in Vitro and in Vivo Study of the Radiosensitization Effect of Nanoliposomal Cisplatin (NLDDP);顺铂纳米脂质体放射增敏的实验研究
12.Study on biological effects of Doxorubicin nanoliposomes阿霉素纳米脂质体的生物学效应研究
13.Preparation and characterization of solid lipid nano-particles固体纳米脂质微粒的制备及性能表征
14.Preparation Technology of Curcumine Solid Lipid Nanoparticles姜黄素固体脂质纳米粒制备工艺研究
15.Preparation and characterization of dha-loaded nanostructured lipid carriersDHA纳米结构脂质载体的制备和表征
16.Research on Dexamethasone Acetate Solid Lipid Nanoparticles Gel醋酸地塞米松固体脂质纳米粒凝胶剂的研究
17.The Application of Coenzyme Q_(10) Nanoliposomes and Study on Coenzyme Q_(10) Proliposomes;辅酶Q_(10)纳米脂质体的应用及辅酶Q_(10)前体脂质体的研究
18.The Preparation and Properties Research of Drug Loaded Solid Lipid Nanoparticles;载药固体脂质纳米粒的制备及性质研究
相关短句/例句
nanoliposomes纳米脂质体
1.Preparation of coenzyme Q_(10) nanoliposomes;辅酶Q_(10)纳米脂质体的制备
2.Quality evaluation of nimodipine nanoliposomes freeze-dried powder;尼莫地平纳米脂质体冻干粉的质量评价方法
3.Studies on the Method for Determination the Entrapment Efficiency of Nimodipine Nanoliposomes;尼莫地平纳米脂质体包封率测定方法的研究
3)Nanoliposome纳米脂质体
1.Study on Optimize the Preparation and Formulation of Mimodipine-Containing Nanoliposome;尼莫地平纳米脂质体制备工艺及处方优化研究
2.Study on formulation and preparation of chitosan chloride coated hydroxycamptothecin nanoliposomes;羟基喜树碱包衣纳米脂质体的处方及制备工艺研究
3.Study on Optimize the Preparation and Formulation of Nimodipine-Containing Nanoliposome;尼莫地平纳米脂质体制备工艺及处方优化研究Ⅰ
4)nano-liposome纳米脂质体
1.[Objective] To prepare photoallergic nano-liposome containing polydiacetylene and to study its characteristics.目的制备聚丁二炔光敏纳米脂质体并对其特性进行研究。
2.Objective To study the effect of nano-liposome sustained elemene in inducing cell apoptosis of C6 glioma and to explore its influence on the expression of caspase-3 gene.目的探讨纳米脂质体承载榄香烯诱导C6胶质瘤细胞凋亡的作用以及对相关基因caspase-3表达的影响。
3.Nano-liposomes loaded with bovine serum albumin (BSA) were prepared in the aim of overcoming the limitations of their low encapsulation efficiency and instability.本文以牛血清白蛋白为药物模型,制备载药纳米脂质体,旨在解决其包封率低稳定性差等问题,为开发疗效好,生物利用度高,服用方便的蛋白质药物制剂提供实验依据。
5)nano-liposomes纳米脂质体
1.Study on Preparation and Characteristics of Salidroside Nano-liposomes;红景天苷纳米脂质体的研制
2.Film dispersion together with a probe supersonic method were used to prepare nano-liposomes containing volatile oil extracted from villous amomum fruits.采用薄膜分散与探头超声相结合的方法制备砂仁挥发油纳米脂质体,并对其形貌、大小进行了分析。
3.In this paper,the advances of nano-drug carrier systems including nano-liposomes,solid lipide nanoparticles,nano-micells and nanoparticles were reviewed according to their types,development,materials and preparing methods.按照应用于抗肿瘤药物给药系统的不同类型的纳米材料及制备方法,综述了纳米脂质体、固体脂质纳米粒、纳米胶束及纳米粒等主要纳米药物载体近年来在药物输送系统上的应用及研究进展,并展望了其发展前景。
6)nanometer bangosome纳米脂质体
1.Toxicity tests of Magnolia biondii Pamp volatile oil nanometer bangosome;辛夷挥发油纳米脂质体的毒性研究
2.Pharmacologic action of the Magnolia biondii Pamp volatile oil nanometer bangosome;辛夷挥发油纳米脂质体的药理作用初探
延伸阅读
多相脂质体139 , 三氨酸多相脂质体,油酸多相脂质体注射液药物名称:油酸多相脂质体注射液英文名:Polyphase Liposome-139别名: 139;多相脂质体139 , 三氨酸多相脂质体,油酸多相脂质体注射液外文名:Polyphase Liposome-139适应症: 用于治疗各种消化管癌(如胃癌、结肠癌、肝癌、胰腺癌、食管癌等)、肺癌、淋巴肉瘤、乳腺癌等。 用量用法: 开始时1日量20ml,如无不良反应,逐渐增大剂量,最多可至1日50ml,加入氯化钠注射液中(250~500ml)混匀,缓缓静滴,滴速控制在每分钟40~60滴,每日1次,1个疗程总量1200~1500ml。如单用本品,1个疗程结束后,休息1周,进行复查,然后继续第2疗程。如是手术病人,术后2周开始维持给药,1日50ml,每周2次,用1个月。本品亦可与化疗或放疗合用,先用本品1疗程,休息1周后,,再按常规使用化疗或放疗,可减轻化疗药物的毒副作用,提高机体免疫功能。 注意事项: 1.用前将注射液振摇均匀后与等渗盐水混匀。 2.偶有面部发热,仅需减慢滴速即能恢复正常。 3.禁用于直接静脉推注,以免危险。 4.开始用药2~3日内白细胞可能略有下降,继续给药随即回升至正常水平。 规格: 针剂:10ml。 类别:其他抗肿瘤药及辅助治疗药
