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Artificial Cells, Blood Substitutes, and Biotechnology Volume 40, 2012 - Issue 1-2
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Research Article

Preparation and Influencing Factors of Sirolimus Liposome by Supercritical Fluid

Wei ZhangFaculty of Pharmacy, Medical College, Qingdao University, Shandong, China;Department of Pharmacy Intravenous Admixture Service, Weifang People's Hospital, Weifang, Shandong, China
,
Yong SunFaculty of Pharmacy, Medical College, Qingdao University, Shandong, ChinaCorrespondence[email protected]
,
Yongjian LiFaculty of Pharmacy, Medical College, Qingdao University, Shandong, China;Department of Pharmacy Intravenous Admixture Service, Weifang People's Hospital, Weifang, Shandong, China
,
Ruowu ShenFaculty of Pharmacy, Medical College, Qingdao University, Shandong, China
,
Hongli NiFaculty of Pharmacy, Medical College, Qingdao University, Shandong, China
&
Dejian HuDepartment of Pharmacy Intravenous Admixture Service, Weifang People's Hospital, Weifang, Shandong, China
Pages 62-65 | Published online: 21 Jun 2011

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Zhen Jiao, Sai Han, Weifang Wang, Junying Song & Jiangrui Cheng. (2020) Preparation and optimization of Vitamin E acetate liposomes using a modified RESS process combined with response surface methodology. Particulate Science and Technology 38:7, pages 863-875.
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Mohammed A. Kassem, Maha M. Ghalwash & Ebtsam M. Abdou. (2020) Development of nanoemulsion gel drug delivery systems of cetirizine; factorial optimisation of composition, in vitro evaluation and clinical study. Journal of Microencapsulation 37:6, pages 413-430.
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Azadeh Haeri, Mahraz Osouli, Fereshteh Bayat, Sonia Alavi & Simin Dadashzadeh. (2018) Nanomedicine approaches for sirolimus delivery: a review of pharmaceutical properties and preclinical studies. Artificial Cells, Nanomedicine, and Biotechnology 46:sup1, pages 1-14.
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Priti Girotra, Shailendra Kumar Singh & Kalpana Nagpal. (2013) Supercritical fluid technology: a promising approach in pharmaceutical research. Pharmaceutical Development and Technology 18:1, pages 22-38.
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Articles from other publishers (18)

Irina M. Le-Deygen, Anastasia S. Safronova, Polina V. Mamaeva, Ilya M. Kolmogorov, Anna A. Skuredina & Elena V. Kudryashova. (2022) Drug–Membrane Interaction as Revealed by Spectroscopic Methods: The Role of Drug Structure in the Example of Rifampicin, Levofloxacin and Rapamycin. Biophysica 2:4, pages 353-365.
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Rahul Kumar, Amit K. Thakur, Nilanjana Banerjee & Pranava Chaudhari. (2021) A critical review on the particle generation and other applications of rapid expansion of supercritical solution. International Journal of Pharmaceutics 608, pages 121089.
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Yuexia Han, Jiangrui Cheng, Ningjie Ruan & Zhen Jiao. (2021) Preparation of liposomes composed of supercritical carbon dioxide-philic phospholipids using the rapid expansion of supercritical solution process. Journal of Drug Delivery Science and Technology 64, pages 102568.
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K. M. Aguilar-Pérez, J. I. Avilés-Castrillo, Dora I. Medina, Roberto Parra-Saldivar & Hafiz M. N. Iqbal. (2020) Insight Into Nanoliposomes as Smart Nanocarriers for Greening the Twenty-First Century Biomedical Settings. Frontiers in Bioengineering and Biotechnology 8.
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Leitgeb Maja, Knez Željko & Primožič Mateja. (2020) Sustainable technologies for liposome preparation. The Journal of Supercritical Fluids 165, pages 104984.
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Satyanarayan Pattnaik, G. Arun & Kalpana Swain. 2020. Advanced Nanotechnology and Application of Supercritical Fluids. Advanced Nanotechnology and Application of Supercritical Fluids 1 14 .
Bhupinder Kapoor, Reena Gupta, Monica Gulati, Sachin Kumar Singh, Rubiya Khursheed & Mukta Gupta. (2019) The Why, Where, Who, How, and What of the vesicular delivery systems. Advances in Colloid and Interface Science 271, pages 101985.
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Zhen Jiao, Xiudong Wang, Sai Han, Xianjun Zha & Jingxin Xia. (2019) Preparation of vitamin C liposomes by rapid expansion of supercritical solution process: Experiments and optimization. Journal of Drug Delivery Science and Technology 51, pages 1-6.
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Mona Alibolandi, Mahsa Shahriari & Mohammad Ramezani. 2019. Polymeric Nanoparticles as a Promising Tool for Anti-cancer Therapeutics. Polymeric Nanoparticles as a Promising Tool for Anti-cancer Therapeutics 343 371 .
Luís Padrela, Miguel A. Rodrigues, Andreia Duarte, Ana M.A. Dias, Mara E.M. Braga & Hermínio C. de Sousa. (2018) Supercritical carbon dioxide-based technologies for the production of drug nanoparticles/nanocrystals – A comprehensive review. Advanced Drug Delivery Reviews 131, pages 22-78.
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Wen-Chyan Tsai & Syed S.H. Rizvi. (2017) Microencapsulation and characterization of liposomal vesicles using a supercritical fluid process coupled with vacuum-driven cargo loading. Food Research International 96, pages 94-102.
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Marzieh Mohammadi, Mohammad Ramezani, Khalil Abnous & Mona Alibolandi. (2017) Biocompatible polymersomes-based cancer theranostics: Towards multifunctional nanomedicine. International Journal of Pharmaceutics 519:1-2, pages 287-303.
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Mónica Anayántzin Linares-AlbaMagda Berenice Gómez-GuajardoJoice Furtado FonzarDennis E. BrooksGustavo Adolfo García-SánchezMaria Josefa Bernad-Bernad. (2016) Preformulation Studies of a Liposomal Formulation Containing Sirolimus for the Treatment of Dry Eye Disease. Journal of Ocular Pharmacology and Therapeutics 32:1, pages 11-22.
Crossref
N. Grimaldi, F. Andrade, N. Segovia, L. Ferrer-Tasies, S. Sala, J. Veciana & N. Ventosa. (2016) Lipid-based nanovesicles for nanomedicine. Chemical Society Reviews 45:23, pages 6520-6545.
Crossref
Chau Chun Beh, Raffaella Mammucari & Neil R. Foster. (2015) Process intensification: Nano-carrier formation by a continuous dense gas process. Chemical Engineering Journal 266, pages 320-328.
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Shaohong Xu, Bin Zhao & Dannong He. (2015) Synthesis of highly dispersed nanoscaled CoQ10 liposome by supercritical fluid. Materials Letters 142, pages 283-286.
Crossref
Ž. Knez, M. Škerget, M. Knez Hrnčič & D. Čuček. 2014. Supercritical Fluid Technology for Energy and Environmental Applications. Supercritical Fluid Technology for Energy and Environmental Applications 31 67 .
Pankaj Ranjan Karn, Wonkyung Cho & Sung-Joo Hwang. (2013) Liposomal drug products and recent advances in the synthesis of supercritical fluid-mediated liposomes. Nanomedicine 8:9, pages 1529-1548.
Crossref

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