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Journal of Liposome Research Volume 11, 2001 - Issue 1
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Research Article

LIPOSOMES CONTAINING DOPAMINE ENTRAPPED IN RESPONSE TO TRANSMEMBRANE AMMONIUM SULFATE GRADIENT AS CARRIER SYSTEM FOR DOPAMINE DELIVERY INTO THE BRAIN OF PARKINSONIAN MICE

I. V. Zhigaltsev M. V. Lomonosov Institute of Fine Chemical Technology, Pr. Vernadskogo 86, Moscow, 117571, Russia
,
A. P. Kaplun Institute of General Pathology and Pathophysiology, Academy of Medical Sciences, Baltiyskaya 8, Moscow, 125315, Russia
,
V. G. Kucheryanu M. V. Lomonosov Institute of Fine Chemical Technology, Pr. Vernadskogo 86, Moscow, 117571, Russia
,
G. N. Kryzhanovsky M. V. Lomonosov Institute of Fine Chemical Technology, Pr. Vernadskogo 86, Moscow, 117571, Russia
,
S. N. Kolomeichuk M. V. Lomonosov Institute of Fine Chemical Technology, Pr. Vernadskogo 86, Moscow, 117571, Russia
,
V. I. Shvets M. V. Lomonosov Institute of Fine Chemical Technology, Pr. Vernadskogo 86, Moscow, 117571, Russia
&
V. V. Yurasov Institute of General Pathology and Pathophysiology, Academy of Medical Sciences, Baltiyskaya 8, Moscow, 125315, Russia
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Pages 55-71 | Published online: 30 Apr 2001

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Hamdy Abdelkader, Adam W. G. Alani & Raid G. Alany. (2014) Recent advances in non-ionic surfactant vesicles (niosomes): self-assembly, fabrication, characterization, drug delivery applications and limitations. Drug Delivery 21:2, pages 87-100.
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Ming Shao, Shou-li Sun, Ming-hui Li, Bao-xin Li, Hui Yu, Zhi-ying Shen, Ya-chao Ren, Zhong-fei Hao, Nai-dan Chang, Hai-sheng Peng & Bao-feng Yang. (2012) The liposomal daunorubicin plus tamoxifen: improving the stability, uptake, and biodistribution of carriers. Journal of Liposome Research 22:2, pages 168-176.
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Maria Carafa, Carlotta Marianecci, Luisa Di Marzio, Viviana De Caro, Giulia Giandalia, Libero Italo Giannola & Eleonora Santucci. (2010) Potential dopamine prodrug-loaded liposomes: preparation, characterization, and in vitro stability studies. Journal of Liposome Research 20:3, pages 250-257.
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Articles from other publishers (16)

Francisco J. Padilla-Godínez, Leonardo I. Ruiz-Ortega & Magdalena Guerra-Crespo. (2022) Nanomedicine in the Face of Parkinson’s Disease: From Drug Delivery Systems to Nanozymes. Cells 11:21, pages 3445.
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Elizabeth Nance, Suzie H. Pun, Rajiv Saigal & Drew L. Sellers. (2021) Drug delivery to the central nervous system. Nature Reviews Materials 7:4, pages 314-331.
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Milad Roshani, Nasim Kiaie & Rouhollah Mehdinavaz Aghdam. (2021) Biomaterials and stem cells as drug/gene-delivery vehicles for Parkinson's treatment: an update. Regenerative Medicine 16:12, pages 1057-1072.
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Victoria Monge-Fuentes, Andréia Biolchi Mayer, Marcos Robalinho Lima, Luiza Ribeiro Geraldes, Larissa Nepomuceno Zanotto, Karla Graziella Moreira, Olimpia Paschoal Martins, Henrique Luís Piva, Maria Sueli Soares Felipe, Andre Correa Amaral, Anamélia Lorenzetti Bocca, Antonio Claudio Tedesco & Márcia Renata Mortari. (2021) Dopamine-loaded nanoparticle systems circumvent the blood–brain barrier restoring motor function in mouse model for Parkinson’s Disease. Scientific Reports 11:1.
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Meygal Kahana, Abraham Weizman, Martin Gabay, Yelena Loboda, Hadar Segal-Gavish, Avishai Gavish, Yael Barhum, Dani Offen, John Finberg, Nahum Allon & Moshe Gavish. (2020) Liposome-based targeting of dopamine to the brain: a novel approach for the treatment of Parkinson’s disease. Molecular Psychiatry 26:6, pages 2626-2632.
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Sunita Chawla, Dnyaneshwar Kalyane, Vishakha Tambe, Pran Kishore Deb, Kiran Kalia & Rakesh K. Tekade. (2020) Evolving nanoformulation strategies for diagnosis and clinical interventions for Parkinson’s disease. Drug Discovery Today 25:2, pages 392-405.
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Govindarajan Karthivashan, Palanivel Ganesan, Shin-Young Park, Ho-Won Lee & Dong-Kug Choi. (2020) Lipid-based nanodelivery approaches for dopamine-replacement therapies in Parkinson's disease: From preclinical to translational studies. Biomaterials 232, pages 119704.
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Ahuva Cern, David Marcus, Alexander Tropsha, Yechezkel Barenholz & Amiram Goldblum. (2017) New drug candidates for liposomal delivery identified by computer modeling of liposomes' remote loading and leakage. Journal of Controlled Release 252, pages 18-27.
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Tohid Mahmoudi-Badiki, Esmaeel Alipour, Hamed Hamishehkar & Seyed Mahdi Golabi. (2016) Dopamine-loaded liposome and its application in electrochemical DNA biosensor. Journal of Biomaterials Applications 31:2, pages 273-282.
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M. H. Li, H. Yu, T. F. Wang, N. D. Chang, J. Q. Zhang, D. Du, M. F. Liu, S. L. Sun, R. Wang, H. Q. Tao, S. L. Geng, Z. Y. Shen, Q. Wang & H. S. Peng. (2014) Tamoxifen embedded in lipid bilayer improves the oncotarget of liposomal daunorubicin in vivo. Journal of Materials Chemistry B 2:12, pages 1619.
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Ahuva Cern, Alexander Golbraikh, Aleck Sedykh, Alexander Tropsha, Yechezkel Barenholz & Amiram Goldblum. (2012) Quantitative structure - property relationship modeling of remote liposome loading of drugs. Journal of Controlled Release 160:2, pages 147-157.
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A. P. Kaplun, D. A. Bezrukov & V. I. Shvets. (2011) Rational design of nano- and micro-size medicinal forms of biologically active substances. Applied Biochemistry and Microbiology 47:8, pages 711-717.
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Shayne Cox GadYiguang Jin. 2010. Pharmaceutical Sciences Encyclopedia. Pharmaceutical Sciences Encyclopedia.
V. I. Shvets, A. P. Kaplun, Yu. M. Krasnopol’skii, A. E. Stepanov & V. P. Chekhonin. (2008) From liposomes of the 1970s to 21st century nanobiotechnology. Nanotechnologies in Russia 3:11-12, pages 643-655.
Crossref
Yechezkel Barenholz. 2006. Liposome Technology, Volume II. Liposome Technology, Volume II 1 25 .
H. Süheyla Kaş. 2004. Biomaterials. Biomaterials 221 230 .

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