phosphatidylcholines has been researched along with cyclosporine in 33 studies
Studies (phosphatidylcholines) | Trials (phosphatidylcholines) | Recent Studies (post-2010) (phosphatidylcholines) | Studies (cyclosporine) | Trials (cyclosporine) | Recent Studies (post-2010) (cyclosporine) |
---|---|---|---|---|---|
32,204 | 443 | 5,593 | 30,547 | 3,802 | 6,558 |
Timeframe | Studies, this research(%) | All Research% |
---|---|---|
pre-1990 | 0 (0.00) | 18.7374 |
1990's | 8 (24.24) | 18.2507 |
2000's | 15 (45.45) | 29.6817 |
2010's | 9 (27.27) | 24.3611 |
2020's | 1 (3.03) | 2.80 |
Authors | Studies |
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Bally, MB; Choice, E; Madden, TD; Masin, D; Meloche, M | 1 |
Fahr, A; Nimmerfall, F; Wenger, R | 1 |
Garcon, NM; Gilbert, BE; Knight, V; Wilson, SZ; Wyde, PR | 1 |
Erben, G; Keppler, D; Koester, M; Lehmann, WD | 1 |
Alvarez, FG; Eschenbacher, WL; Gilbert, BE; Knight, C; Knight, V; Rodarte, JR; Waldrep, C | 1 |
Benkoel, L; Brisse, J; Chamlian, A; Chanussot, F; De La Maisonneuve, C; Delmas, M; Dodero, F; Lambert, R | 1 |
Benkoël, L; Brisse, J; Chamlian, A; Chanussot, F; de la Maisonneuve, C; Dodero, F; Lambert, R | 1 |
Guo, J; Jiao, C; Ping, Q; Sun, G | 1 |
Arnold, LW; Clarke, SH; McCray, SK; Tatu, C | 1 |
Benkoel, L; Benoliel, AM; Bongrand, P; Brisse, J; Chamlian, A; Chanussot, F; De la Maisonneuve, C; Dodero, F; Lambert, R | 1 |
Borst, P; Sarkadi, B; Smith, AJ; Szabo, K; Szakacs, G; van Helvoort, A; van Meer, G; Varadi, A; Welker, E | 1 |
Ishii, T; Kai, T; Kawano, K; Kim, YI; Kobayashi, M; Tatsuma, T | 1 |
Chen, Y; Guo, J; Ping, Q | 1 |
Chen, X; Johnston, KP; Sarkari, M; Williams, RO; Young, TJ | 1 |
Benkoël, L; Chanussot, F | 1 |
Chen, Y; Gao, J; Guo, J; Lv, W; Ping, Q | 1 |
Anne, PK; Boinpally, RR; Devraj, G; Jasti, BR; Poondru, S; Zhou, SL | 1 |
Hayashi, M; Masumitsu, Y; Okudaira, K; Suzuki, Y | 1 |
Eckford, PD; Sharom, FJ | 1 |
Chanussot, F; Domingo, N; Montpied, P; Petit, P; Portugal, H; Senft, M | 1 |
Narushima, K; Suzuki, H; Takada, T; Yamanashi, Y | 1 |
Amann, A; Haltner-Ukomadu, E; Högger, P; Keller, M; Tillmanns, S; Trammer, B | 1 |
Aserin, A; Garti, N; Ishai, PB; Libster, D; Shoham, G | 1 |
Aserin, A; Ben Ishai, P; Feldman, Y; Garti, N; Libster, D | 1 |
Kawashima, T; Kuroda, T; Matsuzawa, Y; Nishide, T; Shirai, K; Wakabayashi, T | 1 |
Guan, P; Hu, F; Lian, R; Lu, Y; Niu, M; Qi, J; Wu, W | 1 |
Ito, M; Kageyama, K; Kitamura, S; Kuwahara, K; Shinohara, Y; Takiguchi, Y; Terada, H; Yamamoto, T; Yamashita, K | 1 |
Dynarowicz-Łątka, P; Makyła-Juzak, K; Wnętrzak, A | 1 |
Aït-Slimane, T; Davit-Spraul, A; Delaunay, JL; Dossier, C; Durand-Schneider, AM; Falguières, T; Gautherot, J; Housset, C; Jacquemin, E; Maurice, M | 1 |
Blanco-Prieto, MJ; Dios-Viéitez, Mdel C; Guada, M; Lana, H; Lasa-Saracíbar, B | 1 |
Barron, A; Caldwell, GA; Caldwell, KA; Galiano, F; Lee, YJ; Patel, D; Wang, S; Witt, SN; Xu, C; Zhang, S | 1 |
Andress, EJ; Linton, KJ; McGeoghan, F; Nicolaou, M | 1 |
Akiyama, Y; Fujie, T; Ohue, M; Sugita, M; Yanagisawa, K | 1 |
1 review(s) available for phosphatidylcholines and cyclosporine
Article | Year |
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Prevention by dietary (n-6) polyunsaturated phosphatidylcholines of intrahepatic cholestasis induced by cyclosporine A in animals.
Topics: Actins; Adenosine Triphosphatases; Adenosine Triphosphate; Animal Feed; Animals; Biological Transport; Calcium; Cell Membrane; Cholestasis; Cyclosporine; Hypolipidemic Agents; Lipid Metabolism; Liver; Liver Diseases; Magnesium; Male; Models, Biological; Phosphatidylcholines; Phospholipids; Rats; Rats, Wistar | 2003 |
32 other study(ies) available for phosphatidylcholines and cyclosporine
Article | Year |
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Liposomal cyclosporine. Comparison of drug and lipid carrier pharmacokinetics and biodistribution.
Topics: Animals; Carbon Radioisotopes; Cholesterol; Cyclosporine; Drug Carriers; Female; Kidney; Liposomes; Liver; Lung; Metabolic Clearance Rate; Mice; Mice, Inbred Strains; Myocardium; Phosphatidylcholines; Radioisotope Dilution Technique; Spleen; Time Factors; Tissue Distribution | 1995 |
Interactions of cyclosporine and some derivatives with model membranes: binding and ion permeability changes.
Topics: Adsorption; Calcimycin; Cyclosporine; Cyclosporins; Fluorescence Polarization; Immunosuppression Therapy; Kinetics; Liposomes; Molecular Structure; Phosphatidylcholines; Sodium; Structure-Activity Relationship; Valinomycin | 1994 |
Characterization and administration of cyclosporine liposomes as a small-particle aerosol.
Topics: Aerosols; Animals; Cell Division; Cyclosporine; Drug Carriers; Liposomes; Lung; Lymphocytes; Mice; Phosphatidylcholines; Spleen; T-Lymphocytes; Thymidine; Tissue Distribution | 1993 |
Characterization and quantification of rat bile phosphatidylcholine by electrospray-tandem mass spectrometry.
Topics: Animals; Bile; Cyclosporine; Male; Phosphatidylcholines; Rats; Rats, Wistar; Spectrometry, Mass, Secondary Ion | 1997 |
Tolerance of volunteers to cyclosporine A-dilauroylphosphatidylcholine liposome aerosol.
Topics: Administration, Inhalation; Adult; Aerosols; Cough; Cyclosporine; Drug Carriers; Female; Forced Expiratory Volume; Humans; Liposomes; Lung; Male; Middle Aged; Particle Size; Phosphatidylcholines; Tidal Volume; Trachea; Vital Capacity | 1997 |
Modification of Ca2+, Mg2+-ATPase and F-actin distribution in hepatocytes of cyclosporine A treated rats. Effect of soyabean lecithin and triacylglycerol.
Topics: Actins; Animals; Bile Acids and Salts; Bile Canaliculi; Ca(2+) Mg(2+)-ATPase; Cyclosporine; Dietary Fats; Glycine max; Liver; Male; Phosphatidylcholines; Rats; Rats, Wistar; Triglycerides | 1998 |
Effect of dietary lipids on hepatic Na+,K(+)-ATPase in cyclosporine A-treated rats: immunocytochemical analysis of alpha1 subunit by confocal laser scanning microscopy imaging.
Topics: Animals; Bile; Bile Acids and Salts; Cyclosporine; Diet, Fat-Restricted; Dietary Fats; Immunohistochemistry; Immunosuppressive Agents; Isoenzymes; Liver; Male; Microscopy, Confocal; Phosphatidylcholines; Rats; Rats, Wistar; Sodium-Potassium-Exchanging ATPase; Triglycerides | 1999 |
Lecithin vesicular carriers for transdermal delivery of cyclosporin A.
Topics: Administration, Cutaneous; Animals; Cyclosporine; Drug Carriers; Immunosuppressive Agents; Mice; Micelles; Phosphatidylcholines; Skin; Sodium Cholate | 2000 |
Identification of a precursor to phosphatidyl choline-specific B-1 cells suggesting that B-1 cells differentiate from splenic conventional B cells in vivo: cyclosporin A blocks differentiation to B-1.
Topics: Animals; B-Lymphocyte Subsets; Cell Differentiation; Cell Lineage; Cyclosporine; Epitopes, B-Lymphocyte; Growth Inhibitors; Immunoglobulin Heavy Chains; Immunoglobulin Variable Region; Mice; Mice, Inbred BALB C; Mice, Transgenic; Phosphatidylcholines; Spleen; Stem Cells | 2000 |
Effect of dietary lipid (soybean lecithin and triacylglycerol) on hepatic F-actin microfilaments in cyclosporine A-treated rats: image analysis by confocal laser scanning microscopy.
Topics: Actins; Amanitins; Animals; Bile; Cyclosporine; Dietary Fats; Glycine max; Liver; Male; Microscopy, Confocal; Phosphatidylcholines; Rats; Rats, Wistar; Triglycerides | 2000 |
MDR3 P-glycoprotein, a phosphatidylcholine translocase, transports several cytotoxic drugs and directly interacts with drugs as judged by interference with nucleotide trapping.
Topics: Adenosine Triphosphate; Animals; ATP Binding Cassette Transporter, Subfamily B; ATP-Binding Cassette Transporters; Biological Transport; Cell Polarity; Cells, Cultured; Cyclosporine; Cyclosporins; Cytotoxins; Daunorubicin; Digoxin; Epithelial Cells; Humans; Ivermectin; Kidney; Paclitaxel; Pharmaceutical Preparations; Phosphatidylcholines; Recombinant Proteins; Spodoptera; Swine; Verapamil; Vinblastine | 2000 |
Immunodepressants ameliorate normothermic ischemia injury to the rat liver by down-regulating tumor necrosis factor, not by alleviation of lipid peroxidative injury.
Topics: Alanine Transaminase; Animals; Azathioprine; Cyclosporine; Female; Immunosuppressive Agents; Ischemia; Lipid Peroxidation; Liver; Phosphatidylcholines; Rats; Rats, Sprague-Dawley; Reperfusion Injury; Tacrolimus; Temperature; Time Factors; Tumor Necrosis Factor-alpha | 1994 |
Pharmacokinetic behavior of cyclosporin A in rabbits by oral administration of lecithin vesicle and Sandimmun Neoral.
Topics: Administration, Oral; Analysis of Variance; Animals; Area Under Curve; Chemistry, Pharmaceutical; Chromatography, High Pressure Liquid; Cyclosporine; Drug Carriers; Half-Life; Immunosuppressive Agents; Phosphatidylcholines; Rabbits | 2001 |
Preparation of cyclosporine A nanoparticles by evaporative precipitation into aqueous solution.
Topics: Chromatography, Gas; Chromatography, High Pressure Liquid; Crystallization; Crystallography, X-Ray; Cyclosporine; Excipients; Immunosuppressive Agents; Microspheres; Particle Size; Phosphatidylcholines; Poloxamer; Solutions; Solvents; Surface-Active Agents; Temperature | 2002 |
The absorption behavior of cyclosporin A lecithin vesicles in rat intestinal tissue.
Topics: Animals; Chromatography, High Pressure Liquid; Cyclosporine; Dose-Response Relationship, Drug; Drug Carriers; Hydrogen-Ion Concentration; Immunosuppressive Agents; In Vitro Techniques; Intestinal Absorption; Osmolar Concentration; Phosphatidylcholines; Rats; Therapeutic Equivalency | 2003 |
Iontophoresis of lecithin vesicles of cyclosporin A.
Topics: Cyclosporine; Drug Carriers; Humans; Iontophoresis; Phosphatidylcholines; Skin; Tissue Banks | 2004 |
The effects of emulsifying agents on disposition of lipid-soluble drugs included in fat emulsion.
Topics: Animals; Cyclosporine; Drug Delivery Systems; Drug Stability; Emulsifying Agents; Fat Emulsions, Intravenous; Lipoprotein Lipase; Liver; Male; Particle Size; Phosphatidylcholines; Poloxamer; Rats; Rats, Wistar; Soybean Oil; Tissue Distribution | 2004 |
The reconstituted P-glycoprotein multidrug transporter is a flippase for glucosylceramide and other simple glycosphingolipids.
Topics: Adenosine Triphosphate; Animals; ATP Binding Cassette Transporter, Subfamily B, Member 1; Biological Transport; CHO Cells; Cricetinae; Cyclosporine; Glucosylceramides; Glycosphingolipids; Molecular Structure; Phosphatidylcholines; Phospholipid Transfer Proteins; Protein Binding; Proteolipids | 2005 |
High-fat diets impede the lowering effect of cyclosporine A on rat brain lipids and interact with the expression of apolipoproteins E and J.
Topics: Animals; Apolipoproteins E; Brain; Cerebral Cortex; Clusterin; Cyclosporine; Diet; Drug Interactions; Gene Expression Regulation; Glycoproteins; Hippocampus; Lipids; Male; Molecular Chaperones; Phosphatidylcholines; Rats; Rats, Wistar; RNA, Messenger; Transcription, Genetic; Triglycerides | 2005 |
Niemann-pick C1-like 1 mediates alpha-tocopherol transport.
Topics: alpha-Tocopherol; Animals; Anticholesteremic Agents; Azetidines; Biological Transport; Caco-2 Cells; Cholesterol; Cyclosporine; Ezetimibe; Humans; Immunohistochemistry; Intestinal Absorption; Male; Membrane Proteins; Membrane Transport Proteins; Micelles; Phosphatidylcholines; Rats; Rats, Wistar; Taurocholic Acid; Temperature; Time Factors; Vitamin A | 2008 |
Comparative permeability and diffusion kinetics of cyclosporine A liposomes and propylene glycol solution from human lung tissue into human blood ex vivo.
Topics: Cell Line, Tumor; Chemistry, Pharmaceutical; Cyclosporine; Dialysis; Diffusion; Drug Compounding; Electric Impedance; Humans; Immunosuppressive Agents; Kinetics; Liposomes; Lung; Permeability; Pharmaceutical Solutions; Phosphatidylcholines; Propylene Glycol | 2008 |
Molecular interactions in reverse hexagonal mesophase in the presence of Cyclosporin A.
Topics: Caprylates; Cyclosporine; Drug Carriers; Glycerides; Liposomes; Liquid Crystals; Molecular Structure; Phase Transition; Phosphatidylcholines; Protein Conformation; Scattering, Small Angle; Solubility; Spectroscopy, Fourier Transform Infrared; Surface-Active Agents; Triglycerides; Water | 2009 |
Influence of cyclosporine A on molecular interactions in lyotropic reverse hexagonal liquid crystals.
Topics: Caprylates; Cyclosporine; Glycerides; Liquid Crystals; Phosphatidylcholines; Spectroscopy, Fourier Transform Infrared; Surface-Active Agents; Temperature; Triglycerides; Water | 2010 |
Lecithinized superoxide dismutase treatment improves steroid-refractory interstitial pneumonia.
Topics: Adrenal Cortex Hormones; Cyclosporine; Dermatomyositis; Exercise Tolerance; Humans; Immunosuppressive Agents; Lung Diseases, Interstitial; Male; Methylprednisolone; Middle Aged; Mucin-1; Phosphatidylcholines; Prednisolone; Pulmonary Fibrosis; Radiography; Respiratory Function Tests; Superoxide Dismutase; Tacrolimus; Treatment Outcome | 2010 |
Enhanced oral bioavailability of cyclosporine A by liposomes containing a bile salt.
Topics: Administration, Oral; Analysis of Variance; Animals; Area Under Curve; Biological Availability; Cyclosporine; Deoxycholic Acid; Liposomes; Male; Microscopy, Electron, Transmission; Particle Size; Phosphatidylcholines; Rats; Rats, Wistar | 2011 |
Mastoparan peptide causes mitochondrial permeability transition not by interacting with specific membrane proteins but by interacting with the phospholipid phase.
Topics: Animals; Cyclosporine; Intercellular Signaling Peptides and Proteins; Male; Membrane Lipids; Mitochondria, Liver; Mitochondrial Membrane Transport Proteins; Mitochondrial Membranes; Mitochondrial Permeability Transition Pore; Peptides; Phosphatidylcholines; Rats; Stereoisomerism; Wasp Venoms | 2014 |
Cyclosporin A in Membrane Lipids Environment: Implications for Antimalarial Activity of the Drug--The Langmuir Monolayer Studies.
Topics: Antimalarials; Cholesterol; Cyclosporine; Erythrocyte Membrane; Humans; Membrane Lipids; Models, Molecular; Molecular Structure; Phosphatidylcholines; Sphingomyelins | 2015 |
A functional classification of ABCB4 variations causing progressive familial intrahepatic cholestasis type 3.
Topics: ATP Binding Cassette Transporter, Subfamily B; Cholestasis, Intrahepatic; Cyclosporine; HEK293 Cells; Hep G2 Cells; Humans; Mutation; Phosphatidylcholines | 2016 |
Lipid nanoparticles enhance the absorption of cyclosporine A through the gastrointestinal barrier: In vitro and in vivo studies.
Topics: Administration, Oral; Animals; Biological Availability; Caco-2 Cells; Cyclosporine; Diglycerides; Female; Humans; Immunosuppressive Agents; Intestinal Absorption; Mice, Inbred BALB C; Nanoparticles; Phosphatidylcholines; Poloxamer; Polysorbates; Taurocholic Acid | 2016 |
Chemical Compensation of Mitochondrial Phospholipid Depletion in Yeast and Animal Models of Parkinson's Disease.
Topics: alpha-Synuclein; Animals; Caenorhabditis elegans; Caenorhabditis elegans Proteins; Carboxy-Lyases; Cyclosporine; Disease Models, Animal; Dopaminergic Neurons; Endoplasmic Reticulum Stress; Meclofenoxate; Membrane Proteins; Mitochondria; Mitochondrial Proteins; Parkinson Disease; Phosphatidylcholines; Phosphatidylethanolamines; Protective Agents; Saccharomyces cerevisiae; Solubility; Sulfaphenazole; Transferases (Other Substituted Phosphate Groups) | 2016 |
ABCB4 missense mutations D243A, K435T, G535D, I490T, R545C, and S978P significantly impair the lipid floppase and likely predispose to secondary pathologies in the human population.
Topics: Adenosine Triphosphatases; Amino Acid Substitution; ATP Binding Cassette Transporter, Subfamily B; Cell Membrane; Cyclosporine; Genetic Predisposition to Disease; Glycosylation; HEK293 Cells; Humans; Intracellular Space; Lipids; Molecular Chaperones; Mutant Proteins; Mutation, Missense; Phosphatidylcholines; Polymorphism, Single Nucleotide; Protein Stability; Protein Transport; Subcellular Fractions | 2017 |
Lipid Composition Is Critical for Accurate Membrane Permeability Prediction of Cyclic Peptides by Molecular Dynamics Simulations.
Topics: Cholesterol; Cyclosporine; Lipid Bilayers; Molecular Dynamics Simulation; Peptides; Peptides, Cyclic; Permeability; Pharmaceutical Preparations; Phosphatidylcholines; Phospholipids | 2022 |