Recent advances with liposomes as pharmaceutical carriers VP Torchilin Nature reviews Drug discovery 4 (2), 145-160, 2005 | 6315 | 2005 |
Biodegradable long-circulating polymeric nanospheres R Gref, Y Minamitake, MT Peracchia, V Trubetskoy, V Torchilin, R Langer Science 263 (5153), 1600-1603, 1994 | 3789 | 1994 |
Regulation of transport pathways in tumor vessels: role of tumor type and microenvironment SK Hobbs, WL Monsky, F Yuan, WG Roberts, L Griffith, VP Torchilin, ... Proceedings of the National Academy of Sciences 95 (8), 4607-4612, 1998 | 3043 | 1998 |
Amphipathic polyethyleneglycols effectively prolong the circulation time of liposomes AL Klibanov, K Maruyama, VP Torchilin, L Huang FEBS letters 268 (1), 235-237, 1990 | 2767 | 1990 |
Micellar nanocarriers: pharmaceutical perspectives VP Torchilin Pharmaceutical research 24, 1-16, 2007 | 2328 | 2007 |
Vascular permeability in a human tumor xenograft: molecular size dependence and cutoff size F Yuan, M Dellian, D Fukumura, M Leunig, DA Berk, VP Torchilin, RK Jain Cancer research 55 (17), 3752-3756, 1995 | 2322 | 1995 |
Tumor delivery of macromolecular drugs based on the EPR effect V Torchilin Advanced drug delivery reviews 63 (3), 131-135, 2011 | 2308 | 2011 |
Structure and design of polymeric surfactant-based drug delivery systems VP Torchilin Journal of controlled release 73 (2-3), 137-172, 2001 | 2296 | 2001 |
Multifunctional nanocarriers VP Torchilin Advanced drug delivery reviews 58 (14), 1532-1555, 2006 | 2128 | 2006 |
Multifunctional, stimuli-sensitive nanoparticulate systems for drug delivery VP Torchilin Nature reviews Drug discovery 13 (11), 813-827, 2014 | 1643 | 2014 |
New developments in liposomal drug delivery BS Pattni, VV Chupin, VP Torchilin Chemical reviews 115 (19), 10938-10966, 2015 | 1634 | 2015 |
Drug targeting VP Torchilin European Journal of Pharmaceutical Sciences 11, S81-S91, 2000 | 1232 | 2000 |
Targeted pharmaceutical nanocarriers for cancer therapy and imaging VP Torchilin The AAPS journal 9, E128-E147, 2007 | 1054 | 2007 |
TAT peptide on the surface of liposomes affords their efficient intracellular delivery even at low temperature and in the presence of metabolic inhibitors VP Torchilin, R Rammohan, V Weissig, TS Levchenko Proceedings of the National Academy of Sciences 98 (15), 8786-8791, 2001 | 1031 | 2001 |
Intracellular delivery of large molecules and small particles by cell-penetrating proteins and peptides B Gupta, TS Levchenko, VP Torchilin Advanced drug delivery reviews 57 (4), 637-651, 2005 | 856 | 2005 |
Micelles from lipid derivatives of water-soluble polymers as delivery systems for poorly soluble drugs AN Lukyanov, VP Torchilin Advanced drug delivery reviews 56 (9), 1273-1289, 2004 | 855 | 2004 |
Cell-penetrating peptides: breaking through to the other side E Koren, VP Torchilin Trends in molecular medicine 18 (7), 385-393, 2012 | 840 | 2012 |
Liposomes: a practical approach V Torchilin, V Weissig Oxford University Press, 2003 | 828 | 2003 |
Multifunctional and stimuli-sensitive pharmaceutical nanocarriers V Torchilin European journal of pharmaceutics and biopharmaceutics 71 (3), 431-444, 2009 | 767 | 2009 |
Current trends in the use of liposomes for tumor targeting PP Deshpande, S Biswas, VP Torchilin Nanomedicine 8 (9), 1509-1528, 2013 | 758 | 2013 |