References
- Al-Angary, A. A., Bayomi, M. A., Khidr, S. H., Al-Meshal, M. A., Al-Dardiri, M. (1995). Characterization, stability and in vivo targeting of liposomal formulations containing cyclosporin. Int J Pharm 114:221–225.
- Blasberg, R. G. (2003). Molecular imaging and cancer. Mol Cancer Ther 2:335–343.
- Cai, W., Chen, X. (2008). Multimodality molecular imaging of tumor angiogenesis. J Nucl Med 49:113S–128S.
- Chakilam, A. R., Pabba, S., Mongayt, D., Iakobouv, L. Z., Torchilin, V. P. (2004). A single monoclonal antinuclear autoantibody with nucleosome-restricted specificity inhibits the growth of diverse human tumors in nude mice. Cancer Ther 2:353–364.
- Delbeke, D., Schöder, H., Martin, W. H., Wahl, R. L. (2009). Hybrid imaging (SPECT/CT and PET/CT): improving therapeutic decisions. Semin Nucl Med 39:308–340.
- Elbayoumi, T. A., Torchilin, V. (2006). Enhanced accumulation of long-circulating liposomes modified with the nucleosome-specific monoclonal antibody 2C5 in various tumours in mice: gamma-imaging studies. Eur J Nucl Med Mol Imaging 33:1196–1205.
- Elbayoumi, T. A., Torchilin, V. P. (2009). Tumor-specific anti-nucleosome antibody improves therapeutic efficacy of doxorubicin-loaded long-circulating liposomes against primary and metastatic tumor in mice. Mol Pharmacol 6:246–254.
- Erdoğan, S., Aruna, R., Sawant, R., Hurley, J., Torchilin, V. P. (2006a) Gadolinium-loaded polychelating polymer-containing cancer cell-specific immunoliposomes. J Liposome Res 16:45–55.
- Erdoğan, S., Roby, A., Torchilin, V. P. (2006b). Enhanced tumor visualization by gamma scintigraphy with 111In-labeled polychelating-polymer-containing immunoliposomes. Mol Pharm 3:525–530.
- Grant, C. W., Stephen, K., Florio, E. (1989). A liposomal MRI contrast agent: phosphatidylethanolamine-DTPA. Magn Reson Med 11:236–243.
- Guilloteau, D., Vergote, J., Maia, S. (2007). Importance of radiopharmacy in hospital practice: application to Alzheimer and Parkinson’s disease exploration. FABAD J Pharm Sci 32:41–48.
- Gupta, B., Torchilin, V. P. (2007). Monoclonal antibody 2C5-modified doxorubicin-loaded liposomes with significantly enhanced therapeutic activity against intracranial human brain U-87 MG tumor xenografts in nude mice. Cancer Immunol Immun 56:1215–1223.
- Iakoubov, L. Z., Torchilin, V. P. (1997). A novel class of antitumor antibodies: nucleosome-restricted antinuclear autoantibodies (ANA) from healty aged nonautoimmune mice. Oncol Res 9:439–446.
- Immordino, M. L., Dosio, F., Cattel, L. (2006). Stealth liposomes: review of the basic science, rationale, and clinical applications, existing and potential. Int J Nanomed 1:297–315.
- Joshi, B. P., Wang, T. D. (2010). Exogenous molecular probes for targeted imaging in cancer: focus on multi-modal imaging. Cancers 2:1251–1287.
- Kshirsagar, N. A. (2000). Drug delivery systems. Indian J Pharmacol 32:S54–S61.
- Kwon, G. S., Suwa, S., Yokoyama, M., Okano, T., Sakurai, Y., Kataoka, K. (1994). Enhanced tumor accumulation and prolonged circulation times of micelle-forming poly(ethylene oxideaspartate) block copolymers-andriamycin conjugates. J Control Release 29:17–23.
- Lammers, T., Klessling, F., Hennink, W. E., Storm G. (2012). Drug targeting to tumors: principles, pitfalls, and (pre-) clinical progress. J Control Release 161:175–187.
- Lukyanov, A. N., Gao, Z., Mazzola, L., Torchilin, V. P. (2002). Polyethylene glycol-diacyllipid micelles demonstrate increased accumulation in subcutaneous tumors in mice. Pharm Res 19:1424–1429.
- Maeda, H., Wu, J., Sawa, T., Matsumura, Y., Hori, K. (2000). Tumor vascular permeability and the EPR effect in macromolecular therapeutics: a review. J Control Release 65:271–284.
- Mariani, G., Bruselli L., Kuwert, T., Kim, E. E., Flotats, A., Israel, O., et al. (2010). A review on the clinical uses of SPECT/CT. Eur J Nucl Med Mol Imaging 37:1959–1985.
- Maurer, N., Fenske, D. B., Cullis, P. R. (2001). Developments in liposomal drug delivery systems. Expert Opin Biol Ther 1:1–25.
- Musacchio, T., Torchilin, V. P. (2011). Recent developments in lipid-based pharmaceutical nanocarriers. Front Biosci 16:1388–1412.
- Pysz, M. A., Gambhir, S. S., Willmann, J. K. (2010). Molecular imaging: current status and emerging strategies. Clin Radiol 65:500–516.
- Rouser, G., Fleischer, S., Yamamoto, A. (1970). Two dimensional thin layer chromatographic separation of polar lipids and determination of phospholipids by phosphorus analysis of spots. Lipids 5:494–496.
- Sawant, R. R., Sawant, R. M., Torchilin, V. P. (2008). Mixed PEG-PE/vitamin E tumor-targeted immunomicelles as carriers for poorly soluble anti-cancer drugs: improved drug solubilization and enhanced in vitro cytotoxicity. Eur J Pharm Biopharm 70:51–57.
- Sawant, R. R., Torchilin V. P. (2012). Challenges in development of targeted liposomal therapeutics. AAPS J 14:303–315.
- Silindir, M., Erdoğan, S., Özer A. Y., Maia, S. (2012). Liposomes and their applications in molecular imaging. J Drug Target 20:401–415.
- Silindir, M., Özer, A. Y., Erdoğan S. (2012). The use and importance of liposomes in positron emission tomography. Drug Deliv 19:68–80.
- Skidan, I., Dholakia, P., Torchilin, V. P. (2008). Photodynamic therapy of experimental B-16 melanoma in mice with tumor-targeted 5, 10, 15, 20-tetraphenylporphin-loaded PEG-PE micelles. J Drug Target 16:486–493.
- Sofou, S., Sgouros, G. (2008). Antibody-targeted liposomes in cancer therapy and imaging. Expert Opin Drug Deliv 5:189–204.
- Stacy, M. R., Maxfield, M. W., Sinusas, A. J. (2012). Targeted molecular imaging of angiogenesis in PET and SPECT: a review. Yale J Biol Med 85:75–86.
- Suri, S. S., Fenniri, H., Singh, B. (2007). Nanotechnology-based drug delivery systems. J Occup Med Toxicol 2:1–6.
- Tilcock, C., Unger, E., Cullis, P., MacDougall, P. (1989). Liposomal Gd-DTPA: preparation and characterization of relaxivity. Radiology 171:77–80.
- Torchilin, V. P. (2010). Passive and active drug targeting: drug delivery to tumors as an example. Handb Exp Pharmacol 197:3–53.
- Torchilin, V. P., Levchenko, T. S., Lukyanov, A. N., Khaw, B. A., Klibanov, A. L., Rammohan, R., et al. (2001). p-Nitrophenylcarbonyl-PEG-PE-liposomes: fast and simple attachment of specific ligands, including monoclonal antibodies, to distal ends of PEG chains via p-nitrophenylcarbonyl groups. Biochim Biophys Acta 1511:397–411.
- Torchilin, V. P., Trubetskoy, V. S. (1995). In vivo visualizing or organs and tissues with liposomes. J Liposome Res 5:795–812.
- Trubetskoy, S. T., Torchilin, V. P. (1994). New approaches in the chemical design of Gd-containing liposomes for use in magnetic resonance imaging of lymph nodes. J Liposome Res 4:961–980.
- Weissig, V., Babich, J., Torchilin, V. P. (2000). Long-circulating gadolinium-loaded liposomes: potential use for magnetic resonance imaging of the blood pool. Colloids Surf B Biointerfaces 18:293–299.
- Zheng, J., Perkins, G., Kirilova, A., Allen, C., Jaffray, D. A. (2006). Multimodal contrast agent for combined computed tomography and magnetic resonance imaging applications. Invest Radiol 41:339–348.