A new concept for macromolecular therapeutics in cancer chemotherapy: mechanism of tumoritropic accumulation of proteins and the antitumor agent smancs.
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[1] H. Maeda,et al. Targeting Chemotherapy of Hepatocellular Carcinoma , 1987 .
[2] 岩井 顕. Use of oily contrast medium for selective drug targeting to tumor : enhanced therapeutic effect and X-ray image , 1986 .
[3] J. L. Bethune,et al. Isolation and characterization of angiogenin, an angiogenic protein from human carcinoma cells. , 1985, Biochemistry.
[4] J F Riordan,et al. Amino acid sequence of human tumor derived angiogenin. , 1985, Biochemistry.
[5] S. Maki,et al. Image enhancement in computerized tomography for sensitive diagnosis of liver cancer and semiquantitation of tumor selective drug targeting with oily contrast medium , 1985, Cancer.
[6] M. Ueda,et al. Conjugation of poly(styrene-co-maleic acid) derivatives to the antitumor protein neocarzinostatin: pronounced improvements in pharmacological properties. , 1985, Journal of medicinal chemistry.
[7] H. Dvorak,et al. Regulation of extravascular coagulation by microvascular permeability. , 1985, Science.
[8] J. Folkman. Tumor angiogenesis. , 1985, Advances in cancer research.
[9] S. Tashiro,et al. Selective targeting of anti‐cancer drug and simultaneous image enhancement in solid tumors by arterially administered lipid contrast medium , 1984, Cancer.
[10] Toshimitsu Konno,et al. Tailor-making of protein drugs by polymer conjugation for tumor targeting: A brief review on smancs , 1984 .
[11] S. Tashiro,et al. Effect of arterial administration of high-molecular-weight anticancer agent SMANCS with lipid lymphographic agent on hepatoma: a preliminary report. , 1983, European journal of cancer & clinical oncology.
[12] H. Dvorak,et al. Tumor cells secrete a vascular permeability factor that promotes accumulation of ascites fluid. , 1983, Science.
[13] R. L. Childs,et al. The preparation and labeling of DTPA-coupled albumin. , 1982, The International journal of applied radiation and isotopes.
[14] H. Maeda,et al. In vitro mode of action, pharmacokinetics, and organ specificity of poly (maleic acid-styrene)-conjugated neocarzinostatin, SMANCS. , 1982, Gan.
[15] Hiroshi Maeda,et al. A lipophilic derivative of neocarzinostatin. A polymer conjugation of an antitumor protein antibiotic. , 2009, International journal of peptide and protein research.
[16] H. Maeda,et al. Antimetastatic and antitumor activity of a derivative of neocarzinostatin: an organic solvent- and water-soluble polymer-conjugated protein. , 1979, Gan.
[17] J. Folkman,et al. Influence of geometry on control of cell growth. , 1975, Biochimica et biophysica acta.
[18] G. Lundborg,et al. Capillary permeability of two transplantable rat tumours as compared with various normal organs of the rat. , 1973, Bibliotheca anatomica.
[19] R. Fields. [38] The rapid determination of amino groups with TNBS. , 1972, Methods in enzymology.
[20] H. Anger,et al. Visualization of tumors in humans using 67Ga-citrate and the Anger whole-body scanner, scintillation camera and tomographic scanner. , 1970, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.
[21] D E Koshland,et al. A method for the quantitative modification and estimation of carboxylic acid groups in proteins. , 1967, The Journal of biological chemistry.
[22] R. Wright. Vascular Permeability in Experimental Brain Tumors , 1967, Angiology.