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Research Article

Literature Alerts

Pages 271-298 | Published online: 27 Sep 2008

LITERATURE ALERTS

  • Future of liposomes in therapeutics. Revue Medicale de Bruxelles, 1983, 4, (9), 617–622.
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  • Treatment of experimental murine candidiasis with liposome-associated amphotericin B. AHRENS, J., GRAYBILL, J. R., CRAVEN, P. C., and TAYLOR, R. L., Sabouraudia, 1984, 22, (2), 163–166.
  • Fusion of unilamellar vesicles to planar lipid bilayers: a model for exocytosis. ARABAS, M. H., 1983, 124 pp., Ph.D. Thesis, Univ. Microfilms Int. Erythrocyte and ghost cytoplasmic resistivity and voltage-dependent apparent size. AKESON, S. P., and MEL, H. C., Biophysical Journal, 1983, 44, (3), 397–403.
  • Preparation, analysis and application of (99mTc) human albumin microspheres ((99mTc)HAM) for lung scanning. AL-JANABI, M. A., AL, H. Y., and AL-SALEM, A. M., International Journal of Applied Radiation and Isotopes, 1984, 35, (3), 209–214.
  • Liposomes I. Properties and methods of preparation. ALKAN, H., Fabad Farm Bilimler Derg, 1983, 8, (4), 181–196.
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  • Recovery of embolized albumin microspheres from the pulmonary microvasculature using a wedged balloon-tipped catheter. ALLEN, W. G., OLSEN, G. N., WILLIAMS, W. H., and YERGIN, B. M., Critical Care Medicine, 1983, 11, (4), 261–264.
  • Formation of protein polymers in erythrocyte ghosts incubated with sonicated lipid vesicles. Effects on spectrin extractibility, permeability of ghosts to vesicles, intramembrane particle distribution and bleb formation. ALLotsto, N., GIRAUD, F., BOUTALBI, Y., et al., Biochimica et Biophysica Acta, 1983, 727, (2), 255–265.
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  • Reversal of streptozotocin-induced diabetes by transplantation of a single microencapsulated minced pancreas in the rat. ARAKI, Y., NAKAMURA, Y., KANATSUNA, T., and KONDO, M., Int. Congr. Ser.-Excerpta Med, 1983, 607 (Curr. Future Ther. Insulin), 376–383.
  • The stability of a prodrug, liposome and a prodrug-liposome complex in simulated biological conditions. ARROWSMITH, M., HADGRAFT, J., and KELLAWAY, I. W., International Journal of Pharmaceutics, 1983, 17, (1), 91–98.
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  • Cardiac output measurements with thermodilution and radioactive microspheres. A com-parative study in cats. ARVIDSSON, S., BERGQVIST, D., HAGLUND, U., and LINDBLAD, B., Scandinavian Journal of Clinical and Laboratory Investigations„ 1983, 43, (7), 617–620.
  • Membrane fluidity and myotonia: effects of cholesterol and desmosterol on erythrocyte membrane fluidity in rats with 20, 25-diazacholesterol-induced myotonia and on phospholipid liposomes. ASHRAF, J., FEIX, J. B., and BUTTERFIELD, D. A., Bioscience Reports, 1984, 4, (2), 115–120.
  • Increased number of myocardial blood flow measurements with radionuclide-labeled microspheres. BAER, R. W., PAYNE, B. D., VERRIER, E. D., VIAHAKES, G. 1., MOLODOWITCH, D., UHLIG, P. N., and HOFFMAN, J. I., American Journal of Physiology, 1984, 246, (3, Pt 2), H418–H434.
  • Glycolipid-dependent agglutination of liposomes by Croton tiglium lectin. BANERJEE, K. K., and SEN, A., FEBS Letters, 1983, 162, (2), 248–251.
  • Targeting of asialofetuin sugar chain-bearing liposomes to liver lysosomes. BANNO, Y., Onxt, K., and NOZAWA, Y., Biochemistry International, 1983, 7, (4), 455–461.
  • The retention and distribution in the rabbit knee of a radionuclide complexed with a lipophilic chelator in liposomes. BARD, D. R., KNIGHT, C. G., and PAGE-THOMAS, D. P., Clin. Exp. Rheumatol., 1983, 1, (2), 113–117.
  • Improved radioimmunodetection of tumours using liposome-entrapped antibody. BARRATT, G. M., RYMAN, B. E., BEGENT, R. H. J., et al. Biochimica et Biophysica Acta, 1983, 762, (2), 154–164.
  • Liposomes as aids to tumour detection. BARRATT, G. M., RYMAN, B. E., CHESTER, K. A., and BEGENT, R. H. J., Biochemical Society Transactions, 1984, 12, (2), 348–349.
  • Competitive inhibitory effect of alkali metal ions on ion transport by erythrocyte ghosts. BARTHA, K. G., BLASKO, K., and GYORGYI, S., Kiserletes Orvostudomany, 1983, 35, (4), 377–383.
  • The prevention of wound infection after head and neck resections: a pilot study using gentamicin impregnated beads. BARTON, R. P., and MOIR, A. A., Ann. R. Coll. Surg. Engl., 1984, 66, (2), 98–100.
  • Pharmacokinetics of subconjunctival liposome-encapsulated gentamicin in normal rabbit eyes. BARZA, M., BAUM, J., and SZOKA, F. JR., Invest. Ophthalmol. Vis. Sc., 1984, 25, (4), 486–490.
  • Antitumor activity of some BCG fractions incorporated in liposomes. BEAUDET, R., and PORTELANCE, V., Microbios. Lett., 1983, 23, (90), 63–66.
  • Clinical evaluation of an improved injectable microcapsule contraceptive system. BECK, L. R., FLOWERS, C. E. JR., POPE, V. Z., WILBORN, W. H., and TICE, T. R., Am. J. Obstet. Gynecol., 1983, 147, (7), 815–821.
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  • A comparison of the effects of cholesterol and 25-hydroxycholesterol on egg yolk lecithin liposomes: spin label studies. BENGA, G., HODARNAU, A., IoNEsuu, M., POP, V. I., FRANGOPOL, P. T., STRUJAN, V., HOLMES, R. P., and KUMMEROW, F. A., Annals of the New York Academy of Sciences, 1983, 414, 140–152.
  • Phospholipid-protein molecular interactions in relation to immunological processes. 1. Raman spectroscopic and calorimetric studies of phospholipid-polyglycine molecular interactions in model membranes. BERTOLUZZA, A., BONORA, S., FIN, G., MORELLI, M. A., and SIMONI, R., J. Raman Spectrosc., 1983, 14, (6), 395–400.
  • An improved method of harvesting haemoglobin-free human erythrocyte ghosts. BHATTACHARYA, S. P., Scandinavian Journal of Haematology, 1983, 31, (5), 461–465.
  • Side-dependent ion effects on the rate of ouabain binding to reconstituted human red cell ghosts. BODEMANN, H. H., REICHMANN, H., CALLAHAN, T. J., and HOFFMAN, J. F., Curr. Top. Membr. Tratzsp., 1983, 19, 229–233.
  • Methods in laboratory investigation. Exclusion of trypan blue from microcarriers by endo-thelial cells: an in vitro barrier function test. BOIADJIEVA, S., HALLBERG, C., HOGSTROM, M., and BUSCH, C., Laboratory Investigation, 50, (2), 239–246.
  • Removal of cholesterol from erythrocyte ghosts by phospholipids. BORODIN, E. A., LANIO, M. E., MARKIN, S. S., ARCHAKOV, A. I., and LOPUKHIN, Yu. M., Voprosy Meditsinskio Khimii, 1984, 30, (2), 75–77.
  • Intramasseteric hemangioma: nonoperative treatment with transarterial embolization with microparticles. BRAUN, I. F., and NAHAI, F., J. Med. Assoc. Ga., 1984, 73, (1), 27–30.
  • Transport and destruction of liposomes in small intestine mucus. BRODSKII, R. A., GAL'PERIN, Yu. M., LAZAREV, P. I., NADTOCHII, V. V., and POPOV, G. A., Doklady Akademii Nauk SSSR, 1983, 273, (2), 464–466.
  • Changes in the shape and ultrastructure of white ghosts of erythrocytes upon their sealing and phthalocyanine dye sorption. BRUDNAYA, M. S., KIRPICHNIKOVA, K. M., KOMISSARCHIK, YA Yu, and LEVIN, S. V., Tsitologiya, 1984, 26, (2), 184–187.
  • Mitochondrial cytochrome c oxidase inserted into artificial liposomes: transient kinetic studies. BRUNORI, M., CoLostmo, A., SARTI, P., and WILSON, M. T., Den. Bioenerg. Biomembr., 1983, 6 (Struct. Funct. Membr. Proteins), 365–368.
  • Preservation of multilamellar lipid vesicles (liposomes) for ultrastructural studies. BGCANA, C., HOVER, L. C., and PLENTOVICH, D., Scanning Electron Microscopy, 1983, (Pt. 3), 1329–1337.
  • Microelectrophoretic studies of gelatin and acacia for the prediction of complex coacervation. BURGESS, D. J., and CARLESS, J. E., Journal of Colloid and Interface Science, 1984, 98, (1), 1–8.
  • Induced alterations in the physical state of sialic acid and membrane proteins in human erythrocyte ghosts: Implications for the topology of the major sialoglycoprotein. BUTTERFIELD, D. A., FARMER, B. T. II, and FEIX, J. B., Annals of the New York Academy of Sciences, 414, 169–179.
  • Covalent attachment of insulin to the outer surface of liposomes. CANTENYS, D., CREACH, Y., PRADAYROL, L., HOLLANDE, E., and MASSOL, M., Biochemical and Biophysical Research Communications, 1983, 117, (2), 399–405.
  • Permeability of liposomes towards amino alcohol and amino acid nitroxides. CANTENYS, D., DOGOUNKOFF, C., and MASSOL, M., Chemistry and Physics of Lipids, 1983, 33, (4), 303–312.
  • Liposomes in diagnostic radiology. CARIDE, V. J., Biochemical Society Transactions, 1984, 12, (2), 346–347.
  • A study of the interaction between progesterone and membrane lipids. CARLSON, J. C., GRUBER, M. Y., and THOMPSON, J. E., Endocrinology, 1983, 113, (1), 190–194.
  • Incorporation of acylated wheat germ agglutinin into liposomes. CARPENTER-GREEN, S., and HUANG, L., Analytical Biochemistry, 1983, 135, (1), 151–155.
  • Oleic acid transfer from microsomes to egg lecithin liposomes: participation of fatty acid binding protein. CATALA, A., and AVANZATI, B., Lipids, 1983, 18, (11), 803–807.
  • Inhibition by phospholipid liposomes of the prolactin and cortisol response to insulin hypoglycemia in man. CAVAGNINI, F MARASCHINI, C., DUBIN, A., BAMELLA, C., DANESI, L., and FOSSATI, R., Psychopharma(ology (Berlin), 1984, 82, (3), 157–160.
  • Blood flow in exercising muscles by xenon clearance and by microsphere trapping. CERRETELLI, P., MARCONI, C., PENDERGAST, D., MEYER, M., HEISLER, H., and PIIPER, J., Journal of Applied Physiology, 1984, 56, (1), 24–30.
  • Simple methods for determining the accuracy of tumor blood flow measurements using radioactive microspheres in rats. CHAN, R. C., BARBS, C. F., and VETTER, R. J., Journal of Pharmacological Methods, 1983, 10, (3), 157–166.
  • Artificial cells in hemoperfusion and other applications. CHANG, T. M., Nephron, 1984, 36, (3), 161–168.
  • Artificial cells. CHANG, T. M. S., Blamed. Appl. Microencapsulation, CRC, 1984, 85–103.
  • Artificial cells. CHANG, T. M. S., Org. Coat. Appl. Polym. Sci. Proc., 1983, 48, 886–890.
  • Magnetic microspherical carrier-a new dosage form of fluorouracil as an anticancer agent. CHEN, Q., SUN, S. Y., Gu, X. Q., Li, Z. W., and Li, Z. X., Chung Kuo Yao Li Hsueh Pao, 1983, 4, (4), 273–276.
  • Effect of administration of lipid vesicle (liposome) bound cholesterol esterase on liver cholesterol ester levels in cholesterol-fed rats. CHERIAN, R., and BALASUBRAMANIAN, A. S., Indian Journal of Experimental Biology, 1983, 21, (9), 522–523.
  • Incorporation of plasmid DNA into liposomes from E. co/i total lipid and study of their stability. CHERNYAVSKII, V. A., OBUKHOVA, E. L., and ZEROV, Yu P., Biokhimiya (Moscow), 1984, 49, (1), 38–44.
  • The action of palytoxin on erythrocytes and resealed ghosts. Formation of small, nonselective pores linked with sodium, potassium dependent-ATPase. CHHATWAL, G. S., HESSLER, H. J., and HABERMANN, E., Naunyn-Schmiedeberg's Archives of Pharmacology, 1983, 323, (3), 261–268.
  • Increasing the tumor uptake of liposomally-entrapped substances by prior injection of empty liposomes. CI-1u, H. K., VOIGT, W., and HAYNES, D. H., IRCS Medical Science, 1983, 11, (5), 420–421.
  • Kinetics of cholesterol and phospholipid exchange between Mycoplasma gallisepticum cells and lipid vesicles. Alterations in membrane cholesterol and protein content. CLEJAN, S., and BITTMAN, R., Journal of Biological Chemistry, 1984, 259, (1), 441–448.
  • Parameters affecting the fusion of unilamellar phospholipid vesicles with planar bilayer membranes. COHEN, F. S., AKABAS, M. H., ZIMMERBERG, J., and FINKELSTEIN, A., Journal of Cell Biology, 98, (3), 1054-1062.
  • pH-sensitive liposomes: acid-induced liposome fusion. CONNOR, J., YATVIN, M. Band HUANG, L., Proceedings of the National Academy of Sciences, USA, 1984, 81, (6), 1715–1718.
  • Lipids and liposomes for improving efficacy of cancer chemotherapy. COUNE, A., European Journal of Cancer and Clinical Oncology, 1984, 20, (3), 443–445.
  • Iv administration of a water-insoluble antimitotic compound entrapped in liposomes. Preliminary report on infusion of large volumes of liposomes to man. COUNE, A., SCULIER, J. P., FRUHLING, J., STRYCKMANS, P., BRASSINNE, C., GHANEM, G., LADURON, C., ATASSI, G., RUYSSCHAERT, J. M., and HILDEBRAND, J., Cancer Treatment Reports, 1983, 67, (11), 1031–1033.
  • Future trends of liposomes in therapeutics. COUNE, A., SCULIER, J. P., BRASSINNE, C., and LADURON, C., Revue Medicale de Bruxelles, 1983, 4, (9), 617–622.
  • Insulating foam from glass wastes. CZERWINSKI, Z., CZEKAJOWSKA, W., and STOCH, L., Szklo i Ceramika, 1983, 34, (5-6), 164–166.
  • Drug delivery systems. DAVIS, S. S., and ILLum, L., Practitioner, 1983, 227, (1384), 1537–1543.
  • The targeting of drugs using polymeric microspheres. DAVIS, S. S., and ILLum, L., Br. Polym. J., 1983, 15, (4), 160–164.
  • Enzyme replacement therapy in porphyrias-IV. First successful human clinical trial of delta-aminolevulinate dehydratase-loaded erythrocyte ghosts. DEL C. BATLLE, A. M., BUSTOS, N. L., STELLA, A. M. et al., International Journal of Biochemistry, 1983, 15, (10), 1261–1265.
  • Production of microcapsules containing Tofizopam. DEVAY, A., and RACZ, I., Pharmaceutica Hungarica, 1984, 54, (2), 84–89.
  • Examination of parameters determining particle size of sulfamethoxazole microcapsules prepared by a new meltdispersion method. DEVAY, A., and RACZ, I., Pharm. Ind., 1984, 46, (1), 101–103.
  • Examination of the parameters determining the fiowability of drug microcapsules. DEVAY, A., and RACZ, I., Gyogyszereszet, 1984, 28, (1), 12–14.
  • Interaction of liposomes with Kupffer cells in vitro. DIJKSTRA, J., VAN GALEN, W. J., HULSTAERT, C. E., KALICHARAN, D., ROERDINK, F. H., and SCHERPHOF, G. L., Experimental Cell Research, 1984, 150, (1), 161–176.
  • Cardiostimulating effect of the norepinephrine contained in liposomes in condition of adrenoreceptor blockade. DMITRIEVA, A. V., STEFANO, A. V., Bow°, V. I., et al., Fiziologichnyi Zhurnal SSSR IM I M Sechenova, 1983, 69, (8), 1023–1030.
  • Relative error and variability in blood flow measurements with radiolabeled microspheres. DOLE, W. P., JACKSON, D. L., ROSENBLATT, J. I., and THOMPSON, W. L., American Journal of Physiology: Heart and Circulatory Physiology, 1982, 12, (3), H371–H378.
  • Development of the University of Pennsylvania Smell Identification Test: A standardized microencapsulated test of olfactory function. DOTY, R. L., SHAMAN, P., and DANN, M., Physiology and Behavior, 1984, 32, (3), 489–502.
  • University of Pennsylvania Smell Identification Test: a rapid quantitative olfactory function test for the clinic. DOTY, R. L., SHAMAN, P., KIMMELMAN, C. P., and DANN, M. S., Laryngoscope, 1984, 94, (2, Pt. 1), 176–178.
  • Magnetic targeting of microspheres in blood flow. DRISCOLL, C. F., MORRIS, R. M., SENYEI, A. E., et al., Microvascular Research, 1984, 27, (3), 353–369.
  • Insertion of apocytochrome c into lipid vesicles. DUMONT, M. E., and RICHARDS, F. M., Journal of Biological Chemistry, 1984, 259, (7), 4147–4156.
  • Lymphokine-stimulated macrophage phagocytosis of fluorescent microspheres: a rapid new assay. DUNN, P. A., EATON, W. R., LOPATIN, E. D., MCENTIRE, J. E., and PAPERMASTER, B. W., Journal of Immunological Methods, 64, (1–2), 71–83.
  • Ultrastructural alterations in macrophages after phagocytosis of acrylic microspheres. EDMAN, P., SjoHoLm, I., and BRUNK, U., Journal of Pharmaceutical Sciences, 1984, 73, (2), 153–156.
  • ph-Dependent fusion induced by vesicular stomatitis virus glycoprotein reconstituted in to phospholipid vesicles. EIDELMAN, 0., SCHLEGEL, R., TRALKA, T. S., and BLUMENTHAL, R., Journal of Biological Chemistry, 1984, 259, (7), 4622–4628.
  • pH-Induced destabilization of phosphatidylethanolamine-containing liposomes: Role of bilayer contact. ELLENS, H., BENTZ, J., and SZOKA, F. C., Biochemistry, 1984, 23, (7), 1532–1538.
  • Preclinical studies of intra-arterial chemotherapy using mitomycin c microspheres. ENDOH, F., FUJIMOTO, S., KITSUKAWA, Y MIYAZAKI, M., SHIMURA, T., SUGASAWA, H., TAKAHASHI, 0., KURIHARA, M., KAWATA, S., OKUI, K., et al., Gan To Kagaku Ryoho, 1984, 11, (5), 1092–1097.
  • Cytotoxic T lymphocyte recognition of HLA-Aill antigens introduced into EL4 cells by cell-liposome fusion. ENGELHARD, V. H., POWERS, G. A., MOORE, L. C., HOLTERMAN, M. J., and CORREA-FREIRE, M. C., Journal of Immunology, 1984, 132, (1), 76–80.
  • Studies on the manufacturing of uranium(VI)/carbon microspheres. ENGELMANN, H. J., Kernenergie, 1983, 26, (12), 469–471.
  • Liposomes in silicosis investigations. ERDOGDU, G., and HASIRCI, V. N., Environmental Health Perspectives, 1983, 51, 325–329.
  • Demonstrating patency of STA-MCA anastomosis with Tc-99m albumin microspheres. ETANI, H., KIMURA, K., YONEDA, S., et al., Journal of Nuclear Medicine, 1983, 24, (2), 136–138.
  • Liposome encapsulation of retrovirus allows efficient superinfection of resistant cell lines. FALLER, D. V., and BALTIMORE, D., Journal of Virology, 1984, 49, (1), 269–272.
  • Heparin adsorbing capacities at physiological pH of three poly(amidoamine) resins, and of poly(amido-amine)-surface-grafted glass microspheres. FERRUTI, P., DOMINI, I., BARBUCCI, R., et al., Biomaterials, 2983, 4, (3), 218–221.
  • Differential sensitivity to photohemolysis of erythrocytes enriched with some liposome-carried substances. FINAZZI-AGRO, A, AQUILIO, E., and CRIFO, C., Experientia, 1983, 39, (11), 1298–1300.
  • Studies on the use of antimitotic drugs entrapped within liposomes and of their action on a human glioma cell line. FIRTH, G., OLIVER, A. S., and MCKERAN, R. 0., Journal of Neurological Sciences, 1984,63, (2), 153–165.
  • Studies on disruption of sexual communication in the pink bollworm, Pectinophora gossypiella (Saunders) (Lepidoptera: Gelechiidae), with microencapsulated gossyplure or its component Z, Z-isomer. FLINT, H. M., and MERKLE, J. R., Bulletin of Entomological Research, 1984, 74, (1), 25–32.
  • Interaction between phosphatidylserine vesicles and rat brain synaptosomes. FLOREANI, M., and CARPENEDO, F., Biochemical and Biophysical Research Communications, 1984, 119, (3), 821–827.
  • Effect of ionizing radiation on thermotropic structural rearrangements in erythrocyte ghosts. FOMENKO, B. S., Studio Biophysica, 1983, 98, (3), 169–174.
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  • Structural changes in erythrocyte ghosts after irradiation and initiation of lipid oxidation detected with 2,6-toluidinenaphthalene sulfonate (2,6-TNS) and fluorescamine. FOMENKO, B. S., Radiobiologiya, 1984, 24, (1), 21–24.
  • Use of liposomes containing combinations of antibiotics for control of bacterial infections. FOUNTAIN, M. W., WEISS, S. J., and GINSBERG, R. S., 84th Annual Meeting of the American Society for Microbiology, St. Louis, Mo., USA, Mar. 4–9. 1984. Abstr. Annu. Meet. Am. Soc. Microbiol., 1984, Abstract A59.
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  • Intake of 4-methylumbelliferyl-alpha-glucoside-entrapping liposome into guinea pig macro-phages in vivo. Funmom, K., YAMAMOTO, A., YAMADA, M., et al., Cellular and Molecular Biology, 1983, 29, (1), 19–22.
  • Effect of cholesterol content of liposomes on the encapsulation, efflux and toxicity of adriamycin. GANAPATHI, R., and KRISHAN, A., Biochemical Pharmacology, 1984, 33, (4), 698–700.
  • Macromolecular biomaterials: general considerations, use of microcapsules in extracor-poreal circulation. GAYOT, A., and TRAISNEL, M., J. Pharm. Belg., 1983, 38, (5), 246–250.
  • Disturbance of lysosomal glycogen metabolism by liposomal anti-alpha-glucosidase and some anti-inflammatory drugs. GEDDES, R., OTTER, D. E., SCOTT, G. K., and TAYLOR, J. A., Biochemical Journal, 1983, 212, (1), 99–103.
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  • Thermotropic lipid phase separations in human erythrocyte ghosts and cholesterol-enriched rat liver plasma membranes. GORDON, L. M., and MOBLEY, P. W., Journal of Membrane Biology, 1984, 79, (1), 75–86.
  • Disposition of intact liposomes of different compositions and of liposomal degradation products. GOTFREDSEN, C. F., FROKJAER, S., HJORTH, E. L., JORGENSEN, K. D., and DEBROUX-GUISSET, M. C., Biochemical Pharmacology, 1983, 32, (22), 3381–3387.
  • Comparison of cholesterol-phospholipid interaction in bilayers of liposomes and the red cell membrane. GOTTLIEB, M. H., Biochimica et Biophysica Acta, 1984, 769, (2), 519–522.
  • Photosensitization of liposomal membranes by hematoporphyrin derivative. GOYAL, G. C., BLum, A., and GROSSWEINER, L. I., Cancer Research, 1983, 43, (12, Pt. 1), 5826–5830.
  • Targeting of small unilamellar liposomes to the galactose receptor in vivo. GREGORIADIS, G., and SENIOR, J., Biochemical Society Transactions, 1984, 12, (2), 337–339.
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  • Reconstruction of electrogenic function of the pigment-protein complex of photosystem (PS) incorporated into a liposome membrane together with the light-harvesting complex of higher plants. GULYAEV, B. A., and TUNGATAROVA, D. I., Doklady Akademii Nauk SSSR, 1984, 274, (2), 438-441 (Biophys.). Modified liposomes: Their suitability as drug carriers. GUPTA, C. M., Ann. Natl. Acad. Med. Sci. India, 1983, 19, (1), 22–34.
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  • Microsphere analysis of .beta.2-adrenergic control of resistance in different vascular areas after hemorrhage. GUSTAFSSON, D., ANDERSSON, L., MAARTENSSON, L., and LUNDVALL, J., Acta Physiologica Scandinavica, 1984, 121, (2), 119–126.
  • Phosphatidylcholine and cholesterol interactions in model membranes. GUYER, W., and BLocn, K., Chemistry and Physics of Lipids, 1983, 33, (4), 313–322.
  • Head group and structure specific interactions of enkephalins and dynorphin with liposomes: Investigation by hydrophobic photolabeling. GYSIN, B., and SCHWYZER, R., Archives of Biochemistry and Biophysics, 1983, 225, (2), 467–474.
  • Direct transfer of antigen-specific cytolytic activity to noncytolytic cells upon fusion with liposomes derived from cytolytic T cell clones. HARRIS, D. T., MACDONALD, H. R., and CEROTTINI, J. C., Journal of Experimental Medicine, 1984, 159, (1), 261–275.
  • Interaction of hapten-sensitized liposomes with cells bearing hapten-specific receptors. HASHIMOTO, K., INonE, K., NOJIMA, S., TADAKUMA, T., and VASUDA, T., Journal of Biochemistry, (Tokyo), 1983, 94, (6), 2009–2014.
  • Antibody-directed liposomes. Determination of affinity constants for soluble, and liposome-bound antifluorescein. HEATH, T. D., FRALEY, R. T., BENTZ, J., Voss, E. W. JR., HERRON, J. N., and PAPAHADJOPOULOS, D., Biochemica et Biophysica Acta, 1984, 770, (2), 148–158.
  • Antibody-targeted liposomes: Increase in specific toxicity of methotrexate-gamma-aspartate. HEATH, T. D., MONTGOMERY, J. A., PIPER, J. R., and PAPAHADJOPOULOS, D., Proceedings of the National Academy of Sciences, USA, 1983, 80, (51), 1377–1381.
  • Antibody-directed liposomes: the development of a cell-specific cytotoxic agent. HEATH, T. D., BRAGMAN, K. S., MATTHAY, K. K., LOPEZ-STRAUBINGER, N. G., and PAPAHADJOPOULOS, D., Biochemical Society Transactions, 1984, 12, (2), 340–342.
  • Conventional and microencapsulated spray and bait formulations for porina control. HENZELL, R. F., and LAUREN, D. R., Proceedings of the New Zealand Weed Pest Control Conference, 1983, 36, 190–194.
  • Regional blood flow in experimental myositis ossificans. A microsphere study in conscious rabbits. HIERTON, C., Acta Orthopaedica Scandinavica, 1983, 54, (1), 58–63.
  • %25-Hydroxysterols increase the permeability of liposomes to Ca2 + and other cations. HOMES, R. P., and Yoss, N. L., Biochimica et Biophysica Acta, 1984, 770, (1), 15–21.
  • In vitro antifungal activities of amphotericin B and liposome-encapsulated amphotericin B. HOPFER, R. L., MILLS, K., MEHTA, R., LOPEZ-BERESTEIN, G., FAINSTEIN, V., and JULIANO, R. L., Antimicrobial Agents and Chemotherapy, 1984, 25, (3), 387–389.
  • Preparation of microspheres of poly(glycidyl methacrylate) and its derivatives as carriers for immobilized proteins. HOSAKA, S., MURAO, Y., MAsuRo, S., and MIURA, K., Immunological Communications, 1983, 12, (5), 509–517.
  • Liposomes from polymerizable phospholipids. HUFFER, B., RINGSDORF, H.,, and SCHUPP, H., Chemistry and Physics of Lipids, 1983, 33, (4), 355–374.
  • Gamma-irradiation effects on phosphatidylcholine multilayer liposomes: calorimetric, NMR, and spectrofluorimetric studies. IANZINI, F., GUIDON, L., hNnovuvA, P. L., VITI, V., ERRIU, G., ONNIS, S., and RANDACCIO, P., Radiation Research, 1984, 98, (1), 154–166.
  • Erythrocyte carriers. IDLER, G. M., Pharmacology and Therapeutics, 1983, 20, (2), 151–169.
  • Transformation of L cells with virus thymidine kinase genes introduced by red cell-mediated microinjection. TIN°, T., FURUSAWA, M., FURUSAWA, I., and OBINATA, M., Experimental Cell Research, 148, (2), 475–480.
  • Comparative organ distribution of various sizes of liposomes during their intravenous administration. ISANIN, N. A., ROZENBERG, 0. A., SCHERBAKOV, L. M., KHANSON, K. P., and DAVIDENKOVA, E. F., Voprosy Meditsinskio Khimii, 1984, 30, (1), 37–41.
  • Magnetic microcapsules for in vitro testing as carrier for intravascular administration of anticancer drugs: Preparation and physicochemical properties. Ism', F., TAKAMURA, A., and NORO, S., Chemical and Pharmaceutical Bulletin, 1984, 32, (2), 678–684.
  • Cobalt-containing glasses of microspherical optics. IsmATov, A. A., YUNUSOV, M. Yu, ISMATOVA, M. Yu, and SALAKIIYTDINOV, M. S., Doklady Akademii Nauk UzSSR, 1983, (5), 34–36.
  • Liposomes as a means to introduce fragment A of diphtheria toxin into cells. JANSONS, V. K., and PANZNER, E. A., Biochimica at Biophysica Acta, 1983, 735, (3), 433–437.
  • Inhibition of antibody binding to viable cells by liposomes containing purified rat spleen glycoprotein. JANSSON, B., and SJOGREN, H. 0., Journal of Immunological Methods, 1983, 65, (1-2), 159–169.
  • Production of biologicals (interferon) from microencapsulated living cells. JARvls, A. P. JR., and GRDINA, T. A., BioTechniques, 1983, 1, (1), 22, 24–27.
  • High-temperature electrical conductivity and thermal decomposition of Sylgard 184 and mixtures containing hollow microspherical fillers. JOHNSON, R. T. JR., BIEFELD, R. M., and SAYRE, J. A., Polymer Engineering and Science, 1984, 24, (6), 435–441.
  • Stability properties of photopolymerized liposomes. JULIANO, R. L., REGEN, S. L., SINGH, M., Hsu, M. J., and SINGH, A., BiolTechnology, 1983, 1, (10), 882–885.
  • Regional blood-flow measurement in rabbit soft-tissue tumor with positron imaging using the C1502 steady-state and labeled microspheres. KAIRENTO, A. L., BROWNELL, G. L., SCHLUEDERBERG, J., and ELMALEH, D. R., Journal of Nuclear Medicine, 1983, 24, (12), 1135–1142.
  • Interaction of microspheres with blood constituents: I. Uptake of polystyrene spheres by monocytes and granulocytes and effect on immune responsiveness of lymphocytes. KANKE, M., SNIECINSKI, I., and DELucA, P. P., Journal of Parenteral Science and Technology, 1983, 37, (6), 210–217.
  • Targeted anticancer chemotherapy with microencapsulated anticancer drug. KATO, T., and MEMOTO, R., Artificial Organs, (Tokyo) 1983, 12, (2), 685–688.
  • Chemo-embolization with mitomycin C microcapsules for hepatoma. KATO, T., TAMAKAWA, Y., and UNNO, K., Gan-To-Kagaku-Ryoho, 1984, 11, (4), 798–805.
  • Effect of compound 48/80 on the phase transition temperature and permeability of liposomal membrane. KATSU, T., TASAKA, K., and Ewalt, Y., Chemical and Pharmaceutical Bulletin, 1984, 32,(3), 1228–1231.
  • Ornithine-containing lipid of Bordetella pertussis, a new type of hemagglutinin. KAWAI, Y., and YANO, I., European Journal of Biochemistry, 1983, 136, (3), 531–538.
  • Drug release properties of the microcapsules of adriamycin hydrochloride with ethylcellulose prepared by a phase separation technique. KAWASHIMA, Y., UN, S. Y., KASAI, A., et al., Drug Development and Industrial Pharmacy, 1984, 10, (3), 467–479.
  • Polymorphism and drug release behavior of spray-field microcapsules of sulfamethoxazole with polysaccharide gum and colloidal silica. KAWASHIMA, Y., LIN, S. Y., and TAKENAKA, H., Drug Development and Industrial Pharmacy, 1983, 9, (8), 1445–1463.
  • Preparation and biopharmaceutical evaluation of microcapsules: Amoxicillin and piretanide. KAWA IA, M., MATSUYAMA, K., GOTO, S., et al., Journal of Pharmarolno-Dynamtes, 1984, 7, (2), s–34.
  • Clearance of injected radioactively labelled antibodies to tumour products by liposome bound second antibodies. KEEP, P. A., SEARLE, F., BEGENT, R. H. J., et al., Oncodevelopmental Biology and Medicine, 1983, 4, (4), 273–280.
  • In vivo assessment of pyridoxylated crosslinked polyhemoglobin as an artificial red cell substitute in rats. KEIPERT, P. E., and CHANG, T. M., Trans. Am. Soc. Arti f. Intern. Organs, 1983, 29, 329–333.
  • Carrier activity of sonicated small liposomes containing melphalan to regional lymph nodes of rats. KHATO, J., DEL-CAMEO, A. A., and SIEBER, S. M., Pharmacology, 1983, 26, (4), 230–240.
  • Correlation of erythrocytic peripheral blood chimaerism and putative bone marrow precur-sors bearing erythroid differentiation (B-G) antigens using monoclonal antibodies immobilized on fluorescent latex spheres. KIERAN, M. W., and LONGENECKER, B. M., Journal of Immunological Methods, 1984, 66, (2), 349–356.
  • Liposomes. I. Preparation and test methods. Kixocul, H., and INouE, K., Saibo Kogaku, 1983, 2, (9), 1136–1150.
  • Synthesis of N-hydroxysuccinimide esters of phosphatidylethanolamine and some properties of liposomes containing these derivatives. KINSKY, S. C., HASHIMOTO, K., LOADER, J. E., and BENSON, A. L., Biochimica et Biophysica Acta, 1984, 769, (3), 543–550.
  • Catalytic effects of cationic polymeric liposomes on the alkaline hydrolysis of anionic phenyl esters. KITANO, H., KATSUKAWA, M., IsE, N., DORN, K., and RINGSDORF, H., Makromolekulare Chemie, 1984, 185, (1), 157–165.
  • Liposome. II. Liposomes as drug carriers. KIWADA, H., Saibo Kogaku, 1983, 2, (10), 1251–1258.
  • Human monocytes activated by immunomodulators in liposome lyse herpesvirus-infected but not normal cells. KOFF, W. C., FIDLER, I. J., SHOWALTER, S. D., CHAKRABARTY, M. K., HAMPAR, B., CECCORULLI, L. M., and KLEINERMAN, E. S., Science, 1984, 224, (4652), 1007–1009.
  • Lysis of Herpes simplex virus infected cells by human monocytes activated with free and liposome encapsulated human recombinant gamma interferon. KOFF, W. C., SHOWALTER, S. D., CECCORULLI, L. M., and KLEINERMAN, E. S., 84th Annual Meeting of the American Society for Microbiology, St. Louis, Mo., USA, Mar. 4–9. 1984, Abstract S24.
  • Lysis of herpesvirus-infected cells by macrophages activated with free or liposome-encapsulated lymphokine produced by a murine T cell hybridoma. KOFF, W. C., SHOWALTER, S. D., SENIFF, D. A., and HAMPAR, B., Infection and Immunity, 1983, 42, (3), 1067–1072.
  • Studies on microcapsules. II. Influence of molecular weight of ethylcellulose in the microencapsulation of ascorbic acid. KOIDA, Y., HIRATA, G., and SAmEJIMA, M., Chemical and Pharmaceutical Bulletin (Tokyo), 1983, 31, (12), 4476–4482.
  • Growth of acid-fast bacteria enhanced by lecithin given in a form of liposomes: a partial model of mycobacterial infection. KONDO, E., Suzum, K., and KANAI, K., Kekkaku, 1983, 58, (8), 435–441.
  • Utilization by mycobacteria of lecithin given in a form of liposomes. KONDO, E., SUZUKI, K., and KANAI, K., Kekkaku (Tuberculosis), 1983, 58, (8), 435–441.
  • The effect of (13 00H) linoleic acid on human erythrocytes and on erythrocyte ghosts. KOSTER, J. F., SLEE, R. G., RUTTEN-VAN-BEYSTERVELD, C. C., and MONTFOORT, A., Biochimica et Biophysica Acta, 1983, 754, (3), 238–242.
  • Nirofurantoin: A sustained release formulation on the microencapsulation principle. KRAUSKOPF, R., PEETZ, H. G., TOBUREN, D., and VOGTLE-JUNICERT, U Therapiezvoche, 1983, 33, (24), 3389–3396.
  • Non-ohmic proton conductance of mitochondria and liposomes. KRISHNAMOORTHY, G., and HINKLE, P. C., Biochemistry, 1984, 23, (8), 1640–1645.
  • Stability of erythrocyte ghosts: A gamma-ray perturbed angular correlation study. KRUSE, C. A., TIN, G. W., and BALDESCHWIELER, J. D., Proceedings of the National Academy of Sciences, USA, 1983, 80, (51), 1212–1216.
  • Influence of the size of the polar part of amphiphile ammonium salts on ion transport across liposome membrane. KUCZERA, J., GABRIELSKA, J., ZYLKA, R., PRZESTALSKI, S., WITEK, S., and GROBELNY, D., Studio Biophysica, 1983, 96, (3), 203–211.
  • Effect of amphophilic detergents on liposome membranes. KUCZERA, J., Zagadnienia Biofiz. Wspolczesnej, 1983, 8, 53–101.
  • Interaction of liposomes with human leukocytes in whole blood. KUHN, S. H., GEMPERLI, B., SHEPRARD, E. G., et al., Biochimica et Biophysica Acta, 1983, 762, (1), 119–127.
  • Properties of functional polymeric microspheres obtained by radiation polymerization of acrolein. KUMAKURA, M., SUZUKI, M., and KAETSU, I., Journal of Colloid and Interface Science, 1984, 97, (1), 157–165.
  • Stabilization of small unilamellar liposomes: polymerization of surfactants in phospholipid vesicles. KURIHARA, K., and FENDLER, J. H., J. Chem. Soc., Chem. Commun., 1983, (21), 1188–1189.
  • EPR study of the transmembrane phototransfer of electrons in liposome solutions. KUZNETSOV, E. I., LYMAR, S. V., BOL'SHAKOV, V. I., PARMON, V. N., FEDOROV, Yu I., and ZAMARAEV, K. I., Khim. Fiz., 1983, (10), 1370–1375.
  • Dolichol induces membrane leakage of liposomes composed of phosphatidylethanolamine and phosphatidylcholine. LAI, C. S., and SCHUTZBACH, J. S., FEBS Letters, 1984, 169, (2), 279–282.
  • The use of polyacrylates in the microencapsulation of viable tissue cells. LAMBERT, F. V., WHEATLEY, M. A., EVANGELISTA, R. A., and SEFTON, M. V., Polymer Preprints (Am. Chem. Soc., Div. Polym. Chem.), 1983, 24, (1), 75–76.
  • The effect of surface charges of liposomes in immunopotentiation. LARIF, N., and BACHHAWAT, K., Bioscience Reports, 1984, 4, (2), 99–107.
  • Improvement of iron removal from the reticuloendothelial system by liposome encapsulation of N,N'-bis(2-hydroxy-benzy1)-ethylenediamine-N,N'-diacetic acid (HBED). Compa-rison with desferrioxamine. LAU, E. H., CERNY, E. A., WRIGHT, B. J., and RAHMAN, Y. E., Journal of Laboratory and Clinical Medicine, 1983, 101, (5), 806–816.
  • Effect of phospholipase D on L-alpha-dimyristoylphosphatidylcholine liposomes containing cholesterol, L-alpha-phosphatidylinositol, and L-alpha-phosphatidylserine. LEE, E. 0., Yakhak Hoechi, 1983, 27, (4), 249–256.
  • Precorneal factors influencing the ocular distribution of topically applied liposomal inulin. LEE, V. H., TAKEMOTO, K. A., and Iimuro, D. S., Current Eye Research, 1984, 3, (4), 585–591.
  • Liposome-mediated transfer of macromolecules into flagellated cell envelopes from bacteria. LELKES, P. I., KLEIN, L., MARIKOVSKY, Y., and EISENBACH, M., Biochemistry, 1984, 23, (3), 563–568.
  • Antibody-bearing liposomes: Targeting in vivo. LESERMAN, L. D., MACHY, P., DEVAUX, C., and BARBET, J., Biology of the Cell, 1983, 47, (1), 111–115.
  • Preparation and stability of methotrexate (MTX)-liposomes. Li, K. Q., and WENG, G. Y., Yao Hsueh Hsueh Pao, 1983, 18, (6), 453–459.
  • Structural characteristics of phospholipid multilamellar liposomes. LICHTENBERG, D., and MARKEL,LO, T., Journal of Pharmaceutical Sciences, 1984, 73, (1), 122–125.
  • Microencapsulation of living cells and tissues-theory and practice. Lim, F., Biomedical Applications of Microencapsulation, CRC, 1984, 137–154.
  • Biomedical Applications of Microencapsulation. Lim, F., Ed., CRC Press, 1984.
  • Tissue blood flow and blood flow distribution after administration of dextran 70, dihydroergotamine and their combination. A study in dogs using the radioactive microsphere technique. LINDBLAD, B., and BERGQVIST, D., Acta Chirurgica Scandinavica, 1983, 149, (5), 467–472.
  • Only solid red blood cell ghosts transport potassium and sodium against concentration gradients: hollow intact ghosts with potassium-sodium activated ATPase do not. LING, G. N., and TUCKER, M., Physiol. Chem. Phys. Med. NMR, 1983, 15, (4), 311–317.
  • Preparation and drug release properties of albumin-poly(glutamic acid)-adriamycin microspheres. LONGO, W. E., IWATA, H., LINDHEIMER, T., and GOLDBERG, E. P., Polymer Preprints (Am. Chem. Soc., Div. Polym. Chem.), 1983, 24, (1), 56–57.
  • Prophylaxis of Candida albicans infection in neutropenic mice with liposome-encapsulated amphotericin B. LOPEZ BERESTEIN, G., HOPFER, R. L., MEHTA, R., MEHTA, K., HERSH, E. M., and JULIANO, R. L., Antimicrobial Agents and Chemotherapy, 1984, 25, (3), 366–367.
  • Clinical pharmacology of 99mTc-labeled liposomes in patients with cancer. LOPEZ BERESTEIN, G., KASI, L., ROSENBLUM, M. G., HAYNIE, T., JAHNs, M., GLENN, H., MEHTA, R., MAVLIGIT, G. M., and HERSH, E. M., Cancer Research, 1984, 44, (1), 375–378.
  • The activation of human monocytes by liposome-encapsulated muramyl dipeptide analogues. LOPEZ-BERESTEIN, G., MEHTA, K., MEHTA, R., et al., Journal of Immunology, 1983, 130, (4), 1500–1502.
  • Spectroscopic study of liposomes. LUK'YANOV, A. E., BULGYIN, A. N., and NIKOLAEV, B. P., Mol. Fiz . Biofiz Vodn. Sist., 1983,5, 110–115.
  • Plastic microspheres give low-density paper and decrease raw material costs. LUNABBA, M., Sven. Papperstidn., 1984, 87, (1), 14–16. 18.
  • Liposomes as carriers for the transfer of nucleic acids into higher plant protoplasts. LURQUIN, P. F., Miles Int. Symp. Ser., 1984, 14 (Cell Fusion: Gene Transfer Transform.), 227–236.
  • An overview of pharmaceutical applications (of microencapsulation). Luzzi, L. A., and PAI.MIERI, A. III., Biomedical Applications of Microencapsulation, CRC, 1984, 1,–17.
  • Lipid mixing during freeze-thawing of liposomal membranes as monitored by fluorescence energy transfer. MACDONALD, R. I., and MACDONALD, R. C., Biochimica et Biophysica Ada, 1983, 735, (2), 243–251.
  • Evaluation of peritoneovenous shunt patency with Tc-99m labeled microspheres. MADDEDDU, G., D'Ovimo, N. G., CASU, A. R., etal., Journal of Nuclear Medicine, 1983, 24, (4), 302–307.
  • Temperature-dependent permeability of large unilamellar liposomes. MAGIN, R. L., and NIESMAN, M. R., Chemistry and Physics of Lipids, 1984, 34, (3), 245–256.
  • Simple rapid method for the preparation of enteric-coated microspheres. MAHARAJ, I., NAIRN, J. G., and CAMPBELL, J. B., Journal of Pharmaceutical Sciences, 1984,73, (1), 39–42.
  • The theory and practical applications of liposome-protoplast interactions. MAKINS, J. F., Experzentia (Suppl.)., 1983, 46, 197–207.
  • Incorporation of bovine thyroid peroxidase in liposomes. MANJON, A., GARCIA-BORRON, J. C., LOZANO, J. A., and IBORRA, J. L., Chemistry and Physics of Lipids, 1984, 34, (3), 237–244.
  • Liposome-mediated insertion of intact DNA into isolated nuclei. Potential for a new in vitro transcription system. MARCHETTI, D., BLAUSTEIN, D. I., and GIACOMONI, D., Experimental Cell Research, 1983, 149, (1), 177–187.
  • Agarose-polyaldehyde microsphere beads: Synthesis and biomedical applications. Cell labeling, cell separation, affinity chromatography, and hemoperfusion. MARCEL, S., Applied Biochemistry and Biotechnology, 1983, 8, (6), 523–539.
  • Agarose-polymeric microsphere beads: specific new adsorbents for hemoperfusion. MARCEL, S., Reactive Polymers, Ion Exchangers, Sorbents, 1983, 1, (4), 241–250.
  • Acrolein polymerization: monodisperse, homo, and hybrido microspheres, synthesis, mechanism, and reactions. MARCEL, S., and WIESEL, E., Journal of Polymer Science, Polymer Chemistry Edition, 1984, 22, (1), 145–158.
  • Suppression of intercellular adhesion by liposomes. MARGOLIS, L. B., and NEIFAKH, A. A., JR., Doklady Akademii Nauk SSSR, 1984, 274, (6), 1470–1472.
  • The distribution of solid liposomes of different size on the surface of epithelial cells. MARGOLIS, L. B., and NEYFAKH, A. A. JR., European Journal of Cell Biology, 1983, 31, (2), 256–262.
  • Restoration of high-potential cytochrome b-559 in photosystem II particles in liposomes. MATSUDA, H., and BUTLER, W. L., Biochimica et Biophysica Acta, 1983, 725, (2), 320–324.
  • Specific enhancement of drug delivery to AKR lymphoma by antibody-targeted small unilamellar vesicles. MATTHAY, K. K., HEATH, T. D., and PAPAHADJOPOULOS, D., Cancer Research, 1984,44, (5), 1880–1886.
  • Effect of liposome entrapped chemotherapeutic agents on mouse primary and metastatic tumors. MAYHEW, E., and RUSTUM, Y., Biology of the Cell, 1983, 47, (1), 81–85.
  • In situ absorption and in vitro release of microencapsulated cimetidine. MAYSINGER, D., and jALSENJAK, I., International Journal of Pharmaceutics, 1983, 17, (2-3), 129–134.
  • Circular dichroism study of the interaction between aromatic heptaene antibiotics and small unilamellar vesicles. MAZERSKI, J., BOLARD, J., and BOROWSKI, E., Biochemical and Biophysical Research Communications, 1983, 116, (2), 520–526.
  • Stimulation of macrophage protease secretion via liposomal delivery of muramyl dipeptide derivatives to intracellular sites. MEHTA, K., JULIANO, R. L., and LOPEZ-BERESTETN, G., Immunology, 1984, 51, (3), 517–527.
  • Liposomal amphotericin B is toxic to fungal cells but not to mammalian cells. MEHTA, R., LOPEZ-BERESTEIN, G., HOPPER, R., MILLS, K., and JULIANO, R. L., Biochimica et Biophysica Ada, 1984, 770, (2), 230–234.
  • SEM localization of cell-surface-associated fibronectin in the cranium of chick embryos utilizing immunolatex microspheres. MEIER, S., and DRAKE, C., Journal of Embryology and Experimental Morphology, 1984, 80, 175–195.
  • Does microencapsulation have a future in drug formulation? MERKLE, H. P., Pharmacy International, 1984, 5, (4), 88–91.
  • Encapsulation of clindamycin within liposomes. MESSINA, J., TINE, J., MANNINO, R., and VENEZIA, R. A., 84th Annual Meeting of the American Society for Microbiology, St. Louis, Mo., USA, Mar. 4–9. 1984, Abstract A55.
  • Induction of high titer mouse-antihuman spermatozoal antibodies by liposome incorporation of spermatozoal membrane antigens. METTLER, L., CZUPPON, A. B., BUCCHHEIM, W., BAUKLOH, V., GHYCZY, M., ETSCHENBERG, J., and HOLSTEIN, A. F., American Journal of Reproductive Immunology, 1983, 4, (3), 127–132.
  • Ion channels in liposomes. MILLER, C., Annual Review of Physiology, 1984, 46, 549–558.
  • Integral membrane channels: studies in model membranes. MILLER, C., Physiological Reviews, 1983, 63, (4), 1209–1242.
  • First steps in the reconstruction of ionic channel functions in model membranes. MILLER, C., Curr. Methods Cell Neurobiol., 1983, 3, 1–37.
  • Surface-to-core and interparticle equilibrium distributions of triglyceride-rich lipoprotein lipids. MILLER, K. W., and SMALL, D. M., Journal of Biological Chemistry, 1983, 258, (22), 13772–13784.
  • Alteration in starch microsphere degradation following contrast angiography in the dog kidney. Mm, S., SHUMAN, L. S., WRIGHT, K. C., et al., Investigative Radiology, 1984, 19, (2), 119–122.
  • Study of incorporation of bacteriorhodopsin proteoliposomes into bilayer lipid membranes. MIRSKII, V. M., SOKOLOV, V. S., MEI:NIX, E. I., and DYUKOVA, T. V., Biofizika, 1984, 29, (2), 250–254.
  • Application of liposome methods to therapy. MIURA, N., Chiryogaku, 1983, 11, (2), 193–199.
  • Permeability changes induced by in vitro peroxidation in multilamellar liposomes: Spin trapping study. MIWA, H., and YAMAMOTO, M., Journal of Pharmacobio-Dynamics, 1984, 7, (2), s–29.
  • Prostaglandin El is more effective, when incorporated in lipid microspheres, for treatment of peripheral vascular diseases in man. MIZUSHIMA, Y., YANAGAWA, A.,, and Hosm, K., Journal of Pharmacy and Pharmacology, 1983, 35, (10), 666–667.
  • Size and permeability of liposomes extruded through polycarbonate membranes. MORII, M., SAMIR-SAYED, A. Z., and TAKEGUCHI, N., International Journal of Pharmaceutics, 1983, 17, (2-3), 215–224.
  • Particle size analysis of microcapsules. MORRIS, N. J., and WARBURTON, B., Journal of Pharmacy and Pharmacology, 1984, 36, (2), 73–76.
  • Dark oxidation of liposomes by photooxidized 8-methoxypsoralen. MOSHNIN, M. V., POTAPENKO, A. YA, SUKHORUKOV, V. L., and ZmumatovA, V. A., Zhurnal Fizicheskoi Khimil, 1983, 57, (11), 2815–2817.
  • Effect of lipid composition of liposomes on their sensitivity to peroxidation. MOWRI, H., NojimA, S., and INouE, K., Journal of Biochemistry (Tokyo), 1984, 95, (2), 551–558.
  • Incorporation of danyslated phospholipids and dehydroergosterol into membranes using a phospholipid exchange protein. MUCZYNSKI, K. A., and STAHL, W. L., Biochemistry, 1983, 22, (25), 6037–6048.
  • Formation and properties of cell-size lipid bilayer vesicles. MUELLER, P., CHIEN, T. F., and RUDY, B., Biophysical Journal, 1983, 44, (3), 375–381.
  • Order-disorder phase transition and lipid dynamics in rabbit small intestinal brush border membranes. Effect of proteins. MUETSCH, B., GAINS, N., and HAUSER, H., Biochemistry, 1983, 22, (26), 6326–6333.
  • Calcium binding to liposomes composed of negatively charged lipid moieties. MUHLEISEN, M., PROBST, W., HAYASHI, K., and RAHMANN, H.„ Japanese Journal of Experimental Medicine, 1983, 53, (2), 103–107.
  • Doxorubicin inhibits the phosphate transport protein reconstituted in liposomes. A study on the mechanism of the inhibition. MULLER, M., CHENEVAL, D., and CARAFOLI, E., European Journal of Biochemistry, 1984, 140, (3), 447–452.
  • Incorporation of small unilamellar liposomes loaded with horseradish peroxidase into isolated nerve endings from electric organ of Torpede marmorata. MULLER, U., MUNZ, K., and WASER, P. G., Journal of Neurocytology, 1983, 12, (3), 507–516.
  • Morphological change induced by intermembrane interaction of synthetic peptide lipids bearing cationic and nonionic head groups. MURAKAMI, Y., NAKANO, A., Kntuum, J., TAKAKI, T., and UCHIMURA, K., Chemistry Letters, 1983, (12), 1891–1894.
  • Effects of plasma components on platelet adhesion to microcapsules. MURAMATSU, N., and KONDO, T., Chemical and Pharmaceutical Bulletin (Tokyo), 1983, 31, (12), 4517–4523.
  • Platelet adhesion onto microcapsule membranes with different degrees of sulfonation. MURAMATSU, N., and KONDO, T., Journal of Biomedical Materials Research, 1983, 17, (6), 959–971.
  • Reconstitution of light-harvesting chlorophyll-protein complexes with photosystem II com-plexes in soybean phosphatidylcholine liposomes. Enhancement of quantum efficiency at sub-saturating light intensities in the reconstituted liposomes. MURPHY, D. J., CROWTHER, D., and WOODROW, I. E., FEBS Letters, 1984, 165, (2), 151–155.
  • Effects of polypeptide-phospholipid interactions on bilayer reorganizations. Raman spec-troscopic study of the binding of polymyxin B to dimyristoylphosphatidic acid, and dimyristoylphosphatidylcholine dispersions. MUSHAYAKARARA, E., and LEVIN, I. W., Biochimica et Biophysica Acta, 1984, 769, (3), 585–595.
  • Modulation of neuraminidase activity by the physical state of phospholipid bilayers containing gangliosides Gdla and Gtlb. MYERS, M., WORTMAN, C., and FREIRE, E., Biochemistry, 1984, 23, (7), 1442–1448.
  • Interaction of rat serum phosphorylcholine-binding protein with phospholipid-containing liposomes. NAGPURKAR, A., SAXENA, U., and MOOKERJEA, S., Journal of Biological Chemistry, 1983, 258, (17), 10518–10523.
  • Positive effects of chemoembolization by MMC-microcapsule for renal cell carcinoma: With special references to the histological changes and the reduction of the tumor size. NAKADA, G., MACHIDA, T., MASUDA, F., et al., Japanese Journal of Clinical Urology, 1983, 37, (8), 707–711.
  • Localization of lipid peroxidation products in liposomes after gamma-irradiation NAKAZAWA, T., TERAYAMA, K., OKUAKI, H., and YUKAWA, 0., Biochi mica et Biophysica Ada, 1984, 769, (2), 323–329.
  • Red cell and ghost viscoelasticity. Effects of hemoglobin concentration and in vivo aging. NASH, G. B., and MEISELMAN, H. J., Biophysical Journal, 1983, 43, (1), 63–73.
  • The role of membrane-bound glycoprotein in the permeability of liposomes. NEITcHEv, V., International Journal of Biochemistry, 1984, 16, (2), 235–238.
  • Liposome therapy for experimental cutaneous and visceral leishmaniasis. NEW, R. R. C., CHANCE, M. L., and HEATH, S., Biology of the Cell, 1983, 47, (1), 59–64.
  • Transfer of band 3, the erythrocyte anion transporter, between phospholipid vesicles and cells. NEWTON, A. C., Coox, S. L., and HUESTIS, W. H., Biochemistry, 1983, 22, (26), 6110–6117.
  • Liposomes for gene transfer and expression in vivo. NICOLAU, C., Biochemical Society Transactions, 1984, 12, (2), 349–350.
  • Liposomes for gene transfer and expression in vivo. NICOLAU, C., LEGRAND, A., and SORIANO, P., Ciba. Found. Symp., 1984, 103, 254–267.
  • Effect of microcapsule core-wall ratio and aggregate size on the properties of tableted microcapsules. NixoN, J. R., and AGYILIAH, G. A., Journal of Pharmaceutical Sciences, 1984, 73, (1), 52–54.
  • Release characteristics of microcapsules. NIXON, J. R., Biomedical Applications of Microencapsulation, CRC, 1984, 19–51.
  • Effects of muramyl dipeptide (MDP), its analog and liposomes containing MDP on activation of the tumoridical properties of mouse peritoneal cells. NORIO, K., Kyoto-furitsu Ika Daigaku Zasshi, 1983, 92, (10), 1689–1702.
  • Microsphere embolization of nerve capillaries and fiber degeneration. NUKADA, H., and DYCK, P. J., American Journal of Pathology, 1984, 115, (2), 275–287.
  • Radiation-induced generation and properties of lipid hydroperoxide in liposomes. O'CONNELL, M. J., and GARNER, A., International Journal of Radiation Biology, 1983, 44,(6), 615–625.
  • The nicotinic acetylcholine receptor from Discopyge tschudii: purification, characterization and reconstitution into liposomes. OCHOA, E. L., DE JIMENEZ-BONINO, M. B., CASCONE, 0., MEDRANO, S., and COUSSEAU, M. B., Comparative Biochemistry and Physiology (C), 1983, 76, (2), 313–317.
  • Preparation of iodoacetamidoethy1-5-125I amirtonaphthalene-l-sulfonic acid in liposomes. OGAWA, N., and JAY, M., Journal of Labelled Compounds and Radiopharmaceuticals, 1983, 20, (11), 1265–1274.
  • Clearance and maximum removal rate of liposome in normal and impaired liver of rat. OGIWARA, M., Gasteoenterologia Japonica, 1984, 19, (1), 34–40.
  • Changes in segmental motion of the membrane-composing molecules of dimyristoyl-phosphatidylcholine liposomes by incorporation of polypeptides.
  • °FIN°, H., SEKI, N., and TSUCHIDA, E., Makromolekulare Chemie, 1984, 185, (2), 329–337.
  • Pharmaceutical studies on liposomes: Improvement of entrapping efficiency for water soluble drugs by freezing method. OFISAWA, T., MIURA, H., HARADA, K., et al., Journal of Pharmacobio-Dynamics, 1984, 7, (2), s–36.
  • Differing reactivities of human and guinea-pig complement on haptenized liposomes via the alternative pathway. OKADA, N., YASHUDA, T., TSUMITA, T., and OKADA, H., Molecular Immunology, 1983, 20, (8), 857–864.
  • Membrane sialoglycolipids regulate the activation of the alternative complement pathway by liposomes containing trinitrophenylaminocaproyldipalmitoylphosphatidylethanol-amine. OKADA, N., YASUDA, T., TSUMITA, T., and OKADA, H., Immunology, 1983, 48, (1), 129–140.
  • Microcapsules. OKAHATA, Y., Kgyo Zairyo, 1984, 32, (1), 102–109.
  • Studies on suspension and emulsion. LXXIII. Immobilization of trypsin onto poly(methyl methacrylate) microsphere by azide method and its enzymic activity. OKUBO, M., TAKEYA, T., MORI, K., KAMEI, S., and MATSUMOTO, T., Kobunshi Ronbunshu, 1983, 40, (12), 801–808.
  • Studies on suspension and emulsion. LXXIV. Adsorption immobilization of trypsin onto polymer microspheres having different surface charge density and its enzymic activity. 01{1.'130, M., Morn, K., KAMEI, S., and MATSUMOTO, T., Kobunsht Ronbunshu, 1983, 40, (12), 809–816.
  • A spin label study of the perturbation effect of tertiary amine anesthetics on brain lipid liposomes and synaptosomes. ONDRIAS, K., BALGAVY, P., STOLC, S., and HORVATH, L. I., Biochimica et Biophysica Acta, Ser. Biomembr 1983, 732, (3), 627–635.
  • (Microautoradiography of tissue distribution of liposome entrapped 3H-beta-galactosidase). ONODERA, H., TAK ADA, G., and TADA, K., No to Hattatsu, 1983, 15, (6), 478-486 Microautoradiographic study on the tissue localization of liposome-entrapped or unentrapped 3H-labeled beta-galactosidase injected into rats. ONODERA, H., TAKADA, G., TADA, K., and DESNICK, R. J., Tohoku Journal of Experimental Medicine, 1983, 140, (1), 1–13.
  • Study of microencapsulated urease in a continuous feed, stirred tank reactor. ORTMANIS, A., NEUFELD, R. J., and CHANG, T. M. S., Enzyme and Microbial Technology, 1984, 6, (3), 135–139.
  • The mechanism of liposome accumulation in infarction. PALMER, T. N., CARIDE, V. J., CALDECOURT, M. A., TWICKLER, J., and ABDULLAH, V., Biochimica et Biophysica Acta, 1984, 797, (3), 363–368.
  • Liposomal drug delivery in chronic ischemia. PALMER, T. N., CALDECOURT, M. A., and KINGABY, R. 0., Biochemical Society Transactions, 1984,12, (2), 344–345.
  • Treatment of experimental cutaneous leishmaniasis with liposome-intercalated ampho-tericin B. PANOSIAN, C. B., BARZA, M., SZOKA, F., and WYLER, D. J., Antimicrobial Agents and Chemotherapy, 1984, 25, (5), 655–656.
  • Transfer of liposome-encapsulated carboxyfluorescein to isolated nuclei. PAPA, S., CARAMEI.LI, E., CHIARINI, C., ALLEGRI, G., and CAPITANI, S., Cell Biology International Reports, 1984, 8, (1), 27–32.
  • Measurement of antibody-dependent binding, proteolysis, and turnover of Cis on liposomal antigens localizes the fluidity-dependent step in Cl activation. PARCE, J. W., and KELLEY, D., and HEINZELMANN, K., Biochemica et Biophysica Acta, 1983, 736, (1), 92–98.
  • Spectral sensitization and the enhancement of quantum yield for electron phototransfer across the membranes of lipid vesicles. PARMON, V. N., TSVETKOV, I. M., LYMAR, S. V., and ZAMARAEV, K. I., Doklady Akademii Nauk SSSR, 1983, 273, (5), 1164-1168 (Phys. Chem.). Fusion of large unilamellar liposomes containing hemocyanin with planar bilayer membranes. PASQUALI, F., MENESTRINA, G., and ANTOLINI, R., Z. Naturforsch., C : Biosci., 1984, 39C,(1-2), 147–155.
  • Electrical disruption of lipid vesicles. PASTUSHENKO, V. F., and CHIZMADZHEV, Yu A., Biofizika, 1983, 28, (6), 1036–1039.
  • Liposomes: Bags of challenge. PATEL, H. M., Biochemical Society Transactions, 1984, 12, (2), 333–335.
  • Inhibitory effect of cholesterol on the uptake of liposomes by liver and spleen. PATEL, H. M., TUZEL, N. S., and RYMAN, B. E., Biochimica et Biophysica Acta, 1983, 761, (2), 142–151.
  • The pharmacological efficacy of a rigid non-phospholipid liposome drug delivery system. PATEL, K. R., Li, M. P., Sunuti, J. R., and BALDESCHWIELER, J. D., Biochemica et Biophysica Acta, 1984, 797, (1), 20–26.
  • Photobleaching recovery studies of T-independent antigen mobility on antibody-bearing liposomes. PEACOCK, J. S., and BARISAS, B. G., Journal of Immunology, 1983, 131, (6), 2924–2929.
  • Changes in total and transmural coronary blood flow induced by ethanol. PESCI°, S., MACHO, P., PENNA, M., and DOMENECH, R. J., Cardiovascular Research, 1983, 17, (10), 604–607.
  • Translational diffusion in phospholipid monolayers measured by fluorescence microphotolysis. PETERS, R., and BECK, K., Proceedings of the National Academy of Sciences, USA, 1983, 80, (23), 7183–7187.
  • Spontaneous phosphatidylcholine exchange between small unilamellar vesicles and lipid-apolipoprotein complexes. Effects of particle concentrations and compositions. PETRIE, G. E., and JONAS, A., Biochemistry, 1984, 23, (4), 720–725.
  • Macrophage activation: Synergism between hybridoma MAF and poly(I). Poly(C) delivered by liposomes. PIDGEON, C., SCHREIBER, R. D., and SCHULTZ, R. M., Journal of Immunology, 1983, 131, (1), 311–314.
  • Enhanced mucosal priming by cholera toxin and procholeragenoid with a lipoidal amine adjuvant (avridine) delivered in liposomes. PIERCE, N. F., and SACCI, J. B. JR., Infection and Immunity, 1984, 44, (2), 469–473.
  • Liposome targeting in vivo: Problems and opportunities. POSTE, G., Biology of the Cell, 1983, 47, (I), 19–37.
  • Site-specific (targeted) drug delivery in cancer therapy. POSTE, G., and KIRSH, R., Biol Technology, 1983, 1, (10), 869–878.
  • Are liposomes Trojan horses for the blood-brain barrier? POSTMES, T. J., and COENEGRACHT, J., TGO, Tijdschr. Geneesmiddelenonderz, 1983, 8, (9), 2051–2053.
  • Enhanced liposome uptake by melanoma: Potential for targeted regional drug delivery. POTTER, D. A., GORSCHBOTH, C. M., and SCHNEIDER, P. D., Surg. Forum, 1983, 34, 423–425.
  • Studies on the activation of the enzymatic hydrolysis of sphingomyelin liposomes. POULOS, A., RANIERI, E., SHANKARAN, P., and CALLAHAN, J. W., Biochimica et Biophysica Acta, 1984, 793, (2), 141–148.
  • Liposomal blockade of the reticuloendothelial system: Improved tumor imaging with small unilamellar vesicles. PROFFITT, R. T., WILLIAMS, L. E., PRESANT, C. A., et al., Science, 1983, 220, (4596), 502–505.
  • Interaction between lipid membranes and quaternary ammonium salts. PRZESTALSKI, S., KUCZERA, J., GABRIELSKA, J., SCHARA, M., WITEK, S., and ZYTKA, R., Periodicum Biologorum, 1983, 85, (2), 116–120.
  • Electric stability of liposome membranes during UV-induced lipid peroxidation. PUCHKOVA, T. V., PARNEV, 0. M., PUTVINSKII, A. V., and VLADIMIROV, Yu A., Biofizika, 1983, 28, (6), 1014–1018.
  • Preparation of red cell ghosts by low-speed centrifugation. QIN, D., HE, X., ZUO, D., and Lu, X., Shengtou Huaxue Yu Shengunt Wuli Jinzhan, 1983, 53, 67–70.
  • Sodium transport across isolated epithelial structures in vitro. Ledakrin in the liposomes as a moderator of the bioelectric activity of frog skin. RAKOWSKI, W., and KNAPOWSKI, J., Acta Physiol. Pol., 1983, 34, (1), 127–137.
  • Tissue distribution and fate of free and liposome-encapsulated (125Sb) sodium stibogluconate by gamma scintigraphy. RAO, L. S., HARDY, J. G., and WILSON, C. G., Journal of Pharmaceutics, 1983, 17, (2-3), 283–290.
  • Liposome facilitated xenogeneic approach for studying human colon cancer immunity: carrier and adjuvant effect of liposomes. RAPHAEL, L., and Tom, B. H., Clinical and Experimental Immunology, 1984, 55, (1), 1–13.
  • Bioavailability of sustained-release theophylline formulations. REGAZZI, M. B., RONDANELLI, R., VIDALE, E.,, and CRISTIANI, D., International Journal of Clinical Pharmacology, Therapy and Toxicology, 1983, 21, (5), 245–251.
  • Functionalized polymeric liposomes. Efficient immobilization of alpha chymotrypsin. REGEN, S. L., SINGH, M., and SAMUEL, N. K., Biochemical and Biophysical Research Communications, 1984, 119, (2), 646–651.
  • Polymerized phosphatidylcholine liposomes as potential drug carriers. REGEN, S. L., SINGH, M., and SINGH, A., Polymer Preprints (Am. Chem. Soc., Div. Polym. Chem.), 1983, 24, (1), 54–55.
  • Interaction of apolipoprotein A-I from human serum high-density lipoprotein with egg yolk phosphatidylcholine. REYNOLDS, J. A., Biochemistry, 1984, 23, (6), 1124–1129.
  • Light-activated proton-motive force generation in lipid vesicles containing cytochrome b-cl complex and bacterial reaction centers. RICH, P. R., and HEATHCOTE, P., Biochimica et Biophysica Acta, 1983, 725, (2), 332–340.
  • Liposomes in antimicrobial chemotherapy. RICHARDSON, V. J., Journal of Antimicrobial Chemotherapy, 1983, 12, (6), 532–534.
  • Interaction of phosphatidylcholine liposomes and plasma lipoproteins with sheep erythrocyte membranes. Preferential transfer of phosphatidylcholine containing unsaturated fatty acids. RINDLISBACHER, B., and ZAHLER, P., Biochimica et Biophysica Acta, Ser. Biomembr., 1983, 732, (3), 485–491.
  • Reconstitution of the receptor for immunoglobulin E into liposomes. Reincorporation of purified receptors. RIVNAY, B., Rossi, G., HENKART, M., and METZGER, H., Journal of Biological Chemistry, 1984, 259, (2), 1212–1217.
  • Destabilization of liposome membranes by the steroidal glycoalkaloid alpha tomatine. RODDICK, J. G., and DRYSDALE, R. B., Phytochemistry, 1984, 23, (3), 543–547.
  • Effects of negatively charged lipids on phagocytosis of liposomes opsonized by complement. ROERDINK, F., WASSEF, N. M., RICHARDSON, E. C., and ALVING, C. R., Biochemica et Biophysica Acta, Ser. Biomembr., 1983, 734, (1), 33–39.
  • Interaction of liposomes with hepatocytes and Kupffer cells in vivo and in vitro. ROERDINK, F. H., DIJKSTRA, J., SPANJER, H. H., and SCHERPHOF, G. L., Biochemical Society Transactions, 1984, 12, (2), 335–336.
  • Excretion of superoxide by phagocytes measured with cytochrome c entrapped in resealed erythrocyte ghosts. Roos, D., ECKMANN, C. M., YAZDANBAKHSH, M., HAMERS, M. N., and DE-BOER, M., Journal of Biological Chemistry, 1984, 259, (3), 1770–1775.
  • Enhanced trapping by tumor cells of liposomes prepared from autologous phospholipids. ROSENBERG, 0. A., BEKRENEVA, V. Y LOSHAKOVA, L. V., et al., Voprosy Onkologii, 1983, 29, (10), 56–60.
  • Properties of liposomes containing lead- 212.
  • ROSENOW, M. K., ZUCCHINI, G. L., BRIDWELL, P. M., STUART, F. P., and FRIEDMAN, A. M., International Journal of Nuclear Medicine and Biology, 1983, 10, (4), 189–197.
  • Characterization of a (Ca2 + + Mg2 + )-ATPase activator bound to human erythrocyte membranes. ROUFOGALIS, B. D., ELLIOTT, C. T., and RALSTON, G. B., Cell Calcium, 1984, 5, (I), 77–88.
  • Radiopaque liposomes for imaging of the spleen and liver (letter). ROZENBERG, 0. A., HANSON, K. P., and ZHERBIN, E. A., Radiology, 1983, 149, (3, Pt. 1), 877–878.
  • Increased efficacy of liposomes-encapsulated praziquantel in treatment of opisthorchiasis in hamsters. RUENWONGSA, P., and THAMAVIT, W., Southeast Asian Journal of Tropical Medicine and Public Health, 1983, 14, (4), 501–504.
  • Starch microspheres as drug delivery systems. RUSSELL, G. F. J., Pharmacy International, 1983, 4, (10), 260–262.
  • Liposome-mediated DNA transfer in brewing and related yeast strains. RUSSELL, I., JONES, R. M., WESTON, B. J., and STEWART, G. G., Proc. Congr. .-Eur . Brew. Cony., 1983, 19, 121–128.
  • Possible localisation of tumours and metastases by liposomes. RYMAN, B. E., BARRATT, G. M., and BEGENT, R. H. J., Biology of the Cell, 1983, 47, (1), 71–79.
  • Measurements of membrane thickness by small-angle scattering of suspensions: results for reconstituted Rhodopseudomonas sphaeroides reaction-center protein and for lipids. SADLER, D. M., RIVAS, E., GULIK-KRZYWICKI, T., and REISS, H. F., Biochemistry, 1984, 23, (12), 2704–2712.
  • Vesicles. SAMALUK, V., and LASIC, D. D., Formaceytski Vestnik, (Ljubljana), 1983, 34, (4), 249-255, Europium phosphorescence as a probe of binding to phospholipids. SARIS, N. E. L., Chemistry and Physics of Lipids, 1983, 34, (1), 1–5.
  • Antitumor activity of lipophilic prodrugs of mitomycin C entrapped in liposome or 0/W emulsion. SASAKI, H., TAKAKURA, Y HASHIDA, M., KIMURA, T., and SEZAKI, H., Journal of Pharmacobio-Dynamics, 1984, 7, (2), 120–130.
  • Effects of diltiazem on the physicochemical properties of rat erythrocyte and liposome membrane: comparison with pentoxifylline and propranolol. SASAKI, Y., MORITA, T., and TAKEYAMA, S., Japanese Journal of Pharmacology, 1984, 34, (4), 417–427.
  • Uptake of liposomes by rat and mouse hepatocytes and Kupffer cells. SCHERPHOF, G., ROERDINK, F., DIJKSTRA, J., et al., Biology of the Cell, 1983, 47, (1), 47–57.
  • The effect of different surface chemical groups on drug binding to liposomes. SCHLIEPER, P., and STEINER, R., Chemistry and Physics of Lipids, 1983, 34, (1), 81–92.
  • Drug-induced surface potential changes of lipid vesicles and the role of calcium. SCHLIEPER, P., and STEINER, R., Biochemical Pharmacology, 1983, 32, (5), 799–804.
  • Reconstitution of the low density lipoprotein receptor. SCHNEIDER, W. J., J. Cell. Biochem., 1983, 23, (1-4), 95–106.
  • Characterization of the interaction between beta 2-glycoprotein I and mitochondria, platelets, liposomes and bile acids. SCHOUSBOE, I., International Journal of Biochemistry, 1983, 15, (12), 1393–1401.
  • Crystallized dextran nanospheres with entrapped antigen and their use as adjuvants. SCHRODER, U., and STAHL, A., Journal of Immunological Methods, 1984, 70, (1), 127–132.
  • Selective delivery of drugs encapsulated in liposomes: natural targeting to macrophages involved in various disease states. SCHROIT, A. J., HART, I. R., MADSEN, J., and FIDLER, I. J., J. Biol. Response Mod., 1983, 2, (2), 97–100.
  • Polyamines as modulators of membrane fusion: Aggregation and fusion of liposomes. SCHUBER, F., HONG, K., DUZGUNES, N., and PAPAHADJOPOULOS, D., Biochemistry, 1983, 22, (26), 6134–6140.
  • Studies on the mechanism of bile salt-induced liposomal membrane damage. SCHUBERT, R., JARONI, H., SCHOELMERICH, J., and SCHMIDT, K. H., Digestion, 1983, 28, (3), 181–190.
  • Lipid composition and membrane fluidity in the small intestine of the developing rabbit. SCHWARZ, S. M., LING, S. D., HOSTETLER, B., DRAPER, J. P., and WATKINS, J. B., Gastroenterology, 1984, 86, (6), 1544–1551.
  • The effects of charge and size on the interaction of unilamellar liposomes with macrophages. SCHWENDENER, R. A., LAGOCKI, P. A., and RAHMAN, Y. E., Biochimica et Biophysica Acta, 1984, 772, (1), 93–101.
  • pH-Dependent structural modification of dipalmitoylphosphatidylcholine vesicle mem-branes by a degradable poly(carboxylic acid) of pharmacological importance. SEKI, K., TIRRELL, D. A., BRAUD, C., and VERT, M., Makromolekulare Chernie-Rapid Communications, 1984, 5, (4), 187–190.
  • Dielectric behavior of liposomes of large size. SEKINE, K., HANAI, T., and Kotzumi, N., Bull. Inst. Chem. Res., Kyoto Univ., 1983, 61, (4), 299–313.
  • Calorimetric studies on the interaction of gangliosides with phospholipids and myelin basic protein. SELA, B. A., and BACH, D., Biochiinica et Biophysica Acta, 1984, 771, (2), 177–182.
  • Measurement of blood flow to the ventral prostate in the rat with radioactive microspheres: effects of estradio1-17beta and human chorionic gonadotrophin. SELSTAM, G., and DAMBER, J. E., Acta Physiologica Scandinavica, 1983, 119, (3), 209–212.
  • Effect of ozone on the permeability of planar bilayer lipid membranes. SEMENKOVA, G. N., KODITZ, H., CHERENKEVICH, S. N., and KHMECNITSKII, A. I., Biofizika, 1984,29, (2), 323–325.
  • Role of lipoproteins in stability and clearance of liposomes administered to mice. SENIOR, J., and GREGORIADIS, G., Biochemical Society Transactions, 1984, 12, (2), 339–340.
  • Structure and thermotropic properties of mixed-chain phosphatidylcholine bilayer membranes. SERRALLACH, E. N., DE-HAAS, G. H., and SHIPI.EY, G. G., Biochemistry, 1984, 23, (4), 713–720.
  • Mode of proteoliposome association with the planar bilayer phospholipid membrane. SEVERINA, I. I., Biokhimiya (Moscow), 1983, 48, (9), 1522–1529.
  • The incorporation of glycolipids with defined carbohydrate sequence into liposomes and the effects on partition in aqueous two-phase systems. SHARPS, P. T., and WARREN, G. S., Biochimica et Biophysica Acta, Ser. Biomembr., 1984, 772, (2), 176–182.
  • Microsphere fractionation of intestinal blood flow (letter). SHEPHERD, A. P., MAXWELL, L. C., and RIEDEL, G. L., American Journal of Physiology, 1984, 246, (5, Pt. 1), G644–G648.
  • Immunological characterization of glycolipid antibody with antigen-bearing liposome. Snict-wc.), S., Kurume lgokkai Zasshi, 1983, 46, (9), 688–709.
  • Formation of age pigment-like fluorescent substances during peroxidation of lipids in model membranes. SHIMASAKI, H. UETA, N., MOWRI, H. 0., and INouE, K., Biochimica et Biophysica Acta, 1984, 792, (2), 123–129.
  • Liposome-mediated transfection of Lactobacillus casei spheroplasts. Sumuzu, K. M., and KUDO, S., Agric. Biol. Chem., 1984, 48, (4), 1105–1107.
  • (3H)Ouabain binding and Nat, K -ATPase in resealed human red cell ghosts. SHOEMAKER, D. G., and LAUF, P. K., Journal of General Physiology, 1983, 81, (3), 401–420.
  • Microencapsulation of ascorbic acid by air suspension technique and formulation of tablets. SHUKLA, A. K., and VARMA, K. C., Indian Drugs, 1983, 21, (3), 100–106.
  • Micro/macrocellular concept for foamed polymers. SHUTOV, F. A., Cellular Polymers, 1983, 2, (4), 295–297.
  • Correlation between the hioavailability of microencapsulated bacampicillin hydrochloride in suspension and in vitro raicrocapsule dissolution. SJOVALL, J., SJOQVIST, R., HUITFELDT, B., and NYQVIST, H., Journal of Pharmaceutical Sciences, 1984, 73, (2), 141–145.
  • Identification of group C streptococcal antigen extracts with lectin-bound polystyrene particles. SLIFKIN, M., and Gm, G. M., Journal of Clinical Microbiology, 1984, 19, (1), 83–84.
  • Borated microspheres for shutdown LWR reactivity control. SL I W NSK, B. J., and JONES, B. G., Trends Eleetr. Util. Res. (Pap.-Conf. Recent Dev. Electr. Util. Res.), Pergamon, 1984, 481–490.
  • Disposition of 3-, 7-, and 13-microns microspheres instilled into lungs of dogs. SNIPES, M. B., CHAVEZ, G. T., and MUGGENBURG, B. A., Environmental Research, 1984, 33,(2), 333–342.
  • High vectorial proton stoichiometry by cytochrome c oxidase from the thermophilic bacterium PS3 reconstituted in liposomes. SONE, N., and YANAGITA, Y., Journal of Biological Chemistry, 1984, 259, (3), 1405–1408.
  • Potentiating effect of muramyl dipeptide and its lipophilic analog encapsulated in liposomes on tumor cell killing by human monocytes. SONS, S., MIITSUURA, S., OGAWARA, M., and TSUBURA, E., Journal of Immunology, 1984, 132, (4), 2105–2110.
  • Therapeutic implication of tumor cell destruction in vitro by human alveolar macrophages activated with muramyl dipeptide entrapped in liposomes. SONS, S., TACHIBANA, K., and TstEt RA, E., Recent Adz,. RES. Res., 1983, 21–22. 187–200.
  • Targeted and nontargeted liposomes for in vivo transfer to rat liver cells of a plasmid containing the preproinsulin I gene. SORIANO, P., DIJKSTRA, J., LEGRAND, A., SPANJER, H., LONDOS-GAGLIARDI, D., ROERDINK, F., SCHERPHOF, G., and NICOLAU, C., Proceedings of the National Academy of Sciences, USA, 1983, 80, (23), 7128–7131.
  • Phospholipid vesicle aggregation induced by human myelin basic protein. SRIDHARA, S. I., EPAND, R. M., and MOSCARELLO, M. A., Neurochemical Research, 1984, 9, (2), 241–248.
  • Hemodynamic disturbances in the rat as a function of the number of microspheres injected. STANEK, K. A., SMITH, T. L., MURPHY, W. R., and COLEMAN, T. G., American Journal of Physiology, 1983, 245, (6), H920–H923.
  • Effect of phenylephrine trapped in liposomes on cardiohemodynamic parameters in adre-nergic receptor blockade. STEFAN()V, A. V., DMITRIEVA, A. V., GuREvicu, M. I., BOIKO, V. I., and SAZONOVA, L. YA., Fiziologicheskii Zhurnal, 1984, 30, (2), 185–191.
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