Literature Alerts

LITERATURE ALERTS

• Absorbable microparticulate cation exchanger for immunotherapeutic delivery. SHALABY, W. S. W., YEH, H., Woo, E., CORBETT, J. T., GRAY, H., JUNE, C. H., and SHALABY, S. W. Journal of Biomedical Materials Research Part B—Applied Biomaterials, 2004, 69B, 173–182.
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• Amine-terminated dendrimers as biomimetic templates for silica nanosphere formation. KNECHT, M. R., and WRIGHT, D. W. Langmuir, 2004, 20, 4728–4732.
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• An evaluation of transmembrane ion gradient-mediated encapsulation of topotecan within liposornes. ABRAHAM, S. A., EDWARDS, K., KARLSSON, G., HUDON, N., MAYER, L. D., and BALLY, M. B. Journal of Controlled Release, 2004, 96, 449–461.
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• An imaging fiber-based optical tweezer array for microparticle array assembly. TAM, J. M., BIRAN, I., and WALT, D. R. Applied Physics Letters, 2004, 84, 4289–4291.
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• Antivascular and antitumor activities of liposome-associated drugs. STRAUBINGER, R. M., ARNOLD, R. D., ZHOU, R., MAZURCHUK, R., and SLACK, J. E. Anticancer Research, 2004, 24, 397–404.
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• Aqueous preparation and evaluation of albumin-chitosan microspheres containing indo-methacin. BAYOMI, M. A. Drug Development and Industrial Pharmacy, 2004, 30, 329–339.
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• Automated purification and suspension array detection of 16S rRNA from soil and sediment extracts by using tunable surface microparticles. CHANDLER, D. P., and JARRELL, A. E. Applied and Environmental Microbiology, 2004, 70, 2621–2631.
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• Biodegradable microparticles as potent delivery systems for vaccines: experimental mea-surement of factors governing antigen adsorption and efficacy. CHESKO, J., KAZZAZ, J., UGozzom, M., SINGH, M., and O'HAGAN, D. Abstracts of Papers of the American Chemical Society, 2003, 312-BIOT.
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• Biodegradable microsphere-loaded tacrolimus enhanced the effect on mice islet allograft and reduced the adverse effect on insulin secretion. WANG, Q. X., UNO, T., MIYAMOTO, Y., HARA, Y., KITAZAWA, Y., Lu, F. Z., FUNESHIMA, N., FUJINO, M., YAMAMOTO, H., TAKENAKA, H., KAWASHIMA, Y., and Li, X. K. American Journal of Transplantation, 2004, 4, 721–727.
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• Biodegradable PLGA microparticles for sustained release of a new GnRH antagonist: part II. /n vivo performance. SCHWACH, G., OUDRY, N., GILIBERTO, J. P., BROQUA, P., LUCK, M., LINDNER, H., and GURNY, R. European Journal of Pharmaceutics and Biopharmaceutics, 2004, 57, 441–446.
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• Bioencapsulated mammalian cells, proteins, peptides: Preparation and applications for biomedical fields. MARKVICHEVA, E. European Journal of Cell Biology, 2004, 96.
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• Brillouin observation of bulk and confined acoustic waves in silica microspheres. Lim, H. S., KuoK, M. H., NG, S. C., and WANG, Z. K. Applied Physics Letters, 2004, 84, 4182–4184.
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• Calcium-alginate coated, whey protein-based microspheres: preparation, some properties and opportunities. ROSENBERG, M., and LEE, S. J. Journal of Microencapsulation, 2004, 21, 263–281.
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• Cardiac profiles of liposomal anthracyclines—greater cardiac safety versus conventional doxorubicin? THEODOULOU, M., and HUDIS, C. Cancer, 2004, 100, 2052–2063.
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• Charged poly(lactide-co-glycolide) microparticles can effectively deliver proteins and DNA in vaccines. CHESKO, J. D., KAZZAZ, J., UGOZZOLI, M., SINGH, M., and O'HAGAN, D. Abstracts of Papers of the American Chemical Society, 2003, 121-BIOT.
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• Circulating endothelial microparticles in Malawian children with severe falciparum malaria complicated with coma. COMBES, V., TAYLOR, T. E., JUHAN-VAGUE, I., MEGE, J. L., MWENECHANYA, J., TEMBO, M., GRAU, G. E., and MOLYNEUX, M. E. JAMA—Journal of the American Medical Association, 2004, 291, 2542–2544.
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• Cleavage products formed through autoxidation of zeta-carotene in liposomal suspension. Kim, S. J. Food Science and Biotechnology, 2004, 13, 202–207.
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• Comparison of the extraction behavior of metal ions by metal affinity ligands in an organic-aqueous two-phase system and in a liposome system. NAGAMI, H., UMAKOSHI, H., SHIMANOUCHI, T., Kusoi, R., and BABA, Y. Solvent Extraction Research and Development—Japan, 2004, 159–165.
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• Compromise between dominant polymerization mechanisms in preparation of polymer microspheres. MA, G. H., and Li, J. H. Chemical Engineering Science, 2004, 59, 1711–1721.
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• Controlled release of clozapine through chitosan microparticles prepared by a novel method. AGNIHOTRI, S. A., and AmINABRAvi, T. M. Journal of Controlled Release, 2004, 96, 245–259.
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• Convective depletion during the fast propagation of a nanosphere through a polymer solution. ODIJK, T. Physica A—Statistical Mechanics and its Applications, 2004, 337, 389–397.
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• Covalent coupling of antibodies to carboxylated microspheres via the carbodiimide linking method. HOPEN, S., and MINTEER, S. D. Abstracts of Papers of the American Chemical Society, 2003, 195-CHED.
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• Cross-linked microparticles as carriers for the delivery of plasmid DNA for vaccine development. GOH, S. L., MURTHY, N., Xu, M. C., and FRECHET, J. M. J. Bioconjugate Chemistry, 2004, 15, 467–474.
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• Cytarabine release from comatrices of albumin microspheres in a poly(lactide-co-glycolide) film: in vitro and in vivo studies. GOMEZ, C., BLANCO, M. D., BERNARDO, M. V., OLMO, R., MUNIZ, E., and TEIJON, J. M. European Journal of Pharmaceutics and Biopharnzaceutics, 2004, 57, 225–233.
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• Cytotoxicity of 5-fluorouracil entrapped in gelatin microspheres. MUVAFFAK, A., GURHAN, I., and HASIRCI, N. Journal of Microencapsulation, 2004, 21, 293–306.
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• DC-SIGN-specific liposomal targeting and selective intracellular compound delivery to human myeloid dendritic cells: implications for HIV disease. GIESELER, R. K., MARQUITAN, G., HAHN, M. J., PERDON, L. A., DRIESSEN, W. H. P., SULLIVAN, S. M., and SCOLARO, M. J. Scandinavian Journal of Immunology, 2004, 59, 415–424.
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• Degradation of multi-phase microspheres fabricated via solvent removal. GODBEE, J., PATTAMUNUCH, P., SCOTT, E., and MATHIOWITZ, E. Journal of Microencapsulation, 2004, 21, 331–352.
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• Dependence of the cellular internalization, and transfection efficiency on the structure and physicochemical properties of cationic detergent/DNA/liposomes. LLERES, D., WEIBEL, J. M., HEISSLER, D., ZUBER, G., DUPORTAIL, G., and MELY, Y. Journal of Gene Medicine, 2004, 6, 415–428.
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• Deposition of poly(styrene/alpha-tert-butoxy-omega-vinyl-benzyl-polyglycidol) microspheres on mica plates crossing the liquid-air interface: formation of stripe pattern. PRZERWA, E., SOSNOWSKI, S., and SLomxowsKI, S. Langmuir, 2004, 20, 4684–4689.
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• Destabilization of phospholipid liposomal bilayers by yersinia enterocolitica phospholipase A2. BORRENPOHL, K., and SERFIS, A. B. Abstracts of Papers of the American Chemical Society, 2003, 752-CHED.
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• Determination of the size of a polystyrene nanosphere by the pulsed field gradient nuclear magnetic resonance method. SAITO, T., SHIMADA, K., and KINUGASA, S. Langmuir, 2004, 20, 4779–4781.
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• Development of novel 5-FU-loaded poly(methylidene malonate 2.1.2)-based microspheres for the treatment of brain cancers. FOURNIER, E., PASSIRANI, C., COLIN, N., BRETON, P., SAGODIRA, S., and BENOIT, J. P. European Journal of Pharmaceutics and Biopharmaceutics, 2004, 57, 189–197.
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• Diffusion coefficients in intrahollow calcium alginate microcapsules. CHAT, Y., MEI, L. H., LIN, D. Q., and YAO, S. J. Journal of Chemical and Engineering Data, 2004, 49, 475–478.
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• Direct determination of the peptide content in microspheres by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. NA, D. H., DELucA, P. P, and LEE, K. C. Analytical Chemistry, 2004, 76, 2669–2673.
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• Direct manipulation and observation of the rotational motion of single optically trapped microparticles and biological cells in microvortices. SHELBY, J. P., MUTCH, S. A., and CFnu, D. T. Analytical Chemistry, 2004, 76, 2492–2497.
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• Direct observation of microparticle gyromotion in a magnetized direct current glow discharge dusty plasma. AMATUCCI, W. E., WALKER, D. N., GATLING, G., and SCIME, E. E. Physics of Plasmas, 2004, 11, 2097–2105.
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• Effect of actin concentration on the structure of actin-containing liposomes. LI, S. L., and PALMER, A. F. Langmuir, 2004, 20, 4629–4639.
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• Effect of physico-chemical conditions on the properties of zeolite microparticles used in pulp and paper applications. BROUILLETTE, F., CHABOT, B., MORNEAU, D., and DANEAULT, C. Microporous and Mesoporous Materials, 2004, 70, 51–56.
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• Effect of the size of biodegradable microparticles on drug release: experiment and theory. SIEPMANN, J., FAISANT, N., AKIKI, J., RICHARD, J., and BENOIT, J. P. journal of Controlled Release, 2004, 96, 123–134.
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• Effects of antioxidants and humidity on the oxidative stability of microencapsulated fish oil. BAIK, M. Y., SUHENDRO, E. L., NAWAR, W. W., MCCLEMENTS, D. J., DECKER, E. A., and CHINACHOTI, P. Journal of the American Oil Chemists Society, 2004, 81, 355–360.
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• Efficacy of paclitaxel released from bio-adhesive polymer microspheres on model superficial bladder cancer. MALAVAUD, B. A., LEVISAGE, C., RIOUXLECLERCQ, N., HALLER, M., BRETON, P., and LEONG, K. Journal of Urology, 2004, 171, 188.
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• Efficient gene delivery with serum into human cancer cells using targeted anionic liposomes. MADY, M. M., GHANNAM, M. M., KHALIL, W. A., REPP, R., MARKUS, M., RASCHER, W., MULLER, R., and FAHR, A. Journal of Drug Targeting, 2004, 12, 11–18.
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• Electric birefringence, light scattering and electroporation of synthetic liposomes. SCHELLY, Z. A., ASGHARIAN, N., CORREA, N. M., ZHANG, H. G., PEIKOV, V., and ZENG, H. X. Abstracts of Papers of the American Chemical Society, 2003, 475-COLL.
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• Electrochemical effects of surface-modified glass microspheres on polystyrene sulfonate modified electrodes. MOORE, C. M., TORRENCE, N. J., and MINTEER, S.D. Abstracts of Papers of the American Chemical Society, 2003, 103-ANYL.
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• Electrochemical study of copper and iron compounds in the solid state by using voltammetry of immobilized microparticles: application to copper ferrite characterization. SEDAN°, A. B. A., GARCIA, L. T., BARBADO, D. V., and BATANERO, P. S. Journal of Electroanalytical Chemistry, 2004, 566, 433–441.
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• Elution control of microparticles with a coupled acoustic-gravity field and orthogonal laminar flow. MASUD°, T., and OKADA, T. Analytical Sciences, 2004, 20, 753–755.
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• Encapsulating acetaminophen into poly(L-lactide) microcapsules by solvent-evaporation technique in an 0/W emulsion. LAI, M. K., and TSIANG, R. C. C. Journal of Microencapsula-tion, 2004, 21, 307–316.
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• Encapsulation and/or release behavior of bovine serum albumin within and from polylactide-grafted dextran microspheres. OUCHI, T., SAITO, T., KONTANI, T., and OHYA, Y. Macromolecular Bioscience, 2004, 4, 458–463.
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• Encapsulation of ATP into liposomes by different methods: optimization of the procedure. LIANG, W., LEVCHENKO, T. S., and TORCHILIN, V. P. Journal of Microencapsulation, 2004, 21, 251–261.
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• Encapsulation of bifidobacteria in whey protein-based microcapsules and survival in simulated gastrointestinal conditions and in yoghurt. PICOT, A., and LACROIX, C. International Dairy Journal, 2004, 14, 505–515.
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• Encapsulation of Gadobutrol in AVE-based liposomal carriers for MR detectability. HEVERHAGEN, J. T., GRASER, A., FAHR, A., MULLER, R., and ALFKE, H. Magnetic Resonance Imaging, 2004, 22, 483–487.
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• Encapsulation of nisin and lysozyme in liposomes enhances efficacy against Listeria mono-cytogenes. WERE, L. M., BRUCE, B., DAVIDSON, P. M., and WEISS, J. Journal of Food Protection, 2004, 67, 922–927.
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• Enhanced production of endothelial microparticles with increased binding to leukocytes in patients with severe systemic inflammatory response syndrome. OGURA, H., TANAKA, H., KOH, T., FUJITA, K., FUJIMI, S., NAKAMORI, Y., HOSOTSUBO, H., KUWAGATA, Y., SmmAzu, T., and SUGIMOTO, H. Journal of Trauma—Injury Infection and Critical Care, 2004, 56, 823–830.
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• Enhanced production of endothelial microparticles with increased binding to leukocytes in patients with severe systemic inflammatory response syndrome—Editorial comment. NAPOLITANO, L. M. Journal of Trauma—Injury Infection and Critical Care, 2004, 56, 830–831.
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• Enhancement of immune responses by DNA vaccination through targeted gene delivery using mannosylated cationic liposome formulations following intravenous adminis-tration in mice. HATTORI, Y., KAWAKAMI, S., SUZUKI, S., YAMASHITA, F., and HASHIDA, M. Biochemical and Biophysical Research Communications, 2004, 317, 992–999.
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• Evaluation of biocompatibility of silica nanocapsules for drug detoxification application. CUADRADO, R., JovANovic, A. V., UNDERHILL, R. S., FLINT, J. A., MOREY, T. E., VERT, M., and DURAN, R. S. Abstracts of Papers of the American Chemical Society, 2003, 1048-CHE.
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• Evidence for restrictive parameters in formulation of insulin-loaded nanocapsules. COURNARIE, F., CHERON, M., BESNARD, M., and VAUTHIER, C. European Journal of Pharmaceutics and Biopharmaceutics, 2004, 57, 171–179.
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• Examination of the electrophoretic behavior of liposomes. PYSHER, M. D., and HAYES, M. A. Langmuir, 2004, 20, 4369–4375.
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• Excitation energy transfer from self-aggregates of zinc chlorins to a bacteriochlorin in a silicate nanocapsule. SAGA, Y., AKAI, S., MIYATAKE, T., and TAMIAKI, H. Chemistry Letters, 2004, 33, 544–545.
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• Experimentally derived sticking efficiency of microspheres using atomic force microscopy: toward a better understanding of particle transport in porous media. CAR., T. L., and HOCHELLA, M. F. Abstracts of Papers of the American Chemical Society, 2003, 38.
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• Fabrication and characterizations of a novel drug delivery device liposomes-in-microsphere (LIM). FENG, S. S., RUAN, G., and Li, Q. T. Biomaterials, 2004, 25, 5181–5189.
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• Facile fabrication of polymer and carbon nanocapsules using polypyrrole core/shell nanomaterials. JANG, J., Li, X. L., and OH, J. H. Chemical Communications, 2004, 794–795.
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• Flow-stress-induced discrimination of a K-ras point mutation by sandwiched polymer microsphere-enhanced surface plasmon resonance. SATO, Y., SATO, Y., OKUMURA, A., SUZUKI, K., and KawAeucHi, H. Journal of Biomaterials Science—Polymer Edition, 2004, 15, 297–310.
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• Formulation and characterization of Paclitaxel, 5-FU and Paclitaxel + 5-FU microspheres. GUPTE, A., and CIFTCI, K. International Journal of Pharmaceutics, 2004, 276, 93–106.
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• Fractional Brownian motion of an Al nanosphere in liquid Al-Si alloy under electron-beam irradiation. YOKOTA, T., HOWE, J. M., JESSER, W. A., and MURAYAMA, M. Journal of Applied Physics, 2004, 95, 5756–5761.
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• Growth, survival, quality and digestive enzyme activities of larval shrimp fed microencapsulated, mixed and live diets. PEDROZA-ISLAS, R., GALLARDO, P., VERNON-CARTER, E. J., GARCIA-GALANO, T., ROSAS, C., PASCUAL, C., and GAXIOLA, G. Aqua-culture Nutrition, 2004, 10, 167–173.
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• Importance of single or blended polymer types for controlled in vitro release and plasma levels of a somatostatin analogue entrapped in PLA/PLGA microspheres. BLANCO-PRIETO, M. J., CAMPANERO, M. A., BESSEGHIR, K., HEIMGATNER, F., and GANDER, B. Journal of Controlled Release, 2004, 96, 437–448.
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• In situ evaluation of drug-loaded microspheres on a mucosal surface under dynamic test conditions. KOCKISCH, S., REES, G. D., YOUNG, S. A., TSIBOUKLIS, J., and SMART, J. D. International Journal of Pharmaceutics, 2004, 276, 51–58.
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• In vitro evaluation of floating and drug releasing behaviors of hollow microspheres (microballoons) prepared by the emulsion solvent diffusion method. SATO, Y., KAWASHIMA, Y., TAKEUCHI, H., and YAMAMOTO, H. European Journal of Pharmaceutics and Biopharmaceutics, 2004, 57, 235–243.
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• Indomethacin release from ion-exchange microspheres: impregnation with alginate reduces release rate. CHRETIEN, C., BOUDY, V., ALLAIN, P., and CHAUMEIL, J. C. Journal of Controlled Release, 2004, 96, 369–378.
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• Interaction of dendritic cells with antigen-containing liposomes: effect of bilayer composition. FOGED, C., ARIGITA, C., SUNDBLAD, A., JISKOOT, W., STORM, G., and FROKJAER, S. Vaccine, 2004, 22, 1903–1913.
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• Interactions of histatin 5 and histatin 5-derived peptides with liposome membranes: surface effects, translocation and permeabilization. DEN HERTOG, A. L., SANG, H. W. W. F., KRAAYENHOF, R., BOLSCHER, J. G. M., VAN'T HOF, W., VEERMAN, E. C. I., and AMERONGEN, A. V. N. Biochemical Journal, 2004, 665–672.
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• Interactions of surfactants (edge activators) and skin penetration enhancers with liposomes. EL MAGHRABY, G. M. M., WILLIAMS, A. C., and BARRY, B. W. International Journal of Pharmaceutics, 2004, 276, 143–161.
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• Kinetics of PEG-neutral liposome-encapsulated hemoglobin after 25% hypovolemic exchange transfusion in rodents. AWASTHI, V., GOINS, B. A., and PHILLIPS, W. T. FASEB Journal, 2004, 18, A995.
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• Leucinostatin-A loaded nanospheres: characterization and in vivo toxicity and efficacy evaluation. Ricci, M., BLAsi, P., GIOVAGNOLI, S., PERIOLI, L., VESCOVI, C., and Rossi, C. International Journal of Pharmaceutics, 2004, 275, 61–72.
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• Liposomal formulations of tacrolimus and rapamycin increase graft survival and fiber outgrowth of dopaminergic grafts. ALEMDAR, A. Y., SADI, D., MCAALISTER, V. C., and MENDEZ, I. Cell Transplantation, 2004, 13, 263–271.
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• Liposome-mediated transfer of inducible nitric oxide synthase (INOS) gene ameliorates renal dysfunction in acute unilateral ureteral obstruction (UUO). ITO, K., CHEN, J., KHODADADIAN, J. J., SESHAN, S. V., ZHAO, X. Y., EATON, C., VAUGHAN, E. D., LIPKOWITZ, M. S., POPPAS, D. P., and FELSEN, D. Journal of Urology, 2004, 171, 185.
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• Liver tumors: MR imaging of radioactive holmium microspheres—phantom and rabbit study. NIJSEN, J. F. W., SEPPENVVOOLDE, A. H., HAVENITH, T., Bos, C., BAKKER, C. J. G., and SCHIP, A. D. V. H. Radiology, 2004, 231, 491–499.
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• Measuring the heterogeneity of protein loading in PLG microspheres using flow cytometry. TURNER, P., COOMBES, A. G. A., and AL RUBEAI, M. Journal of Controlled Release, 2004, 96, 193–205.
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• Mechanism of preparing monodisperse poly(acrylamide/methacrylic acid) microspheres in ethanol. I. Ni, H. M., and KawAeucHi, H. Journal of Polymer Science Part A—Polymer Chemistry, 2004, 42, 2823–2832.
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• Mechanism of preparing monodispersed poly(acrylamide/methacrylic acid) microspheres in ethanol. II. Ni, H. M., and KawAeucHi, H. Journal of Polymer Science Part A—Polymer Chemistry, 2004, 42, 2833–2844.
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• Membrane formation mechanism of cross-linked polyurea microcapsules by phase separation method. YOSHIZAWA, H., KAMIO, E., HIRABAYASHI, N., JACOBSON, J., and KITAMURA, Y. Journal of Microencapsulation, 2004, 21, 241–249.
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• MeV—proton emission from ultrafast laser-driven microparticles. SCHNURER, M., TER-AVETISYAN, S., BUSCH, S., KALACHNIKOV, M. P., RISSE, E., SANDNEr, W., and NICKLES, P. V. Applied Physics B—Lasers and Optics, 2004, 78, 895–899.
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• Microcapsule modification with peroxidase-catalyzed phenol polymerization. SHUTAVA, T., ZHENG, Z. G., JoHN, V., and Lvov, Y. Biomacromolecules, 2004, 5, 914–921.
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• Microencapsulated genetically engineered Lactobacillus plantarum 80 (pCBH1) for bile acid deconjugation and its implication in lowering cholesterol. JONES, M. L., CHEN, H. M., WEI, 0. Y., METZ, T., and PRANAsit, S. Journal of Biomedicine and Biotechnology, 2004, 61–69.
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• Microencapsulation of astaxanthin in a chitosan matrix. HIGUERA-CIAPARA, I., FELIX-VALENZUELA, L., GOYCOOLEA, F. M., and ARGUELLES-MONAL, W. Carbohydrate Polymers, 2004, 56, 41–45.
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• Microencapsulation of n-eicosane as energy storage material. LAN, X. Z., TAN, Z. C., ZOU, G. L., SUN, L. X., and ZHANG, T. Chinese Journal of Chemistry, 2004, 22, 411–414.
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• Microencapsulation of parathyroid tissue with photosensitive poly(L-lysine) and short chain alginate-co-MPEG. LEE, C. H., WANG, Y. J., Kuo, S. M., and CHANG, S. J. Artificial Organs, 2004, 28, 537–542.
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• Microencapsulation of sensitive pest control agents. THIES, C. Abstracts of Papers of the American Chemical Society, 2003, AGED–077.
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• Microparticles for the delivery of DNA vaccines. O'HAGAN, D. T., SINGH, M., and ULMER, J. B. Immunological Reviews, 2004, 199, 191–20.
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• Microparticles of ore minerals in the lunar regolith from mare fecundidatis: (Cu, Au, Ag)(4)Zn, Ag, Au, Sn, Pb, Sb, Re, Mo52, CdS, AuS, and RhI3. BOGATIKOV, 0. A., MOKHOV, A. V., KARTASHOV, P. M., GORSHKOV, A. I., MAGAZINA, L. 0., ASHIKHMINA, N. A., and KOPORULINA, E. V. Doklady Earth Sciences, 2004, 395A, 448–452.
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• Microparticulate beta-glucan upregulates the expression of B7. 1, B7.2, B7-H1, but not B7-DC on cultured rnurine peritoneal macrophages. HUNTER, K. W., DUPRE, S., and REDELMAN, D. Immunology Letters, 2004, 93, 71–78.
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• Microwave-treated gelatin microspheres as drug delivery system. VANDELLI, M. A., ROMAGNOLI, M., MONTI, A., Gozzi, M., GUERRA, P., RIVASI, F., and FORNI, F. Journal of Controlled Release, 2004, 96, 67–84.
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• Monitoring the process of HypF fibrillization and liposome permeabilization by protofibrils. GLIOZZI, A., ROSANO, C., CANALE, C., BOLOGNESI, M., PLAKOUTSI, G., BUCCIANTINI, M., CHIT, F., and STEFANI, M. Journal of Molecular Biology, 2004, 338, 943–957.
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• Morphology-dependent resonances of optical microsphere resonators for the realization of passive wavelength-division multiplexing components. Isci, S., BiLici, T., KURT, A., and SERPENGUZEL, A. Optical Engineering, 2004, 43, 1051–1055.
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• Multifunctional mesoporous silica nanospheres as biosensors and stimuli-responsive, controlled-release delivery carriers. LIN, V. S. Y., LA, C. Y., and TREWYN, B. G. Abstracts of Papers of the American Chemical Society, 2003, 0029-MTLS.
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• Optical coupling between a self-assembled microsphere grating and a rib waveguide. TAI, C. Y., UNAL, B., WILKINSON, J. S., GHANEM, M. A., and BARTLETT, P. N. Applied Physics Letters, 2004, 84, 3513–3515.
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• Oxidation of 6-0-arachidonoyl L-ascorbate microencapsulated with a polysaccharide by spray-drying. WATANABE, Y., FANG, X., ADACHI, S., FUKAMI, H., and MATSUNO, R. Lebensmitte Wissenschaft und Technologie—Food Science and Technology, 2004, 37, 395–400.
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• Paper formation improvement through the use of new structured polymers and micro-particle technology. BROUILLETTE, F., MORNEAU, D., CHABOT, B., and DANEAULT, C. Pulp Cs' Paper—Canada, 2004, 105, 31–35.
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• Photocatalytic oxidation using a new catalyst—titanium dioxide microsphere—for water and wastewater treatment. Liu, H., Li, F. B., and Li, X. Z. Abstracts of Papers of the American Chemical Society, 2003, 104-ENVR.
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• Phycocyanin enhances secretary IgA antibody response and suppresses allergic IgE antibody response in mice immunized with antigen-entrapped biodegradable microparticles. NEMOTO-KAWAMURA, C., HIRAHASHI, T., NAGAI, T., YAMADA, H., KATOH, T., and HAYASHI, 0. Journal of Nutritional Science and Technology, 2004, 50, 129–136.
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• PLGA microspheres for the ocular delivery of a peptide drug, vancomycin using emulsifica-tion/spray-drying as the preparation method: in vitro/in vivo studies. GAVINI, E., CHETONI, P., Cossu, M., ALVAREZ, M. G., SAETTONE, M. F., and GIUNCHEDI, P. European Journal of Pharmaceutics and Biopharmaceutics, 2004, 57, 207–212.
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