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Drug Delivery Volume 3, 1996 - Issue 2
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Literature Alerts

Literature Alerts

Tony L. Whateley Department of Pharmaceutical Sciences, University of Strathclyde, Royal College, 204 George Street, Glasgow, G1 1XW, Scotland
Pages 127-136 | Published online: 27 Sep 2008

References

  • , A new thermodynamic model to predict protein encapsulation efficiency in poly(lactide) microspheres.
  • Gander B., Merkle H. P., Nguyen V. P., Ho Nam Tran. J. Phys. Chem. 1995; 99(43)16144–16148
  • , A rigorous theory of remote loading of drugs into liposomes.
  • Ceh B., Lasic D. D. Langmuir 1995; 11(9)3356–3368
  • , A single administration of tetanus toxoid in biodegradable microspheres elicits T-cell and antibody responses similar or superior to those obtained with aluminum hydroxide.
  • Men Y., Thomasin C., Merkle H.-P., Gander B., Corradin G. Vaccine 1995; 13(7)683–689
  • , Accelerated degradation test of lyophilized recombinant tissue factor–liposome preparations.
  • van den Besselaar A. M., Witteveen E., Schaefer–van Mansfeld H., Meeuwisse–Braun J., Strebus A. Thromb. Haemost. 1995; 73(3)392–397
  • , Activities of clarithromycin, azithromycin, and ofloxacin in combination with liposomal or unencapsulated granulocyte–macrophage colony–stimulating factor against intramacrophage Mycobacterium avium–Mycobacterium intracellutare.
  • Onyeji C. O., Nightingale C. H., Tessier P. R., Nicolau D. P., Bow L. M. J. Infect. Dis. 1995; 172(3)810–816
  • , Affinity microcapsules: chitosan–alginate membrane stability and isolation of bovine serum albumin.
  • Achaw Osei Wusu, Goosen Mattheus F. A. Polym. Prep. 1994; 35(2)75–76
  • , Amphotericin B–liposomes with prolonged circulation in blood: in vitro antifungal activity, toxicity, and efficacy in systemic candidiasis in leukopenic mice.
  • van Etten Els W. M., ten Kate Marian T., Stearne Lorna E. T., Bakker Woudenberg Irma A. J. M. Antimicrob. Agents Chemother. 1995; 39(9)1954–1958
  • , An in vitro bioassay for quantification of bioadhesion of polymer microspheres to mucosal epithelium.
  • Jacob J., Santos C., Carino G., Chickering D., Mathiowitz E. Proc. 22nd Int. Symp. Controlled Release of Bioactive Materials 1995; 312–313
  • , An intramolecular disulfide bond is essential for annexin I-mediated liposome aggregation.
  • Liu L., Zimmerman U. J. Biochem. Mol. Biol. Int. 1995; 35(2)345–350
  • , Analysis of interactions between the corneal epithelium and liposomes: qualitative and quantitative fluorescence studies of a corneal epithelial cell line.
  • Pleyer U., Grammer J., Kosmidis P., Ruckert D. G. Surv. Ophthalmol. 1995; 39: S3–S16, Suppl. 1
  • , Antimetastatic effect of immunization with liposomeencapsulated tumor cell–membrane proteins obtained from experimental tumors.
  • Alino S. F., Lejarreta M., Alfaro J., Iruarrizaga A., Bobadilla M., Blaya C., Crespo J. Immunopharmacol. Immunotoxicol. 1995; 17(3)419–436
  • , Antioxidant protection of egg lecithin liposomes during sonication.
  • Gabrielska J., Sarapuk J., Przestalski S. Z. Naturforsch. C: Biosci. 1995; 50(7/8)561–564
  • , Antiphospholipid antibody binding to bilayer–coated glass microspheres.
  • Obringer Amy R., Rote Neal S., Walter Anne. J. Immunol. Methods 1995; 185(1)81–93
  • , Antitumor reactivity induced by liposomal MTP–PE in a liver metastasis model of colon cancer in the rat.
  • Thomas Kees, Nijenhuis, Miranda A., Dontje Bert H. J., Daemen Toos, Scherphof, Gerrit L. Clin. Exp. Metastasis 1995; 13(5)328–336
  • , Application of enteric–coated microcapsule in oral administration of bovine serum albumin into eel.
  • Nagai Akira, Fujino Yasuhiro. Fish Sci. 1995; 61(5)796–799
  • , Applications of liposomes.
  • Lasic D. D. Handb. Biol. Phys 1995; IA: 491–519
  • , ATP synthesis by the F0F1–ATPase from the thermophilic Bacillus PS3 co-reconstituted with bacteriorhodopsin into liposomes. Evidence for stimulation of ATP synthesis by ATP bound to a noncatalytic binding site.
  • Richard Peter, Pitard Bruno, Rigaud, Jean Louis. J. Biol. Chem. 1995; 270(37)21571–21578
  • , Basic study and application of functional liposomes.
  • Oku Naoto. Yakugaku Zasshi 1995; 115(7)483–498
  • , Beta 2 glycoprotein I is a major protein associated with very rapidly cleared liposomes in vivo, suggesting a significant role in the immune clearance of “non self” particles.
  • Chonn Arcadio, Semple, Sean C., Cullis Pieter R. J. Biol. Chem. 1995; 270(43)25845–25849
  • , Biliary excretion of polystyrene microspheres after oral and parenteral administration to rats.
  • Jani P. U., Yamashita E, Nomura T., Takakura Y., Florence A. T., Hashida M. Proc. 22nd Int. Symp. Controlled Release of Bioactive Materials 1995; 198–199
  • , Biodegradable polymer microspheres for targeted drug delivery to the retinal pigment epithelium.
  • Ogura Y., Kimura H. Sure Ophthalmol. 1995; 39: S17–S24, Suppl. 1
  • , Biodegradable ion–exchange microspheres based on modified polylysines.
  • Cremers H. F. M., Lens J. P., Seymour L., Feijen J. J. Controlled Release 1995; 36(1–2)167–179
  • , Biodegradable microcapsules containing an anticancer drug: experimental studies of drug release and toxicity.
  • Murata Katsuko. J. Jpn. Soc. Cancer Ther. 1995; 30(6)883–996
  • , Biodegradable microspheres XVIII: the adjuvant effect of polyacryl starch microparticles with conjugated human serum albumin.
  • Degling Lena, Stjaernkvist Peter. Vaccine 1995; 13(7)629–636
  • , Biodistribution of liposome–associated bupivacaine after extradural administration to rabbits.
  • Boogaerts J. G., Lafont N. D., Carlino S., Noel E., Raynal P., Goffinet G., Legros EJ. Br. J. Anaesth. 1995; 75(3)319–325
  • , Bioimaging of myeloperoxidase release into phagolysosome of viable polymorphonuclear leukocytes and reaction of the enzyme with microspheres using a highly sensitive analyzer system, IMRAS.
  • Suzuki Kazuo, Hosaka Shuntaro, Morikawa Kaoru, Suzuki Mitugu, Suzuki Shoichi, Miyoshi Masamichi, Fujita Masahiko, Mizuno Satoshi. Bioimages 1993; 1(1)13–20
  • , Blood urea clearance with microencapsulated urease.
  • Lee K. B., Boadi D. K., Neufeld R. J. J. Theor. Biol. 1995; 175(3)295–303
  • , Botulinum toxin type A inhibits Ca2+–dependent transport of acetylcholine in reconstituted giant liposomes made from presynaptic membranes from cholinergic nerve terminals.
  • Lopez-Alonso Elena, Canaves Jaime, Arribas Monica, Casanova Aurora, Marsal Jordi, Gonzalez, Ros J. M., Solsona Caries. Neurosci. Lett. 1995; 196(1,2)37–40
  • , Buffer controlled release of indomethacin from ethyl cellulose microcapsules.
  • Tirkkonen S., Urtti A., Paronen P. Int. J. Pharm. 1995; 124(2)219–229
  • , Cationic liposome-mediated intravenous gene delivery.
  • Liu Yong, Liggitt Denny, Zhong Wendy, Tu Guanhuan, Gaensler Karin, Debs Robert. J. Biol. Chem. 1995; 270(42)24864–24870
  • , CDDP-albumin microspheres for hepatic arterial chemoembolization.
  • Zhang Y. Q., Jiang X. T., Sun Q. R., Zhang G. Q., Wang Y. Yaoxue Xuebao 1995; 30(7)543–548
  • , Characterization of in vitro release of sulfamethizole from Eudragit RL 100 microspheres.
  • Biswanath, Tamilvanan S. Indian Drugs 1995; 32(4)176–183
  • , Characterization of biodegradable poly(D,L–lactide–co–glycolide) polymers and microspheres.
  • Hausberger A. G., DeLuca P. P. J. Pharm. Biomed. Anal. 1995; 13(6)747–760
  • , Characterization, in vitro and in vivo studies on primaquine diphosphate liposomes.
  • Arica B., Oezer A. Y., Ercan M. T., Hincal A. A. J. Microencapsulation 1995; 12(5)469–485
  • , Complement activation by liposome-encapsulated hemoglobin in vitro: the role of endotoxin contamination.
  • Szebeni Janos, Wassef, Nabila M., Rudolph Alan S., Alving Carl R. Artif Cells, Blood Substitutes, Immobilization Biotechnol. 1995; 23(3)355–363
  • , Conjugation of cholera toxin or its B subunit to liposomes for targeted delivery of antigens.
  • Harokopakis Evlambia, Childers, Noel K., Michalek Suzanne M., Zhang–Shuhua S., Tomasi Maurizio. J. Immunol. Meth. 1995; 185(1)31–42
  • , Cooperative inhibitory effect of N,N,N–trimethylsphingosine and sphingosine–1–phosphate, co-incorporated in liposomes, on B16 melanoma cell metastasis: cell membrane signaling as a target in cancer therapy. IV.
  • Park Yong Serk, Ruan Fuqiang, Hakomori Sen Itiroh, Igarashi Yasuyuki. Int. J. Oncol. 1995; 7(3)487–494
  • , Cytokine–containing liposomes as adjuvants for HIV sub-unit vaccines.
  • Lachman Lawrence B., Shih Li–Chen N., Mei Rao Xiao, Hu Xiaosha, Bucana–Corazon D., Ullrich Stephen E., Cleland Jeffrey L. AIDS Res. Hum. Retroviruses 1995; 11(8)921–932
  • , Cytokine–encapsulated liposomes covalently coupled to tumor cells is an alternative to gene–transfected tumor cells as vaccines?
  • Falkenberg Frank W., Reimer Martina. Vaccine Res. 1995; 4(2)105–111
  • , Degradability and antigen-release characteristics of polyester microspheres prepared from polymer blends.
  • Sah Hongkee, Chien, Yie W. J. Appl. Polym. Sci. 1995; 58(1)197–206
  • , Degradation of poly(lactic–co–glycolic acid) microspheres: effect of copolymer composition.
  • Park Tae Gwam. Biomaterials 1995; 16(15)1123–1130
  • , Delivery of protein into cells using polycationic liposomes.
  • Sells M. A., Li J., Chernoff J. Biotechniques 1995; 19(1)72–76
  • , Designing of thermosensitive liposomes from natural lipids for multimodality cancer therapy.
  • Chelvi T. P., Ralhan R. Int. J. Hyperthermia 1995; 11(5)685–695
  • , Development and characterization of liposomal tumor necrosis factor (TNF)
  • Klostergaard Jim, Akimaru Kunihiro, Soma Gen Ichiro, Lodato, Robert F. J. Liposome Res. 1995; 5(3)491–502
  • , Development of microcapsule production technology for high performance controlled drug release.
  • Lee H. B, Yook S. H., Cho S. H. Kobunja Kwahak Kwa Kisul 1995; 4(6)468–469
  • , Differential effect of triiodothyronine and thyroxine on liposomes containing cholesterol: physiological speculations.
  • Chehin R. N., Rintoul M. R., Morero R. D., Farias R. N. J. Membr. Biol. 1995; 147(2)217–221
  • , Differential scanning calorimetry and Fourier-transform infrared spectroscopic studies of liposomes and biomembranes.
  • McElhaney R. N. Proc. 22nd Int. Symp. Controlled Release of Bioactive Materials 1995; 5–6
  • , Effect of isocarbacyclin methyl ester incorporated into lipid microspheres on cutaneous blood flow in rat.
  • Sawada K., Taneda K., Katsuura Y., Tanabe H., Kiyoki M., Araki H. Arzneim. Forsch. 1995; 45(9)988–990
  • , Effect of isocarbacyclin methyl ester incorporated in lipid microspheres on experimental models of peripheral obstructive disease.
  • Murakami T., Sawada K., Taneda K., Hayashi M., Katsuura Y., Tanabe H., Kiyoki M., Araki H. Arzneim. Forsch. 1995; 45(9)991–994
  • , Effect of liposomal and free bisphosphonates on the IL–1 beta, IL–6 and TNF alpha secretion from RAW 264 cells in vitro.
  • Pennanen N., Lapinjoki S., Urtti A., Monkkonen J. Pharm. Res. 1995; 12(6)916–922
  • , Effect of hyperosmolar mannitol on the delivery of high molecular weight substances entrapped in liposomes to the brain and cultured C6 glioma cells.
  • Gomes Ivone, Sharma, Shail K. J. Clin. Biochem. Nutt 1995; 18(3)133–144
  • , Effect of polyethylene glycol 6000 on the release of pentazocine from microcapsules.
  • Choudhury P. K., Pandit J. K., Babu Jayachandra R., Sampathkumar D. East. Pharm. 1994; 37(439)121–124
  • , Effect of bilayer composition on the phase behavior of liposomal suspensions containing poly(ethylene glycol)–lipids.
  • Hristova Kalina, Kenworthy Anne, McIntosh, Thomas J. Macromolecules 1995; 28(23)7693–7699
  • , Effect of lipid ozonation products on liposomal membranes detected by laurdan fluorescence.
  • Salgo, Maria G., Cueto Rafael, Pryor, William A. Free Radical Biol. Med. 1995; 19(5)609–616
  • , Effect of cetylmannoside modification on the alternative complement pathway activation of liposomes in rat serum.
  • Matsuo Hirotami, Yamashita Chikamasa, Akiyama Kazue, Kiwada Hiroshi. Biol. Pharm. Bull. 1995; 18(4)581–585
  • , Effect of liposome–muramyl tripeptide combined with recombinant canine granulocyte colony-stimulating factor on canine monocyte activity.
  • Kurzman, Ilene D., Cheng Haiyan, MacEwen, Gregory E. Cancer Biother. 1994; 9(2)113–122
  • , Effect on loading on the release of 2,4–D from polymeric microspheres.
  • Akin H., Hasirei N. Polym. Prep. 1994; 35(2)765–766
  • , Effect of cetylmannoside modification on the alternative complement pathway activation by liposomes in rat serum.
  • Matsuo H., Yamashita C., Akiyama K., Kiwada H. Biol. Pharm. Bull. 1995; 18(4)581–585
  • , Effect of liposome-mediated macrophage depletion on LPS–induced cytokine gene expression and radioprotection.
  • Salkowski, Cindy A., Neta Ruth, Wynn, Thomas A., van Strassmann Gideon, Rooijen Nico, Vogel, Stefanie N. J. Immunol. 1995; 155(6)3168–3179
  • , Effects of bacteriohopane-32-ol on the stability of various kinds of liposomal membranes.
  • Chen Z., Tanno N., Takenaka S., Suzuki Y. Biol. Pharm. Bull. 1995; 18(4)600–604
  • , Effects of H+ liberated from hydrolytic cleavage of polyester microcapsules on their permeability and degradability.
  • Sah Hongkee, Chien, Yie W. J. Pharm. Sci. 1995; 84(11)1353–1539
  • , Effects of α–trinositol administered extra– and intracellularly (using liposomes) on rat aorta rings.
  • Brailoiu Eugen, Baltatu Ovidiu, Costuleanu Marcel, Slatineanu Sebastian, Filipeanu, Catalin M., Branisteanu, Dimitrie D. Eur. J. Pharmacol. 1995; 281(2)209–212
  • , Efficacy of encapsulated adriamycin in the liposomes on mice SRS lymphoma.
  • Wu Kaida, Fan Jian, Gao Xiezhi, Jin Baocui. Zhongguo Yaolixue Tongbao 1993; 9(4)268–270
  • , Embryotoxicity of free and liposome–encapsulated taxol in the chick.
  • Scialli, Anthony R., DeSesso John M., Rahman A., Husain S. R., Goeringer, Gerald C. Pharmacology 1995; 51(3)145–151
  • , Encapsulation of vincristine in liposomes reduces its toxicity and improves its antitumor efficacy.
  • Boman, Nancy L., Bally Marcel B., Cullis Pieter R., Mayer, Lawrence D., Webb, Murray S. J. Liposome Res. 1995; 5(3)523–541
  • , Encapsulation of vasoactive intestinal peptide into liposomes: effects on vasodilation in vivo.
  • Suzuki Hideyuki, Noda Yasuko, Paul Sudhir, Gao Xiao–pei, Rubinstein Israel. Life Sci. 1995; 57(15)1451–1457
  • , Encapsulation of thioguanine in liposomes.
  • Foradada Merce, Estelrich Joan. Int. J. Pharm. 1995; 124(2)261–269
  • , Engineered liposomes and virosomes for delivery of macro–molecules.
  • Grimaldi S., Giuliani A., Ferroni L., Lisi A., Santoro N., Pozzi D. Res. Virol. 1995; 146(4)289–293
  • , Enhanced in vivo performance of liposomal indomethacin derived from effervescent granule–based proliposomes.
  • Katare O. P., Vyas S. P., Dixit V. K. J. Microencapsulation 1995; 12(5)487–493
  • , Enhancement of liposome–mediated gene transfer into vascular tissue by replication deficient adenovirus.
  • Raja Walia R., Webber J., Naftilan J., Chapman G. D., Naftilan A. J. Gene Ther. 1995; 2(8)521–530
  • , Entropic contribution to the stability of multilamellar liposomes.
  • Popescu D. Rom. J. Biophys. 1993; 3(2)113–121
  • , Ex vivo anti–platelet effects of isocarbacyclin methylester incorporated in lipid microspheres in rabbits.
  • Inoue K., Aoki Y., Hayashi M., Kitahara S., Tanabe H., Kiyoki M., Araki H. Arzneim. Forsch. 1995; 45(9)980–984
  • , Experimental and clinical studies of degradable starch microspheres in the treatment of hepatic neoplasm. 1. Experimental study.
  • Yamada Tetsuya. Nippon Igaku Hoshasen Gakkai Zasshi 1995; 55(9)663–669
  • , Flow–injection liposome immunoanalysis (FILIA) with electrochemical detection.
  • Wards, Alison J., Durst Richard A. Electroanalysis 1995; 7(9)838–845
  • , Formulation and efficacy of liposome–encapsulated antibiotics for therapy of intracellular Mycobacterium avium infection.
  • Oh Yu Kyoung, Nix, David E., Straubinger Robert M. Antimicrob. Agents Chemother. 1995; 39(9)2104–2111
  • , Formulation of controlled release egg albumin micro–spheres containing nifedipine.
  • Sawant, Krutika K., Murthy R. S. R. East. Pharm. 1993; 36(425)119–120
  • , Functional reconstitution of ion channels from Paramecium cortex into artificial liposomes.
  • Zhou X. L., Chan C. W., Saimi Y., Kung C. J. Membr. Biol. 1995; 144(3)199–208
  • , Gene transfer by HVJ–liposomes for gene therapy.
  • Kaneda Yasufumi. Saishin Igaku 1995; 50: 1708–1717, Suppl. 601
  • , Heparin immobilization onto PHEMA microspheres and determination of anticoagulant activity of immobilized heparin.
  • Denizli Adil, Piskin Erhan. Turk. J. Chem. 1995; 19(2)114–126
  • , Histochemical and electron microscopic characterization of hepatic macrophage subfractions isolated from normal and liposomal muramyl dipeptide treated rats.
  • Hoedemakers R. M., Atmosoerodjo Briggs J. E., Morselt H. W., Daemen T., Scherphof G. L., Hardonk M. J. Liver 1995; 15(3)113–120
  • , Human skin irritation of a soybean lecithin microemulsion gel and of liposomes.
  • Dreher F., Walde P., Luisi P. L., Elsner P. Proc. 22nd Int. Symp. Controlled Release of Bioactive Materials 1995; 640–641
  • , Ibuprofen embedded wax/fat microspherules for floating drug delivery systems for controlled delivery.
  • Nath B. S., Reddy Satish C. East. Pharm. 1995; 38(452)169–172
  • , Identification of the serum factor required for liposomeprimed activation of mouse peritoneal macrophages. Modified α 2–macroglobulin enhances Fc γ receptor–mediated phagocytosis of opsonized sheep red blood cells.
  • Murai M., Aramaki Y., Tsuchiya S. Immunology 1995; 86(1)64–70
  • , Identification of phosphatidate nonlamellar phases on liposomes by flow cytometry.
  • Baeza Isabel, Aguilar Leopoldo, Alvarado–Aleman Francisco, Soto Carolina, Escobar–Gutierrez Alejandro, Mondragon Ricardo, Gonzalez Sirenia, Ibanez Miguel, Wong Carlos. Biochem. Cell Biol. 1995; 73(5 and 6)289–297
  • , Identification of some of the physicochemical characteristics of microspheres which influence the induction of the immune response following mucosal delivery.
  • Alpar–Hazire Oya, Almeida–Antionio Jose. Eur. J. Pharm. Biopharm. 1994; 40(4)198–202
  • , Immobilized–liposome chromatographic analysis of drug partitioning into lipid bilayers.
  • Beigi F., Yang Q., Lundahl P. J. Chromatogr. A 1995; 704(2)315–321
  • , Immunoadjuvant action of liposomes containing interleukin–2 as a co–adjuvant.
  • Gursel Mayda, Gregoriadis Gregory. Proc. 22nd Int. Symp. Controlled Release of Bioactive Materials 1995; 572–573
  • , Immunological characterization of phosphatidylethanolcontaining liposomes.
  • Kulik L. N., Ivanov V. S., Kisel M. A. Biotekhnologiya 1995; 38–40, β–4)
  • , Incorporation of the cholera toxin receptor in phospholipidcovered polystyrene microspheres.
  • Sicchierolli S. M., Carmona–Ribeiro A. M. Colloids Surf. B 1995; 5(1/2)57–61
  • , Induction of a secretory IgA response in the murine female urogenital tract by immunization of the lungs with liposomesupplemented viral subunit antigen.
  • De Haan A., Renegar K. B., Small P. A., Jr, Wilschut J. Vaccine 1995; 13(7)613–616
  • , Influence of surface coverage with poly(ethylene oxide) on attachment of sterically stabilized microspheres to rat Kupffer cells in vitro.
  • Harper G. R., Davis S. S., Davies M. C., Norman M. E., Tadros T. F., Taylor D. C., Irving M. P., Waters J. A., Watts J. F. Biomaterials 1995; 16(6)427–439
  • , Influence of liposome–encapsulated yeast Cu/Zn superoxide dismutase on the phagocytosis of mouse peritoneal–exudation cells.
  • Valeva V., Stefanova Z., Yanchev I., Neychev H. Dokl. Bulg. Akad. Nauk 1994; 47(7)83–86
  • , Inhibitory effects of catechol derivatives on oxidation of soybean phosphatidylcholine liposomes induced by hydrophilic and hydrophobic free radical initiators.
  • Kitagawa Shuji, Sakuma Takeshi, Yonemura Seiichi. Chem. Pharm. Bull. 1995; 43(8)1263–1266
  • , Inhibitory effect of simultaneous intraportal administration of 5–fluorouracil, uracil and degradable starch micro–spheres on experimental hepatic micrometastasis, is of colon cancer.
  • Nakasaki H., Hanaue H., Yasuda S., Fujii K., Tajima T., Mitomi T., Kurosawa T. Tokai J. Exp. Clin. Med. 1994; 19(1–2)83–91
  • , Inter–particle interactions of liposomes and their pattern formation.
  • Matsumura Hideo, Furusawa Kunio. Denshi Gijutsu Sogo Kenkyusho Iho 1995; 59(8)555–569
  • , Interaction of cationic liposomes with cells of electrically active neuronal networks in culture.
  • Azzazy, Hassan M. E., Hong Keelung, Wu Ming–Chi, Gross Guenter W. Brain Res. 1995; 695(2)231–236
  • , Interaction of anionic/nonionic surfactant mixtures with phosphatidylcholine liposomes.
  • de la Maza Alfonso, Parra, Jose Luis. Arch. Biochem. Biophys. 1995; 322(1)167–173
  • , Liposome aggregation: promoted by trypsin and papain in the absence of cations.
  • Tsao Chung–hsin, Tsao Francis H. C. J. Liposome Res. 1995; 5(3)571–580
  • , Interaction of liposomes with cells in vitro.
  • Lee Kyung Dall, Papahadjopoulos Demetrios. NATO ASI Ser. 1995; H 91: 265–284, Trafficking of Intracellular Membranes
  • , Interactions between liposomes and human stratum corneum in vitro: freeze fracture electron microscopical visualization and small angle X–ray scattering studies.
  • Holland H. E., Bouwstra J. A., Bodde H. E., Spies F., Junginger H. E. Br. J. Dermatol. 1995; 132(6)853–866
  • , Interactions between temperature–sensitive hydrogel micro–spheres and granulocytes.
  • Achiha Koji, Ojima Rika, Kasuya Yuji, Fujimoto Keiji, Kawaguchi Haruma. Polym. Adv. Technol. 1995; 6(7)534–540
  • , Liposome formation in microgravity.
  • Claassen D. E., Spooner B. S. Life and Gravity: Physiological and Morphological Responses. Adv. Space Res. 1995; 17(6/7)151–160
  • , Interactions between bacteriohopane–32,33,34,35–tetrol and liposomal membranes composed of dipalmitoylphosphatidylcholine.
  • Chen Zhansong, Sato Yukio, Nakazawa Izo, Suzuki Yasuo. Biol. Pharm. Bull. 1995; 18(3)477–480
  • , Intrathecal administration of liposomal morphine in a mouse model.
  • Grant Gilbert J., Cascio Martin, Zakowski Mark I., Langerman Lev, Turndorf Herman. Anesth. Analg. (Baltimore) 1995; 81(3)514–518
  • , Introducing a new element—fluorine—into the liposomal membrane.
  • Riess Jean G. J. Liposome Res. 1995; 5(3)413–430
  • , Lipid microspheres for drug delivery from the pharmaceutical viewpoint.
  • Yamaguchi T., Mizushima Y. Crit. Rev. Ther Drug Carrier Syst. 1994; 11(4)215–229
  • , Liposomal rifamycins: in vivo evaluation.
  • Cruz M. E. M., Gaspar M. M., Mimoso I. M., Portaels F., Silva M. T. Proc. 22nd Int. Symp. Controlled Release of Bioactive Materials 1995; 462–463
  • , Liposomal encapsulation of foscarnet protects against hypocalcemia induced by free foscarnet.
  • Omar Rabeea F., Dusserre Nathalie, Desormeaux Andre, Poulin Louise, Tremblay Michel, Beauchamp Denis, Bergeron Michel G. Antimicrob. Agents Chemother. 1995; 39(9)1973–1978
  • , Liposomal muramyl tripeptide upregulates adhesion molecules on the surface of human monocytes.
  • Asano Takeshi, McIntyre Bradley W., Bednarczyk John L., Wygant James N., Kleinerman Eugenie S. Oncol. Res. 1995; 7(5)253–257
  • , Liposomal MTP–PE: a promising new biologic response modifier.
  • Gano J. B., Kleinerman E. S. Oncol. Nurs. Forum 1995; 22(5)809–816
  • , Liposomal encapsulation of β–galactosidase: comparison of two methods of encapsulation and in vitro lactose digestibility.
  • Rao D. R., Chawan C. B., Veeramachaneni R. J. Food Biochem. 1995; 18(4)239–251
  • , Liposomal delivery of peptides and proteins.
  • Storm Gert, Koppenhagen Frank J., Heeremans Anneke L. M., Vingerhoeds Monique H., Woodle Martin C., Crommelin Daan J. A. J. Liposome Res. 1995; 5(3)481–489
  • , Liposomal hepatitis A vaccine and liposomal multiantigen combination vaccines.
  • Glueck R. J. Liposome Res. 1995; 5(3)467–479
  • , Liposome fusion induced by a Mr 18 000 protein localized to the acrosomal region of acrosome–reacted abalone spermatozoa.
  • Swanson Willie J., Vacquier Victor D. Biochemistry 1995; 34(43)14202–14208
  • , Liposome formation from the preparation of the lipid cornea layers. Characterization and interactions with surfactants.
  • Lopez O., De La Maza A., Coderch L., Parra J. L. Comun. Jorn. Com. Esp. Deterg. 1995; 26: 79–93
  • , Liposome ocular delivery systems.
  • Meisner Dale, Mezei Michael. Adv. Drug Delivery Rev. 1995; 16(1)75–93
  • , Liposome solubilization on octyl glucoside.
  • de La Maza A., Parra J. L. Comun. Jorn. Com. Esp. Deterg. 1995; 26: 353–367
  • , Liposome–encapsulated DNA–mediated gene transfer and synthesis of human factor IX in mice.
  • Baru Moshe, Axelrod Jonathan H., Nur Israel. Gene 1995; 161(2)143–150
  • , Liposome–encapsulated muramyl tripeptide phosphatidylethanolamine for the treatment of feline mammary adenocarcinoma–a multicenter randomized double–blind study.
  • Fox L. E., MacEwen E. G., Kurzman I. D, Dubielzig R. R., Helfand S. C., Vail D. M., Kisseberth W., London C., Madewell B. R., Rodriguez C. O., Jr, et al. Cancer Biother. 1995; 10(2)125–130
  • , Liposome–mediated in vivo gene transfer of antisense K–ras construct inhibits pancreatic tumor dissemination in the murine peritoneal cavity.
  • Aoki Kazunori, Yoshida Teruhiko, Sugimura Takashi, Terada Masaaki. Cancer Res. 1995; 55(17)3810–3816
  • , Liposome–mediated in vivo gene transfer into different tissues of the gastrointestinal tract.
  • Schmid Roland M., Weidenbach H., Draenert G. F., Lerch M. M., Liptay S., Schorr J., Beckh K. H., Adler G. Z. Gastroenterol. 1994; 32(12)665–670
  • , Liposomes for intracellular delivery of antibiotics in infection.
  • Gulyaev A. Ye., Kivman G. Ya., Gibenko L. V., Yermekbayeva B. A. Khim. Farm. Zh. 1994; 28(9)12–14
  • , Liposomes as immunoadjuvants for saccharide antigens.
  • Snippe H., Verheul A. F. M. J. Liposome Res. 1995; 5(3)453–465
  • , Liposomes in reconstitution of ion–pumps. Electrogenic properties of the Na+, K+–ATPase and the sarcoplasmic Cat+–ATPase.
  • Cornelius Flemming. J. Liposome Res. 1995; 5(3)399–412
  • , Long–circulating liposomes.
  • Oku N., Namba Y. Crit. Rev. Ther. Drug Carrier Syst. 1994; 11(4)231–270
  • , Lung targeting gelatin microspheres of mitoxantrone.
  • Wang J. H., Lu B., Xu P. L., Bao D. Y., Zhang Z. R. Yaoxue Xuebao 1995; 30(7)549–555
  • , Lymphogenic inflow into the lesser circulation of oral rifampicin in standard and liposomal forms.
  • Petrenko T. I., Ursov I. G., Kurunov Yu. N., Borodin Yu. I., Sidorova L. D. Probl. Tuberk 1995, 3: 53–54
  • , Lymphoid tissues targeting of liposome–encapsulated 2′,3′–dideoxyinosine.
  • Harvie Pierrot, Desormeaux Andre, Gagne Nathalie, Tremblay Michel, Poulin Louise, Beauchamp Denis, Bergeron Michel G. AIDS (London) 1995; 9(7)701–707
  • , Mechanism of liposome destabilization by polycationic amino acids.
  • Epand Richard M., Lim Wendy. Biosci. Rep. 1995; 15(3)151–160
  • , Mechanisms of liposome formation.
  • Lasic D. D. J. Liposome Res. 1995; 5(3)431–441
  • , Mechanistic study on toxicity of positively charged liposomes containing stearylamine to blood.
  • Nishiya T., Lam R. T. T., Eng F., Zerey M., Lau S. Artif. Cells, Blood Substitutes, Immobilization Biotechnol. 1995; 23(4)505–512
  • , Antitumor effects of liposomal ILl a and TNF a against the pulmonary metastases of the B16F10 murine melanoma in syngeneic mice.
  • Saito Mitsue, Fan Dominic, Lachman Lawrence B. Clin. Exp. Metastasis 1995; 13(4)249–259
  • , Methods for assessing splenic macrophage depletion by liposome encapsulated clodronate.
  • Camilleri J. P., Williams A. S., Amos N., Douglas Jones A. G., Love W. G., Williams B. D. Inlamm. Res. 1995; 44(4)152–157
  • , Microcapsules obtained from complex coacervation of collagen and chondroitin sulfate.
  • Shao Wen, Leong Kam W. J. Biomater. Sci., Polym. Ed. 1995; 7(5)389–399
  • , Microencapsulation of propranolol hydrochloride by the solvent evaporation technique.
  • Manekar N. C., Puranik P. K., Joshi S. B. East. Pharm. 1993; 36(426)119–122
  • , Microencapsulation of salbutamol sulfate by melt dispersion technique.
  • Dharmadhikari N. B., Joshi S. B. East. Pharm. 1994; 37(442)129–131
  • , Microencapsulation of nifedipine and its solid dispersions in HPC–MCC for sustained release.
  • Chowdary K. P. R., Ramesh K. V. R. N. S. East. Pharm. 1994; 37(443)127–131
  • , Microencapsulation of O/W emulsions by formation of a protein surfactant insoluble complex.
  • Magdassi S., Vinetsky Y. J. Microencapsulation 1995; 12(5)537–545
  • , Microsphere formation in a series of derivatized a–amino acids: properties, molecular modeling, and oral delivery of salmon calcitonin.
  • Leone Bay, Andrea McInnes, Campbell Wang, NaiFang DeMorin, Frenel Achan, Doug Lercara, Christine Sarubbi, Donald Haas, Susan Press, Jeffery, et al. J. Med. Chem. 1995; 38(21)4257–4262
  • , Microspheres and nanoparticles used in ocular delivery systems.
  • Zimmer Andreas, Kreuter Joerg. Adv. Drug Delivery Rev. 1995; 16(1)61–73
  • , Modification of α2 macroglobulin into a macrophage activating factor through the action of liposome–stimulated B–cell membranous glycosidases.
  • Murai M., Aramaki Y., Tsuchiya S. Immunology 1995; 86(1)58–63
  • , Motor and blood pressure effects of epidural sustained–release bupivacaine from polymer microspheres: A dose–response study in rabbits.
  • Malinovsky Jean Marc, Bernard Jean Marc, Le Cone Pascal, Dumand Jean Bernard, Lepage Jean Yves, Le Verge Roger, Souron Remy. Anesth. Analg. (Baltimore) 1995; 81(3)519–524
  • , Mucosal IgA response to rectally administered antigen formulated in IgA–coated liposomes.
  • Zhou F., Kraehenbuhl J. P., Neutra M. R. Vaccine 1995; 13(7)637–644
  • , Murine IgG subclass antibodies to antigens incorporated in liposomes containing lipid A.
  • Glenn Gregory M., Rao Mangala, Richards Roberta L., Matyas Gary R., Alving Carl R. Immunol. Lett. 1995; 47(1,2)73–78
  • , Novel developments in liposomal delivery of peptides and proteins.
  • Storm Gert, Koppenhagen Frank, Heeremans Anneke, Vingerhoeds Monique, Woodle Martin C., Crommelin Daan J. A. J. Controlled Release 1995; 36(1–2)19–24
  • , Optimization of preparative conditions for polylactide (PLA) microspheres containing ovalbumin.
  • Uchida Takahiro, Yoshida Kazushi, Ninomiya Akiko, Goto Shigeru. Chem. Pharm. Bull. 1995; 43(9)1569–1573
  • , Oral immunization with antigens and adjuvants coencapsulated in derivatized amino acid microspheres.
  • Santiago N., Miura Fraboni J., Kumar M., Leone Bay A., DeMorin F., Haas S. Proc. 22nd Int. Symp. Controlled Release of Bioactive Materials 1995; 576–577
  • , Oral inoculation of mice with low doses of microencapsulated, noninfectious rotavirus induces virus–specific antibodies in gut–associated lymphoid tissue.
  • Khoury C. A., Moser C. A., Speaker T. J., Offit P. A. J. Infect. Dis. 1995; 172(3)870–874
  • , Particle size studies for subcutaneous delivery of poly(lactide–co–glycolide) microspheres containing ovalbumin as vaccine formulation.
  • Uchida Takahiro, Goto Shigeru, Foster Todd P. J. Pharm. Pharmacol. 1995; 47(7)556–560
  • , Permanent enzyme microencapsulation in reverse micellar media.
  • Robledo L., Vilas V., Otero C. Ann. N.Y. Acad. Sci. 1995; 750: 89–93, (Enzyme Engineering XII)
  • , Pharmacokinetics of ibuprofen following a single administration of a suspension containing enteric–coated microcapsules.
  • Walter K., Weiss G., Laicher A., Stanislaus F. Arzneim. Forsch., 45(8)886–890
  • , Phospholipids liposomes Nanoemulsions. Part 2. Skin effects and product safety.
  • Gareiss J., Hoff E., Ghyczy M. Parfuem Kosmet. 1995; 76(3)152–155
  • , Photodynamic efficiency of liposome–administered tetramethyl hematoporphyrin in two human bladder cancer cell lines.
  • Bachor R., Reich E., Miller K., Rueck A., Hautmann R. Urol. Res. 1995; 23(3)151–156
  • , Physical stability of different liposome compositions obtained by extrusion method.
  • Armengol X., Estelrich J. J. Microencapsulation 1995; 12(5)525–535
  • , Physicochemical and pharmacokinetic characteristics of plasmid DNA/cationic liposome complexes.
  • Mahato Ram I., Kawabata Kenji, Nomura Takehiko, Takakura Yoshinobu, Hashida Mitsuru. J. Pharm. Sci. 1995; 84(11)1267–1271
  • , Polystyrene microspheres decrease bronchial artery resistance in anesthetized sheep.
  • Pearse David B., Fessler Henry E., Wagner Elizabeth M. Am. J. Physiol. 1995; 269(3, Pt. 2)H1037–H1043
  • , Polyurethane microspheres as drug carriers.
  • Reddy Siva P. V., Mahesh G. N., Ramesh S., Sivakumar P. A., Radhakrishnan Ganga. Macromol. Rep. 1995; A32: 789–799, (Suppl. 5&6)
  • , Potentiality of gelatin microsphere as immunological adjuvant.
  • Nakaoka R., Tabata Y., Ikada Y. Vaccine 1995; 13(7)653–661
  • , Precorneal clearance of mucoadhesive microspheres from the rabbit eye.
  • Durrani A. M., Farr S. J., Kellaway I. W. J. Pharm. Pharmacol. 1995; 47(7)581–584
  • , Preparation and characteristics of surface–modified albumin microspheres with methotrexate.
  • Hwang Sung Joo, Jo Hang Bum, Rhee Gye Ju, Kim Chong Kook. Yakche Hakhoechi 1995; 25(2)101–108
  • , Preparation of liposomes with palmitic–antibody and targeting in vitro.
  • Hou Xin–Pu, Ning Bao–Ming, Gao Xing–Zheng. J. Chin. Pharm. Sci. 1995; 4(2)62–66
  • , Preparation and evaluation of rifampicin microcapsules.
  • Barik B. B., Gupta B. K., Pal M. East. Pharm. 1993; 36(428)173–175
  • , Preparation of microcapsules of protein hydrolyzate.
  • Dong Keyin, Gong Juntao, Xu Xiquan, Guo Wei. Zhongguo Yiyuan Yaoxue Zazhi 1995; 15(5)216–217
  • , Preparation and characterization of crosslinked gelatin microspheres.
  • Akin H., Hasirci N. J. Appl. Polym. Sci. 1995; 58(1)95–100
  • , Pressure induced fusion (PIF) liposomes: a solventless sterilizing method for producing large phospholipid vesicles.
  • Perkins Walter R., Dause Richard B., Li Xingong, Davis Thomas S., Ahl Patrick L., Minchey Sharma R., Taraschi Theodore F., Erramilli Shyamsunder, Gruner Sol M., Janoff Andrew S. J. Liposome Res. 1995; 5(3)605–626
  • , Pro–oxidant effects of cross–linked hemoglobins explored using liposome and cytochrome C oxidase vesicle model membranes.
  • Rogers Melanie S., Patel Rakesh P., Reeder Brandon J., Sarti Paolo, Wilson Michael T., Alayash Abdu I. Biochem. J. 1995; 310(3)827–833
  • , Properties of immobilized–liposome–chromatographic sup–ports for interaction analysis.
  • Brekkan Eggert, Lu Lili, Lundahl Per. J. Chromatogr. A 1995; 711(1)33–42
  • , Protection of mice from Bordetella pertussis respiratory infection using microencapsulated pertussis fimbriae.
  • Jones D. H., McBride B. W., Jeffery H., O'Hagan D. T., Robinson A., Farrar G. H. Vaccine 1995; 13(7)675–681
  • , Protein determination in human serum albumin microspheres with and without attached stannous ions.
  • Epstein N. B., Potapova Z. M., Kharitonov Yu. Ya., Kharlamov V. T., Khlesko V. I., Petriev V. M., Skvortsov V. G. Pharm. Pharmacol. Lett. 1995; 5(3)98–100
  • , Pseudomonas syringae pv. syringae phytotoxins reversibly inhibit the plasma membrane H+–ATPase and disrupt unilamellar liposomes.
  • Camoni Lorenzo, Di Giorgio Domenico, Marra Mauro, Aducci Patrizia, Ballio Alessandro. Biochem. Biophys. Res. Commun. 1995; 214(1)118–124
  • , Radioimmunoanalysis of antibodies obtained by a liposomal adjuvant.
  • Bejan Anca, Suciu Maria, Dorobantu I., Maican Anca, Turcu Gr. J. Radioanal. Nucl. Chem. 1995; 200(6)475–482
  • , Reactive entrapment of cancer–causing agents in semi–permeable magnetically–recoverable microcapsules used for gastrointestinal monitoring.
  • O'Neill Ian, Ellul Anne, Ridgway Oonah. Polym. Prep. 1994; 35(2)79–80
  • , Real–time analysis of liposomal trafficking in tumor–bearing mice by use of positron emission tomography.
  • Oku Naoto, Tokudome Yoshihiro, Tsukada Hideo, Okada Shoji. Biochim. Biophys. Acta 1995; 1238(1)86–90
  • , Receptor–mediated transfer of pSV2CAT DNA to a human hepatoblastoma cell line HepG2 using asialofetuin–labeled cationic liposomes.
  • Hara Toshifumi, Aramaki Yukihiko, Takada Shinako, Koike Katsuro, Tsuchiya Seishi. Gene 1995; 159(2)167–174
  • , Reconstitution of membrane proteins into liposomes: application to energy–transducing membrane proteins.
  • Rigaud Jean Louis, Pitard Bruno, Levy Daniel. Biochim. Biophys. Acta 1995; 1231(3)223–246
  • , Release control of albumin from polylactic acid micro–spheres.
  • Soriano Isabel, Llabres Matias, Evora Carmen. Int. J. Pharm. 1995; 125(2)223–230
  • , Release of drugs from ethyl cellulose microcapsules (diffusion pellets) with pore formers and pore fusion.
  • Gunder W., Lippold B. H., Lippold B. C. Eur. J. Pharm. Sci. 1995; 3(4)203–214
  • , Repeated intravenous administration of liposome–encapsulated muramyl tripeptide–phosphatidyl–ethanolamine diminishes cytotoxic potential of subpopulations of rat liver macrophages.
  • Hoedemakers Rein M. J., Scherphof Gerrit L., Daemen Toos. J. Liposome Res. 1995; 5(3)581–603
  • , Simulated aerosol lung transfection with cationic liposome/ plasmids on a cascade impactor seeded with 2–CFSMEo cells.
  • Schreier H., Conary J. T., Christman B. W., Gagne L. Proc. 22nd Int. Symp. Controlled Release of Bioactive Materials 1995; 434–435
  • , Specific binding of avidin to biotin containing lipid lamella surfaces studied with monolayers and liposomes.
  • Liu Zheng, Qin Hong, Xiao Caide, Wen Chenhui, Wang Shaopeng, Sui Sen–fang. Eur. Biophys. J. 1995; 24(1)31–38
  • , Spontaneous transfer of viral protein from membrane of influenza virus–infected cells to liposomes is dependent on the diameter of receiver.
  • Kogure Kentaro, Itoh Marie, Hayashi Kyoko, Ueno Masaharu. Biol. Pharm. Bull. 1995; 18(8)1168–1170
  • , Spray–dried albumin microspheres containing nicardipine.
  • Conte Ubaldo, Giunchedi Palo, Maggi Lauretta, Torre Maria Luisa. Eur. J. Pharm. Biopharm. 1994; 40(4)203–208
  • , Structural modulation of lipid peroxidation by the proteins within membranes: model protein studies with liposomes.
  • Riedl A., Anderton M., Shamsi Z., Goldfarb P., Wiseman A. Biochem. Soc. Trans. 1995; 23(2)251S
  • , Structural models of plasmatic membranes based on liposomes.
  • Lyubeshkin A. V., Sebyakin Yu. L., Yevstigneyeva R. P. J. Biochem. Organ. 1994; 1(3)197–213
  • , Studies on gelatin microspheres–in–oil emulsion of pingyangmycin.
  • Li H. S., Wei S. L., Lu W. Yao Hsueh Hsueh Pao 1995; 30(5)390–394
  • , Studies on intravenous injection of carmustine liposome.
  • Ma Shuxian, Ding Yuling, Su Mingxian, Wang Haibo, Li Deshan, Liu Yuhua, Xue Yansong, Li Zhi, Li Shanri, Lu Xiurong. Zhongguo Yaoxue Zazhi 1995; 30(6)345–348
  • , Study on residual organic solvent and physicochemical characteristics of polylactic acid microspheres containing carmofur.
  • Mabuchi Kazuhide, Nakayama Akihisa, Hirano Hidenari, Iwamoto Kikuo. Byoin Yakugaku 1995; 21(4)310–318
  • , Study of agents affecting the physical properties of aspirintableted microcapsules.
  • Farid D. J., Blourchian N., Nokhodchi. J. Sch. Pharm., Med. Sci. Univ. Tehran 1994; 4(1,2)27–39
  • , Study on the interaction of cholera toxin and its B–subunit with liposomes containing ganglioside GM1 and fluorescent–labeled gangliosides.
  • Smirnov O. N., Surin A. M., Astashkin E. I., Mikhaleov I. I., Molotkovsky Jul G. Biol. Membr. 1995; 12(2)174–184
  • , Surface modification of albumin microspheres.
  • Shafi Z. B., Martin G. P., Olliff C. J., James S. L. J. Drug Target. 1995; 3(1)53–56
  • , Swelling behavior of gelatin microspheres crosslinked with dl–glyceraldehyde. The effect of the preparative factors.
  • Vandelli M. A., Pifferi G., Seghizzi R., Cameroni R. Pharm. Pharmacol. Lett. 1995; 5(3)116–119
  • , Syntheses of new polyphosphates as liposomal materials.
  • Liu Zhenhua, Zeng Chunlong, Fan Changlie, Zhuo Renxi. Gaofenzi Xuebao 1995; 4: 483–487
  • , The microencapsulation of protein using a novel ternary blend based on poly(epsilon–caprolactone)
  • Huatan H., Collett J. H., Attwood D. J. Microencapsulation 1995; 12(5)557–567
  • , The transfer of polystyrene microspheres from the gastrointestinal tract to the circulation after oral administration in the rat.
  • Eyles J., Alpar H. O., Field W. N., Lewis D. A., Keswick M. J. Pharm. Pharmacol. 1995; 47(7)561–565
  • , The fibroblast–populated collagen microsphere assay of cell traction force–Part 2: measurement of the cell traction parameter.
  • Barocas V. H., Moon A. G., Tranquillo R. T. J. Biomech. Eng. 1995; 117(2)161–170
  • , The effect of particle microstructure on the somatostatin release from poly(lactide) microspheres prepared by a W/O/W solvent vaporation method.
  • Hellmann Joachim, Bodmeier Roland. J. Controlled Release 1995; 36(1–2)63–71
  • , The antitumor activity and toxic side effects of polyethylene glycol–coated liposomes containing adriamycin.
  • Sadzuka Yasuyuki, Nakai Shin–ichiro, Miyagishima Atsuo Nozawa, Yasuo Hirota Sadao. Drug Delivery Syst. 1995; 10(3)181–187
  • , The 94– to 97–kDa mouse macrophage membrane protein that recognizes oxidized low density lipoprotein and phosphatidylserine–rich liposomes is identical to macrosialin, the mouse homolog of human CD68.
  • Ramprasad Mysore P., Fischer Wolfgang, Witztum Joseph L., Sambrano Gilberto R., Quehenberger Oswald, Steinberg Daniel. Proc. Natl. Acad. Sci. USA 1995; 92(21)9580–9584
  • , The action of hypochlorous acid on phosphatidylcholine liposomes in dependence on the content of double bonds. Stoichiometry and NMR analysis.
  • Arnhold J., Panasenko O. M., Schiller J., Vladimirov Yu. A., Arnold K. Chem. Phys. Lipids 1995; 78(1)55–64
  • , The use of hydrophobic dye molecules in monitoring the liposome bilayer microenvironment and locating block copolymers added to enhance liposome steric stability.
  • Kostarelos K., Luckham P. F., Tadros Th. F. J. Liposome Res. 1995; 5(3)443–452
  • , The in vitro characterisation and biodistribution of some non–ionic surfactant coated liposomes in the rabbit.
  • Khattab M. A., Farr S. J., Taylor G., Kellaway I. W. J. Drug Target. 1995; 3(1)39–49
  • , The binding of glutamate to glutamate receptors reconstituted in liposomes of different phospholipid composition.
  • Zharikov S. I., Sukhanov S. V., Barsukov L. I. Biol. Membr 1995; 12(3)303–309
  • , The role of Fe2+ in hypochlorite–induced lipid peroxidation of liposome membranes.
  • Panasenko O. M., Evgina S. A., Dryomina E. S., Sharov V. S., Sergienko V. L., Vladimirov Yu. A. Biol. Membr. 1995; 12(2)191–199
  • , The effect of dose on the distribution of adriamycin encapsulated in polyethylene glycol–coated liposomes.
  • Sadzuka Y., Nakai S., Miyagishima A., Nozawa Y., Hirota S. J. Drug Target. 1995; 3(1)31–37
  • , Thermosensitive sterically stabilized liposomes: formulation and in vitro studies on mechanism of doxorubicin release by bovine serum and human plasma.
  • Gaber Mohamed H., Hong Keelung, Huang Shi–Kun, Papahadjopoulos Demetrios. Pharm. Res. 1995; 12(10)1407–1416
  • , Thrombolytic treatment with tissue–type plasminogen activator (t–PA) containing liposomes in rabbits: a comparison with free t–PA.
  • Heeremans J. L., Prevost R., Bekkers M. E., Los P., Emeis J. J., Kluft C., Crommelin D. J. Thromb. Haemost. 1995; 73(3)488–494
  • , TLC characterization of liposomes containing D–myoinositol derivatives.
  • Brailoiu Eugen, Huhurez Gabi, Slatineanu Sebastian, Filipeanu–Catalin M., Costuleanu Marcel, Branisteanu Dimitrie D. Biomed. Chromatogr. 1995; 9(4)175–178
  • , Treatment of Kaposi's sarcoma with liposomal doxorubicin.
  • Bergin Colm, O'Leary Aisling, McCreary C., Sabra Kamal, Mulcahy F. Am. J. Health–Syst. Pharm. 1995/2001; 52(18)
  • , Triggerable controlled release systems. 11. Photosensitive microcapsules with water erodible core.
  • Tsuei Alexander, Mitra Smarajit. Polym. Prep. 1994; 35(2)57–58
  • , Triggerable controlled release systems. 1. Alkaline pH–erodible microspheres.
  • Mitra Smarajit, Tsuei Alexander C. Polym. Prep. 1994; 35(2)55–56
  • , Use of antioxidants during preparation of α–tocopherolenriched liposomes.
  • Pekiner B., Pennock J. F. Nutr. Res. (N.Y.) 1995; 15(6)795–802
  • , Use of genetically engineered lipid tagged antibody to generate functional europium chelate loaded liposomes. Application in fluoroimmunoassay.
  • Laukkanen Marja Leena, Orellana Adelina, Keinaenen Kari. J. Immunol. Methods 1995; 185(1)95–102
  • , Vasorelaxant effect of isocarbacyclin methylester incorporated into lipid microspheres on isolated canine arteries.
  • Sawada K., Aoki K., Katsuura Y., Tanabe H., Kiyoki M., Araki H. Arzneim. Forsch. 1995; 45(9)985–988

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