A novel approach to study enzymatic degradation of Ter-polymeric beads for gastrointestinal drug delivery: Synthesis and characterization. Baipai SK, Saxena S, Dubey S. 2006. Journal of Bioactive and Compatible Polymers 21:237–255.
A study of carboxylic-modified i-nesoporous silica in controlled delivery for drug famotidine. Tang QL, Xu Y, Wu D, Sun YH. 2006. Journal of Solid State Chemistry 179:1513–1520.
Advanced drug delivery systems that target the vascular endothelium. Ding BS, Dziubla T, Shuvaev VV, Muro S, Muzykantov VR. 2006. Molecular Interventions 6:98–112.
Advances in particulate polymeric drug delivery. Svenson S. 2006. Polymeric Drug Delivery I: Particulate Drug Carriers SE ACS Symposium Series 923:2–11.
Amphiphilic block copolymer micelles for nanoscale drug delivery. Kwon GS, Forrest ML. 2006. Drug Development Research 67:15–22.
Antiangiogenesis and drug delivery to tumors: Bench to bedside and back. Duda DG. 2006. Cancer Research 66:3967–3970.
Application of micro- and nano-electromechanical devices to drug delivery. Staples M, Daniel K, Cima MJ, Langer R. 2006. Pharmaceutical Research 23:847–863.
Automated drug delivery system to control systemic arterial pressure, cardiac output, and left heart filling pressure in acute decompensated heart failure. Uemura K, Kamiya A, Hidaka I, Kawada T, Shimizu S, Shishido T, Yoshizawa M, Sugimachi M, Sunagawa K. 2006. Journal of Applied Physiology 100:1278–1286.
Biodegradable microparticles as drug delivery system for NO donors ruthenium nitrosyl complexes. de Gomes A, Barbugli PA, Espreafico EM, Doro FG, Tfouni E. 2006. FASEB Journal 20:A101.
Biodegradable polymeric microspheres and nanospheres for drug delivery in the peritoneum. Kohane DS, Tse JY, Yeo Y, Padera R, Shubina M, Langer R. 2006. Journal of Biomedical Materials Research Part A 15:351-361.
Biological hybrid materials for drug delivery system. Choy JH. 2006. Science and Technology of Hybrid Materials SE Solid State Phenomena 111:1–6.
Challenges in pediatric drug delivery: The case of vaccines. Fasano A, Ghandehari H. 2006. Advanced Drug Delivery Reviews 58:1–3.
Clinical trials in pediatrics: The drug delivery dimension. Osuntokun B. 2006. Advanced Drug Delivery Reviews 58:90–105.
Colloidal gold nanoparticles: A novel nanoparticle platform for developing multifunctional tumor-targeted drug delivery vectors. Paciotti GF, Kingston DGI, Tamarkin L. 2006. Drug Development Research 67:47–54.
Comparative evaluation of various structures in polymer controlled drug delivery systems and the effect of their morphology and characteristics on drug release. Efentakis M, Politis S. 2006. European Polymer Journal 42:1183–1195.
Conference highlights drug delivery methods. Schneider I. 2006. Genetic Engineering News 26:1.
Dendrimers based on melamine: Vehicles for drug delivery? Simanek EE. 2006. Polymeric Drug Delivery I: Particulate Drug Carriers SE ACS Symposium Series 923:121–136.
Design and evaluation of a dry coated drug delivery system with an impermeable cup, swellable top layer and pulsatile release. Efentakis A, Koligliati S, Vlachou A. 2006. International Journal of Pharmaceutics 311:147–156.
Design of poly(ethylene glycol)-tethered copolymers as novel mucoadhesive drug delivery systems. Serra L, Domenech J, Peppas NA. 2006. European Journal of Pharmaceutics and Biopharmaceutics 63:11–18.
Development of an oral sustained release drug delivery system utilizing pH-dependent swelling of carboxyvinyl polymer. Nakamura K, Nara E, Akiyama Y. 2006. Journal of Controlled Release 111:309–315.
Development of magnetic nanostructured silica-based materials as potential vectors for drug-delivery applications. Arruebo M, Galan M, Navascues N, Tellez C, Marquina C, Ibarra MR, Santamaria J. 2006. Chemistry of Materials 18:1911–1919.
Discrete thermally responsive hydrogel-coated gold nanoparticles for use as drug-delivery vehicles. Kim JH, Lee TR. 2006. Drug Development Research 67:61–69.
Drug analysis—New tool for drug delivery kinetics. Freemantle M. 2006. Chemical & Engineering News 84:10.
Drug delivery as control task: Improving performance in a common anesthetic task. Drews FA, Syroid N, Agutter J, Strayer DL, Westenskow DR. 2006. Human Factors 48:85–94.
Drug delivery in degenerative joint disease - Preface. Aigner T, Gerwin N. 2006. Advanced Drug Delivery Reviews 58:123–124.
Drug delivery in degenerative joint disease: Where we are and where to go? Abramson S. 2006. Advanced Drug Delivery Reviews 58:125–127.
Drug delivery in the BME curricula. Saltzman M, Desai T. 2006. Annals of Biomedical Engineering 34:270–275.
Drug delivery system based on covalently bonded poly[N-isopropylacrylamide-co-2-hydroxyethylacrylate]-based nanoparticle networks. Mathews AS, Ha CS, Cho WJ, Kim I. 2006. Drug Delivery 13:245–251.
Drug-polymer interactions and their effect on thermoresponsive poly(N-isopropylacrylamide) drug delivery systems. Coughlan DC, Corrigan OI. 2006. International Journal of Pharmaceutics 313:163–174.
Effect of PEG2000 on drug delivery characterization from solid lipid nanoparticles. Hong Y, Hu FQ, Yuan H. 2006. Pharmazie 61:312–315.
Electrically controlled drug delivery from biotin-doped conductive polypyrrole. George PM, LaVan DA, Burdick JA, Chen CY, Liang E, Langer R. 2006. Advanced Materials 18:577.
Electrochemical Time-of-Flight in crosslinked collagen matrix solution: Implications of structural changes for drug delivery systems. Ky D, Liu CK, Marumoto C, Castaneda L, Slowinska K. 2006. Journal of Controlled Release 112:214–222.
Etoposide nanocarriers suppress glioma cell growth by intracellular drug delivery and simultaneous P-glycoprotein inhibiltion. Lamprecht A, Benoit JP. 2006. Journal of Controlled Release 112:208–213.
Evaluation of an ex vivo model implication for carrier-mediated retinal drug delivery. Kansara V, Mitra AK. 2006. Current Eye Research 31:415–426.
Fabrication and characterization of microfluidic probes for convection enhanced drug delivery. Neeves KB, Lo CT, Foley CP, Saltzman WM, Olbricht WL. 2006. Journal of Controlled Release 111:252–262.
Fabrication of polymeric microparticles for drug delivery by soft lithography. Guan JJ, Ferrell N, Lee LJ, Hansford DJ. 2006. Biomaterials 27:4034–4041.
FGF-1 as a possible carrier for targeted drug delivery. Marcinkowska E, Superat K, Wedlocha A. 2006. Oncology Research 16:27–34.
Flow through diffusion cell method: A novel approach to study in vitro enzymatic degradation of a starch-based ternary semi-interpenetrating network for gastrointestinal drug delivery. Bajpai SK, Saxena S. 2006. Journal of Applied Polymer Science 100:2975–2984.
Fluorinated polymer coatings on PLGA microcapsules for drug delivery system using atmospheric pressure glow plasma. Tanaka K, Kogoma M, Ogawa Y. 2006. Thin Solid Films 506:159–162.
Folate-conjugated methoxy poly(ethylene glycol)/poly(epsilon-caprolactone) amphiphilic block copolymeric micelles for tumor-targeted drug delivery (vol 109, pg 158, 2005). Park EK, Kim SY, Lee SB, Lee YM. 2006. Journal of Controlled Release 112:145–146.
Formulating drug delivery systems by spray drying. Re MI. 2006. Drying Technology 24:443–446.
Functionalized chitosan/NIPAM (HEMA) hybrid polymer networks as inserts for ocular drug delivery: Synthesis, in vitro assessment, and in vivo evaluation. Verestiuc L, Nastasescu O, Barbu E, Sarvaiya I, Green KL, Tsibouklis J. 2006. Journal of Biomedical Materials Research, Part A 15:726–735.
Genetically modified Lactococcus lactis: Novel tools for drug delivery. Steidler L, Vandenbroucke K. 2006 International Journal of Dairy Technology 59:140–146.
Gold used to coat new drug delivery system. [Anon]. 2006. Gold Bulletin 39:31.
Hollow microcapsules for drug delivery by self-assembly and cross-linking of amphiphilic graft copolymers. Breitenkamp K, Junge D, Emrick T. 2006. Polymeric Drug Delivery I: Particulate Drug Carriers SE ACS Symposium Series 923:253–267.
Hydrophilic acrylic intralocular lens as a drug-delivery system: Pilot study. Kleinmann G, Apple DJ, Chew J, Stevens S, Hunter B, Larson S, Mamalis N, Olson RJ. 2006. Journal of Cataract and Refractive Surgery 32:652-654.
In vitro evaluation of thiomer microparticles for nasal drug delivery. Greimel A, Del Curto MD, D'Antonio M, Palmberger T, Sprinzl GM, Bernkop-Schnurch A. 2006. Journal of Drug Delivery Science and Technology 16:103–108.
Intraarticular drug delivery in osteoarthritis. Gerwin N, Hops C, Lucke A. 2006. Advanced Drug Delivery Reviews 58:226–242.
Intravitreal implantation of the biodegradable cyclosporin A drug delivery system for experimental chronic uveitis. Dong XG, Shi WY, Yuan GQ, Xie LX, Wang SG, Lin P. 2006. Graefes Archive for Clinical and Experimental Ophthalmology 244:492–497.
Lipid bilayer fragments and disks in drug delivery. Carmona-Ribeiro AM. 2006. Current Medicinal Chemistry 13:1359–1370.
Magnetic nanoparticles for drug delivery. Dobson J. 2006. Drug Development Research 67:55–60.
Methotrexate-immobilized poly(ethylene glycol) magnetic nanoparticles for MR imaging and drug delivery. Kohler N, Sun C, Fichtenholtz A, Gunn J, Fang C, Zhang MQ. 2006. Small 2:785–792.
Microencapsulation in yeast cells and applications in drug delivery. Nelson G, Duckham SC, Crothers MED. 2006. Polymeric Drug Delivery I: Particulate Drug Carriers SE ACS Symposium Series 923:268–281.
Microparticles developed by electrohyd ro dynamic atomization for the local delivery of anticancer drug to treat C6 glioma in vitro. Xie JW, Marijnissen JCM, Wang CH. 2006. Biomaterials 27:3321–3332.
Modeling ophthalmic drug delivery by soaked contact lenses. Li CC, Chauhan A. 2006. Industrial & Engineering Chemistry Research 45:3718–3734.
Modelling molecules for drug delivery. Gillan R. 2006. New Journal of Chemistry 30:C3.
Mutant glycosyltransferases assist in the development of a targeted drug delivery system and contrast agents for MRI. Qasba PK, Ramakrishnan B, Boeggeman E. 2006. AAPS Journal 8:E195.
Nanoclays for polymer nanocomposites, paints, inks, greases and cosmetics formulations, drug delivery vehicle and waste water treatment. Patel HA, Somani RS, Bajaj HC, Jasra RV. 2006. Bulletin of Materials Science 29:133–145.
Nanoscale transport for drug delivery. Crombie J. 2006. Photochemical & Photobiological Sciences 5:B15–B15.
New folate-functionalized biocompatible block copolymer micelles as potential anti-cancer drug delivery systems. Licciardi M, Giammona G, Du JZ, Armes SP, Tang YQ, Lewis AL. 2006. Polymer 47:2946-2955.
New intra-arterial drug delivery system for the treatment of liver cancer: Preclinical assessment in a rabbit model of liver cancer. Hong K, Khwaja A, Liapi E, Torbenson MS, Georgiades CS, Geschwind JFH. 2006. Clinical Cancer Research 12:2563–2567.
Novel amphiphilic macromolecules and their in vitro characterization as stabilized micellar drug delivery systems. Tao L, Uhrich KE. 2006. Journal of Colloid and Interface Science 298:102–110.
pH-Sensitive hydrogels based on bovine serum albumin for oral drug delivery. Iemma F, Spizzirri UG, Puoci F, Muzzalupo R, Trombino S, Cassano R, Leta S, Picci N. 2006. International Journal of Pharmaceutics 312:151-157.
Photopolymerization of biomaterials: Issues and potentialities in drug delivery, tissue engineering, and cell encapsulation applications. Baroli B. 2006. Journal of Chemical Technology and Biotechnology 81:491-499.
Polymer actuator valves toward controlled drug delivery application. Xu H, Wang C, Wang CL, Zoval J, Madou M. 2006. Biosensors & Bioelectronics 21:2094–2099.
Polymer microneedles for controlled-release drug delivery. Park JH, Allen MG, Prausnitz MR. 2006. Pharmaceutical Research 23:1008–1019.
Polymer therapeutics: Polymers as drugs, drug and protein conjugates and gene delivery systems: Past, present and future opportunities. Duncan R, Ringsdorf H, Satchi-Fainaro R. 2006. Polymer Therapeutics I: Polymers As Drugs, Conjugates and Gene Delivery Systems Se 192:1–8.
Polymer-based biodegradable drug delivery systems in pain management. Al Malyan M, Becchi C, Nikkola L, Viitanen P, Boncinelli S, Chiellini F, Ashammakhi N. 2006. Journal of Craniofacial Surgery 17:302-313.
Porous silicon as drug carrier for controlled delivery of doxorubicin anticancer agent. Vaccari L, Canton D, Zaffaroni N, Villa R, Tormen M, di Fabrizio E. 2006. Microelectronic Engineering 83:1598–1601.
Preclinical assessment of the feasibility of applying controlled release oral drug delivery to a lead series of atypical antipsychotics. Eichenbaum G, Pollock-Dove C, Nguyen J, Li S, Evans J, Borghys H, Kennis L, Dong L, Van Osdol W, Dai W, Scicinski J, Chen J, Xu Y, Ashton D, Mackie C, Megens A. 2006. Journal of Pharmaceutical Sciences 95:883-895.
Preclinical efficacy and pharmacokinetics of AP5346, a novel diaminocyclohexane-platinum tumor-targeting drug delivery system. Rice JR, Gerberich JL, Nowotnik DP, Howell SB. 2006. Clinical Cancer Research 12:2248–2254.
Preparation of floating drug delivery system by plasma technique. Nakagawa T, Kondo S, Sasai Y, Kuzuya M. 2006. Chemical & Pharmaceutical Bulletin 54:514–518.
Preparation of thermosensitive chitosan formulations containing 5-fluorouracil/poly-3-hydroxybutyrate microparticles used as injectable drug delivery system. Zan J, Zhu DQ, Tan FP, Jiang GQ, Lin Y, Ding FX. 2006. Chinese Journal of Chemical Engineering 14:235-241.
Release characteristics of anionic drug compounds from liquid crystalline gels Part II. The effects of ion pairing and buffering on the passive delivery of anionic drugs across non-rate-limiting membranes. Fitzpatrick D, Corish J. 2006. International Journal of Pharmaceutics 311:139-146.
Starch-based microspheres produced by emulsion crosslinking with a potential media dependent responsive behavior to be used as drug delivery carriers. Malafaya PB, Stappers F, Reis RL. 2006. Journal of Materials Science-Materials in Medicine 17:371–377.
Study of the critical points of HPMC hydrophilic matrices for controlled drug delivery. Miranda A, Millan M, Caraballo I. 2006. International Journal of Pharmaceutics 311:75–81.
Sustained release of dexamethasone from hydrophilic matrices using PLGA nanoparticles for neural drug delivery. Kim DH, Martin DC. 2006. Biomaterials 27:3031–3037.
Synthesis and characterization of novel poly(ethylene glycol)-lipid conjugates suitable for use in drug delivery. Heyes J, Hall K, Tailor V, Lenz R, MacLachlan I. 2006. Journal of Controlled Release 112:280-290.
Targeted drug delivery for refractory hemorrhagic Crohn disease. Sze DY. 2006. Journal of Vascular and Interventional Radiology 17:163-167.
The drug delivery system of MCM-41 materials via co-condensation synthesis. Zeng W, Qian XF, Yin J, Zhu ZK. 2006. Materials Chemistry and Physics 97:437–441.
Theoretical and experimental evaluation of decypolyglucoside vesicles as potential drug delivery systems. Manconi M, Vila AO, Sinico C, Figueruelo J, Molina F, Fadda AM. 2006. Journal of Drug Delivery Science and Technology 16:141–146.
Thermoresponsive copolymers for tissue engineering and drug delivery. Gorelov A, Ryder A, Carroll W, Rochev Y. 2006. Tissue Engineering 12:1078.
Tight junction modulation and its relationship to drug delivery. Salama NN, Eddington ND, Fasano A. 2006. Advanced Drug Delivery Reviews 58:15–28.
Transdermal drug delivery using microemulsion and aqueous systems: Influence of skin storage conditions on the in vitro permeability of diclofenac from aqueous vehicle systems. Sintov AC, Botner S. 2006. International Journal of Pharmaceutics 311:55–62.