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Advanced drug delivery

Advanced Drug Delivery Reviews, Elsevier, Amsterdam. [Pg.151]

Edwards-Levy, F., Andry, M. C. Levy, M. C. (1994). Determination of free amino group content of serum-albumin microcapsules. II. Effect of variations in reaction-time and terephthaloyl chloride concentration. International Journal of Pharmaceutics, Vol. 103, 3, (March 1994), pp. (253-257), ISSN 0378-5173 Friend, D. R. (2005). New oral delivery systems for treatment of inflammatory bowel disease. Advanced Drug Delivery Reviews, Vol. 57, 2, (January 2005), pp. (247-265), ISSN 0169-409X... [Pg.80]

Torchilin, V. P. (2006). Multifunctional nanocarriers. Advanced Drug Delivery Reviews, Vol. 58, 14, (December 2006), pp. (1532-1555), ISSN 0169-409X Tran, V. T., Benoit, J. P. Venier-Julienne, M. C. (2011). Why and how to prepare biodegradable, monodispersed, polymeric microparticles in the field of pharmacy International Journal of Pharmaceutics, Vol. 407,1-2, (December 2011), pp. (1-11), ISSN 0378-5173... [Pg.83]

Gelse, K, Poschl, E., Aigner, T. (2003). Collagens - structure, function, and biosynthesis. Advanced Drug Delivery Reviews, Vol. 55, pp. 1531-1546. [Pg.159]

Wright, S. Huang, L. Advanced Drug Delivery Reviews, 1989,3,343. [Pg.282]

Mehnert, W. and Mader, K. (2001) Solid lipid nanopartides. Production, characterization and applications. Advanced Drug Delivery Reviews, 47, 165. [Pg.172]

Jones, C.F. and Grainger, D.W. (2009) In vitro assessments of nanomaterial toxicity. Advanced Drug Delivery Reviews, 61 (6), 438-456. [Pg.209]

Lacerda, L. et al. (2006) Carbon nanotubes as nanomedicines from toxicology to pharmacology. Advanced Drug Delivery Reviews, 58 (14), 1460-1470. [Pg.216]

Smith, J., Zhang, Y.L., and Niven, R., Toward development of non-viral gene therapeutics, Advanced Drug Delivery Reviews, 1997, 26, 135-150. [Pg.14]

Takenaga, M., Application of lipid microspheres for the treatment of cancer, Advanced Drug Delivery Review, 1996, 20, 209-219. [Pg.15]

Feigner, P.L., Particulate systems and polymers for in vitro and in vivo delivery of polynucleotides, Advanced Drug Delivery Reviews, 1990, 5, 163-187. [Pg.16]

Davis, S. 2001. Nasal vaccines. Advanced Drug Delivery Reviews 51, 21-42. [Pg.103]

Kompella, U.B. and Lee, V.H.L. 2001. Delivery systems for penetration enhancement of peptide and protein drugs design considerations. Advanced Drug Delivery Reviews 46, 211-245. [Pg.103]

Patton, J. 1996. Mechanisms of macromolecule absorption by the lungs. Advanced Drug Delivery Reviews 19, 3-36. [Pg.103]

Arakawa, T., Prestrelski, S.J., Kenney, W.C., and Carpenter, J.F. 2001. Factors effecting short-term and long-term stabilities of proteins. Advanced Drug Delivery Reviews 46, 307-326. [Pg.172]

Katre, N. 1993. The conjugation of proteins with polyethylene glycol and other polymers - altering properties of proteins to enhance their therapeutic potential. Advanced Drug Delivery Reviews 10(1), 91-114. [Pg.238]

Hinds, K. and Kim, S. 2002. Effects of PEG conjugation on insulin properties. Advanced Drug Delivery Reviews 54(4), 505-530. [Pg.326]

Patton, J.S., Bukar, J., and Nagarajan, S. 1999. Inhaled insulin. Advanced Drug Delivery Reviews 35, 235-247. [Pg.326]

Akhtar, S., Hughes, M.D., Khan, A., Bibby, M., Hussain, M., Nawaz, Q., Double, J., and Sayyed, P. 2000. The delivery of antisense therapeutics. Advanced Drug Delivery Reviews 44(1), 3-21. [Pg.462]

Schinkel, A.H. and Jonker, J.W. (2003) Mammalian drug efflux transporters of the ATP binding cassette (ABC) family an overview. Advanced Drug Delivery Reviews, 55, 3-29. [Pg.392]

Zhang, Y., Bachmeier, C. and Miller, D.W. (2003) In vitro and in vivo models for assessing drug efflux transporter activity. Advanced Drug Delivery Reviews, 55, 31-51. [Pg.393]

Stouch, T.R. and Gudmundsson, O. (2002) Progress in understanding the structure-activity relationships of P-glycoprotein. Advanced Drug Delivery Reviews, 54, 315-328. [Pg.393]

Swenson EC, Curatolo WJ (1992) Intestinal permeability enhancement for proteins, peptides and other polar drugs Mechanisms and potential toxicity. Advanced Drug Delivery Reviews 8 39-92... [Pg.450]

An important application of polymers in medicine is in advanced drug-delivery systems. These materials control the drug concentration and delivery rate in the body. Hyperbranched polyesters have been suggested for such systems [111]. However, most applications within this field, described in the literature, deal with dendrimers and not with hyperbranched polymers. [Pg.29]

Aagaard L, Rossi JJ. RNAi therapeutics principles, prospects and challenges. Advanced Drug Delivery Reviews 59 75-86 (2007). [Pg.134]

Jones TJ, Gumbleton M, Duncan R. Understanding endocytic pathways and intracellular trafficking a prerequisite for effective design of advanced drug delivery systems. Adv Drug Deliv Rev 2003 55(11) 1359-1383. [Pg.372]

Fig. 8. Concentration dependence of ultrasound backscatter signal by plates coated with a layer of targeted microbubbles. Surface concentrations of microbubbles (as observed by bright-field optical microscopy, bottom) increase from left to right. Imaging performed using a fundamental frequency scheme. Samples placed on top of an ultrasound tissue phantom. Reprinted from Advanced Drug Delivery Reviews v. 37, A.L. Klibanov, Targeted delivery of gas-filled microspheres, contrast agents for ultrasound imaging, p. 145. Copyright, 1999, with permission from Elsevier Science... Fig. 8. Concentration dependence of ultrasound backscatter signal by plates coated with a layer of targeted microbubbles. Surface concentrations of microbubbles (as observed by bright-field optical microscopy, bottom) increase from left to right. Imaging performed using a fundamental frequency scheme. Samples placed on top of an ultrasound tissue phantom. Reprinted from Advanced Drug Delivery Reviews v. 37, A.L. Klibanov, Targeted delivery of gas-filled microspheres, contrast agents for ultrasound imaging, p. 145. Copyright, 1999, with permission from Elsevier Science...
Lipinski, C.A., Lombardo, E., Dominy B.W and Feeney, P.J. (1997) Experimental and computational approaches to estimate solubility and permeability in drug discovery and development settings. Advanced Drug Delivery Reviews, 23, 3-25. [Pg.41]

Avdeef, A. (2007) Solubility of sparingly-soluble drugs. In Special issue. Dressman, J., Reppas, C. (eds) The importance of drug solubility. Advanced Drug Delivery Reviews, 59, 568-590. [Pg.90]

Cecchelli, R., Dehouck, B., Descamps, L., Fenart, L., Buee-Scherrer, V., Duhem, C., Lundquist, S., Rentfel, M., Torpier, G. and Dehouck, M.P. (1999) In vitro model for evaluating drug transport across the blood-brain barrier. Advanced Drug Delivery Reviews, 36, 165-178. [Pg.138]

Burton, P.S., Conradi, R.A. and Hilgers, A.R. (1991) Mechanisms of peptide and protein absorption. (2). Transcellular mechanism of peptide and protein, absorption passive aspects. Advanced Drug Delivery Reviews, 7, 365-386. [Pg.139]

Chang, C., Ekins, S., Bahadduri, P. and Swaan, P.W (2006) Pharmacophore-based discovery of ligands for drug transporters. Advanced Drug Delivery Reviews, 58, 1431-1450. [Pg.142]

Agoram, B., Woltosz, W.S. and Bolger, M.B. (2001) Predicting the impact of physiological and biochemical processes on oral drug bioavailability. Advanced Drug Delivery Reviews, 50 (Suppl 1), S41-S67. [Pg.239]

Greenwald, R., Y. H. Choe, J. McGuire, and C. D. Conover. Effective Drug Delivery by PEGylated Drug Conjugates. Advanced Drug Delivery Reviews 55 no. 2 (2003) 217-250. [Pg.165]

Rosier A, Vandermeulen GWM, Klok H-A. Advanced drug delivery devices via self-assembly of amphiphilic block copolymers. Adv Drug Deliv Rev 2001 53 95-108. [Pg.34]

See other pages where Advanced drug delivery is mentioned: [Pg.740]    [Pg.150]    [Pg.1]    [Pg.545]    [Pg.79]    [Pg.418]    [Pg.131]    [Pg.3]    [Pg.259]    [Pg.314]   


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