Reprint
Functional Polymers for Controlled Drug Release
Edited by
March 2020
204 pages
- ISBN978-3-03928-490-0 (Paperback)
- ISBN978-3-03928-491-7 (PDF)
This is a Reprint of the Special Issue Functional Polymers for Controlled Drug Release that was published in
Biology & Life Sciences
Chemistry & Materials Science
Medicine & Pharmacology
Summary
This Special Issue focuses on the synthesis and characterization of hydrogels specifically used as carriers of biological molecules for pharmaceutical and biomedical employments. Pharmaceutical applications of hydrophilic materials has emerged as one of the most significant trends in the area of nanotechnology. To propose some of the latest findings in this field, each contribution involves an in-depth analysis including different starting materials and their physico-chemical and biological properties with the aim of synthetizing high-performing devices for specific use. In this context, intelligent polymeric devices able to be morphologically modified in response to an internal or external stimulus, such as pH or temperature, have been actively pursued. In general, hydrophilic polymeric materials lead to high in vitro and/or in vivo therapeutic efficacy, with programmed site-specific feature showing remarkable potential for targeted therapy. This Special Issue serves to highlight and capture the contemporary progress in this field. Relevant resources and people to approach - American Association Pharmaceutical Scientists (AAPS): web: www.aaps.org; email: (marketing division): [email protected]; (mmeting division): [email protected] - International Association for Pharmaceutical Technology (APV): web: apv-mainz.de; email (managing director): [email protected]; (congresses and trade fairs): [email protected] - International Society of Drug Delivery Sciences and Technology (APGI): web: http://www.apgi.org; email: [email protected]; - The Society of Chemical Industry (SCI): web: www.soci.org; email: [email protected] - Italian society of researchers in pharmaceutical technology (A.D.R.I.T.E.L.F.): web: www-3.unipv.it/adritelf/; email (head): [email protected]; - Italian Chemical Society (SCI): web: www.soc.chim.it; email: [email protected] - Associazione Farmaceutici Industria (AFI): web: http://www.afiweb.it; email:: [email protected] - Società Italiana di Chimica e Scienze Cosmetologiche (SICC): web: www.sicc.tv; mail: [email protected] - Society for biomaterials: web: www.biomaterials.org; email: [email protected] - European Society for Biomaterials (ESB): web: www.esbiomaterials.eu; email: - Società Italiana Biomateriali (SIB): web: www.biomateriali.org; email: [email protected] - Medical Device Manufactures Association (MDMA): web: www.medicaldevices.org; - European Polymer Federaton (EPF): web: www.europolyfed.org; email: [email protected] - Society of Plastics Engineers (SPE): web: www.4spe.org; email: [email protected] - Polymer Processing Society (PPS): web: www.poly-eng.uakron.edu/pps/; email: [email protected]; - American Chinese Pharmaceutical Association; web: www.acpa-rx.org; - Chinese Pharmaceutical Association: web: www.pharmachinaonline.com - Society of Polymer Science, Japan: web: www.spsj.or.jp; email: [email protected]
Format
- Paperback
License and Copyright
© 2020 by the authors; CC BY-NC-ND license
Keywords
pellets 1; pellet diameter 2; crystallinity 3; sphericity 4; fast release 5; extended release 6; elastin-like polypeptide (ELPs); contact lens; lacritin; protein therapeutics; drug delivery; controlled release; nanoporous silicon; βCD polymer; caffeic acid; pinocembrin; polyphenols; HUVECs; polymer carriers; drug delivery; conjugates; self-assemblies; star polymers; graft polymers; poly(ionic liquid)s; retinol; “click” chemistry; alkyne–azide reaction; ATRP; graft copolymers; amphiphilic copolymers; micellar carriers; sustained release; wound healing; crosslinking; allantoin; equilibrium swelling ratio; accumulative release; thermogravimetric analysis; lutein; nanofibers; polyvinyl alcohol; sodium alginate; injectable hydrogels; drug delivery; anticancer activity; natural polymers; synthetic polymers; stimuli-responsive materials; silk fibroin; drug delivery; gene delivery; controlled release; bioconjugation; n/a