Reprint
Biomedical Applications of Nanoparticles
Edited by
May 2020
366 pages
- ISBN978-3-03928-542-6 (Paperback)
- ISBN978-3-03928-543-3 (PDF)
This is a Reprint of the Special Issue Biomedical Applications of Nanoparticles that was published in
Chemistry & Materials Science
Engineering
Summary
This book provides an overview of the design and physico-chemical properties of nanoparticles developed for biomedical applications such as targeting and detection of pathologies, nanovectorization of drugs, radiosensitization, metal detection, and nanocomposite implants. The considerations necessary when developing a new nanomedicine are also developed, including toxicological investigation, biodistribution, and efficacy. This book provides an accurate and current representation of the field by addressing the promises and hurdles of nanomedicine via 20 different pertinent studies. Covering a wide range of areas, this book is an excellent partner for physico-chemists, doctors, pharmacologists, and biochemists working on nanosciences dedicated to medicine, both in industry and in academia.
Format
- Paperback
License and Copyright
© 2020 by the authors; CC BY-NC-ND license
Keywords
curcumin; mitoxantrone; synergism; PEG; chitosan nanoparticles; hybrid Fe-Si nanoparticles; laser pyrolysis; Caco2 cells; cytotoxicity; oxidative stress; upconversion nanoparticles; nanocarriers; drug delivery; gene delivery; photolysis; cancer imaging; cytoreduction surgery; fluorescent nanoparticle; near-infrared; short-wave infrared; Candida glabrata; extracellular; mycosynthesis; MIC; MBC; MFC; membrane integrity; TEM; FTIR; surface-enhanced Raman spectroscopy (SERS); Ag-film; Hg2+ ions detection; SERS sensor; nanocomposites; medical devices; middle ear prosthesis; silver nanoparticles; biocompatibility; thermoplastic polymer; dihydroartemisinin; liposomes; autophagy; apoptosis; breast cancer; surface-enhanced Raman scattering (SERS); metal-enhanced fluorescence (MEF); dual functional imaging nanoprobe; UiO-66; nanoparticles; glioblastoma; biocompatibility; drug delivery; alginate; chitosan; layer-by-layer; magnetic nanoparticles; drug delivery; cancer; curcumin; lignin; nanoparticle; protein; nanocellulose; fibril; enzyme; heat; self-assembly; cross-link; antibiotics; nanoparticles; biogenic nanoparticles; antimicrobial; antibiotic resistance; multidrug resistant (MDR) microorganisms; plasma; nanomaterials; nanomaterial synthesis; plasma liquid Interactions; non-thermal plasma; biomedical applications; core-shell nanoparticles; biocompatible; drug delivery; anticancer; SERS; histamine; nanostars; nanophotonics; computational electromagnetism; surface enhanced Raman scattering; SERS; finite element method; density functional theory calculations; cell labeling; cancer; iron oxide superparamagnetic nanoparticles; trans-resveratrol derivative; drug delivery; glioma; gold nanoparticles; radiosensitization; thioredoxin reductase; radiation; prognosis; biochemical mechanism; nanodiamond; targeted nanoparticles; in vivo application; cancer cell targeting; antimiR; nano-bio interaction