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03736aam a2200373Ii 4500 001 D297B8E2065511E8AD8CF06897128E48 003 SILO 005 20180131010242 008 160624t20172017enka b 001 0 eng d 020 $a 0128045981 020 $a 9780128045985 035 $a (OCoLC)952385907 040 $a BTCTA $b eng $e rda $c BTCTA $d BDX $d YDXCP $d ORE $d YDX $d OCLCF $d JHE $d UtOrBLW $d SILO 050 4 $a R857.N34 $b N48 2017 060 4 $a QT 36.5 082 04 $a 610.28 $2 23 245 00 $a Neurotoxicity of nanomaterials and nanomedicine / $c edited by Xinguo Jiang, Huile Gao. 264 1 $a London, United Kingdom : $b Elsevier/Academic Press, $c [2017] 300 $a xxi, 343 pages : $b illustrations ; $c 24 cm 504 $a Includes bibliographical references and index. 505 0 $a 1. The medical applications of nanomaterials in the central nervous system -- 2. The route of nanomaterials entering brain -- 3. The distribution and elimination of nanomaterials in brain -- 4. Current perspective on nanomaterial-induced adverse effects: neurotoxicity as a case example -- 5. Toxicity of titanium dioxide nanoparticles on brain -- 6. The application, neurotoxicity and related mechanism of iron oxide nanoparticles -- 7. The application, neurotoxicity and related mechanism of silver nanoparticles -- 8. The application, neurotoxicity and related mechanism of gold nanoparticles -- 9. The applications, neurotoxicity, and related mechanisms of managanese containing nanoparticles -- 10. The application, neurotoxicity and related mechanism of silica nanoparticles -- 11. The application, neurotoxicity and related mechanism of carbon nanotubes -- 12. The application, neurotoxicity and related mechanism of cationic polymers -- 13. to reduce neurotoxicity of nanomaterials and the corresponding mechanism. 520 $a Neurotoxicity of Nanomaterials and Nanomedicine presents an overview of the exciting research in neurotoxicity and nanomaterials. Nanomaterials have been extensively used in medicine, including diagnosis probes, drug carriers, and embedded materials. While some have been approved for clinical use, most nanomaterials are waiting to be transferred from lab to clinic. However, the toxicity is a main barrier that restricts the translation. This comprehensive book includes chapters on the most commonly used individual nanoparticles, with information on the applications, neurotoxicity, and related mechanisms of each, providing the most in-depth and current information available. The book examines the pathways that nanomaterials enter into, and eliminate, from the brain, along with the strategies that could reduce the neurotoxicity of nanomaterials. Providing a background to the subject, detailed information, and ideas for future directions in research, the book is essential for students and researchers in toxicology, and for those in medicine, neurology, pharmacology, pharmaceutical science, and materials science who are researching nanomaterials. 650 0 $a Nanomedicine. $0 http://id.loc.gov/authorities/subjects/sh2007008651 650 0 $a Nanostructured materials $x Toxicology. 650 0 $a Neurotoxicology. $0 http://id.loc.gov/authorities/subjects/sh90001319 650 2 $a Nanomedicine. $0 https://id.nlm.nih.gov/mesh/D050997 $0 https://id.nlm.nih.gov/mesh/D050997 650 7 $a Nanomedicine. $2 fast $0 (OCoLC)fst01744350 720 $a Jiang, Xinguo $4 edt 720 $a Gao, Huile $4 edt 700 1 $a Jiang, Xinguo, $e editor. $0 http://id.loc.gov/authorities/names/n2017182098 700 1 $a Gao, Huile, $e editor. $0 http://id.loc.gov/authorities/names/n2017182099 941 $a 1 952 $l OVUX522 $d 20191211022344.0 956 $a http://locator.silo.lib.ia.us/search.cgi?index_0=id&term_0=D297B8E2065511E8AD8CF06897128E48Initiate Another SILO Locator Search