Description
Neurotoxicity of Nanomaterials and Nanomedicine
Coordinators: Jiang Xinguo, Gao Huile
Language: EnglishSubjects for Neurotoxicity of Nanomaterials and Nanomedicine:
Keywords
Adsorptive-mediated transcytosis; Adverse effects; Alzheimer disease; Amyotrophic lateral sclerosis; Anatase; Apoptosis; Application; Arc discharge; Astrocytes; Autophagy; Blood�brain barrier; Bone tissue regeneration; Brain drug delivery; Brain targeting; Brain; Carbon nanotube; Cationic polymers; Central nervous system; Chemical drugs; Chemical vapor deposition; Covalent functionalization; Cytotoxicity; Distribution; Dopaminergic neuron; Drug delivery system; Elimination; Excitotoxicity; Gene delivery; Gold nanoparticles; In vitro studies; In vivo studies; Inflammation; Iron oxide nanoparticles; Laser ablation; Manganese; Mechanism; Microglia; Myelin; Nano-based drug delivery system; Nanomaterials; Nanomedicine; Nanoparticle; Nanoparticles; Nanosilver neurotoxicity; Nanosilver; Necrosis; Neurodegeneration; Neuron regeneration; Neurons; Neurotoxicity; NMDA receptor; Noncovalent functionalization; Oligodendrocytes; Oxidative stress; Parkinson disease; Peptides and proteins; Reactive oxygen species; Receptor-mediated transcytosis; Rutile; Silica nanoparticles; Synaptic degeneration; Targeting delivery; Titanium dioxide; Toxicity mechanisms; Toxicity; Transporter-mediated transcytosis
Support: Print on demand
Description
/li>Contents
/li>Biography
/li>Comment
/li>
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.
2. The route of nanomaterials entering brain
3. The distribution and elimination of nanomaterials in brain
4. The most common neurotoxicity of nanomaterials and their mechanism
5. The application, neurotoxicity and related mechanism of titanium dioxide nanoparticles
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 Manganese-containing nanoparticles
9. The application, neurotoxicity and related mechanism of silica nanoparticles
10. The application, neurotoxicity and related mechanism of carbon-based nanoparticles
11. The application, neurotoxicity and related mechanism of cationic polymers
12. The application, neurotoxicity and related mechanism of natural polymer-based nanoparticles
13. The strategies to reduce neurotoxicity of nanomaterials and the corresponding mechanism
Dr. Huile Gao received his PhD in Pharmaceutics from School of Pharmacy, Fudan University in 2013 under the supervision of Prof. Xinguo Jiang. Then he joined the West China School of Pharmacy, Sichuan University as an Instructor in July 2013 and was promoted to an Associate Professor in July 2014. Dr. Gao’s research interests focus on the design, synthesis, characterization and evaluation of stimuli responsive nanomaterials for drug and imaging probe delivery to improve treatment and diagnosis of human diseases especially tumor and brain diseases. He has published over 50 peer-reviewed ar
- Presents a thorough discussion of the most common nanoparticles in the brain and their neurotoxicology
- Includes the most common nanoparticles, their applications, and mechanisms
- Provides one of the first books to focus on nanomedicine and neurotoxicity