Enormous funds are currently being invested in nanotechnology, yet very little is known about how its products and by-products can interfere with both end users and people involved in their manufacture. Similar scenarios are already widely known in the history of science, such as the exploitation of radioactivity or the controversial issue of genet
Case Studies in Nanotoxicology and Particle Toxicology presents a highly-illustrated analysis of the most prominent cases on the adverse effects of nanoparticles and their impact on humans and the environment. This comprehensive reference demonstrates the possible risks imposed by managing and handling nanoparticles, showing the effects of involuntary inhalation or ingestion during their use and after their incineration. Through the use of numerous examples, readers will discover the possible risks and effects of working with nanoparticles, along with best practices to prevent these effects. The text is an essential reference for anyone working in the risk assessment of nanoparticles, including nanosafety professionals, occupational toxicologists, regulatory toxicologists, and clinicians. Presents real-life cases showing the potential risks to human health following exposure to nanoparticles An ideal reference for anyone working in the risk assessment of nanoparticles, including nanosafety professionals, occupational toxicologists, regulatory toxicologists, and clinicians Provides examples to help assess risks of handling engineered nanomaterials Advises on the best forms of protection and the safest nanotechnological products
If observed from an objective, epistemological standpoint, medicine is not a science. At least, not a science in its own right. The most important, key feature missing is repeatability, which makes the doctor's job extremely difficult. Doctors are not scientists, but every day, they are called upon to use the results of scientific research. Therefore, they must keep themselves updated, be able to distinguish what is really worth extricating from a huge amount of a literature and use the data exclusively in the interest of their patients. To be effective, medicine must start from a correct, full understanding of the problem, but when particulate pollution is involved, we see too many wrong diagnoses. This book is written by the discoverers of nanopathology and, therefore, is the most advanced in the field. The main topic is how natural, occasionally generated and engineered particles interfere with living organisms, food, drugs and the environment. The book is unique in the cases it shows and, in the methodology, used.
Enormous funds are currently being invested in nanotechnology, yet very little is known about how its products and by-products can interfere with organisms, both end-users and people involved in their manufacture. Similar scenarios are already widely known in the history of science, such as the exploitation of radioactivity or the controversial issue of genetically modified organisms. As nanoparticles are more or less voluntarily produced, they are almost uncontrollably disseminated in the environment and in organisms, and thus constitute a growing concern. Describing the impact of nanoparticles (and microparticles) on human and animal health, this book offers the first criteria for preventing potential problems deriving from these particles.
Case Studies in Nanotoxicology and Particle Toxicology presents a highly-illustrated analysis of the most prominent cases on the adverse effects of nanoparticles and their impact on humans and the environment. This comprehensive reference demonstrates the possible risks imposed by managing and handling nanoparticles, showing the effects of involuntary inhalation or ingestion during their use and after their incineration. Through the use of numerous examples, readers will discover the possible risks and effects of working with nanoparticles, along with best practices to prevent these effects. The text is an essential reference for anyone working in the risk assessment of nanoparticles, including nanosafety professionals, occupational toxicologists, regulatory toxicologists, and clinicians. Presents real-life cases showing the potential risks to human health following exposure to nanoparticles An ideal reference for anyone working in the risk assessment of nanoparticles, including nanosafety professionals, occupational toxicologists, regulatory toxicologists, and clinicians Provides examples to help assess risks of handling engineered nanomaterials Advises on the best forms of protection and the safest nanotechnological products
Enormous funds are currently being invested in nanotechnology, yet very little is known about how its products and by-products can interfere with both end users and people involved in their manufacture. Similar scenarios are already widely known in the history of science, such as the exploitation of radioactivity or the controversial issue of genet
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