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Photonanotechnology for Therapeutics and Imaging surveys major concepts and recent advances in the use of photonanotechnology with nanomaterials reported in various interdisciplinary fields, including chemistry, materials science, biomedical engineering and biomedicine. This book discusses the impact of this technology on the advancement of therapeutic modalities and imaging methods in cancers, infectious diseases and other serious diseases. Photonanotechnology studies the design principle, application and development of photoactive nanomaterials. It applies light-controlled strategies for the development of nanotherapeutics, imaging agents and diagnostic nanodevices. Provides the latest information on photocontrolled drug delivery systems Details how photoactive nanomaterials are designed to release reactive oxygen species (ROS) for photodynamic therapy (PDT) Explains how photoactive nanomaterials have the ability to induce surface plasmonic heating for photothermal therapeutic (PTT) effects
This book provides a set of articles reviewing state-of-the art research and recent advancements in the field of photon-matter interaction for micro/nanomaterials synthesis and manipulation of properties of biological and inorganic materials at the atomic level. Photon-based nanoscience and related technologies have created exciting opportunities for the fabrication and characterization of nano(bio)material devices and systems.
Nanoscience has become one of the key growth areas in recent years. It can be integrated into imaging and therapy to increase the potential for novel applications in the field of photomedicine. In the past commercial applications of nanoscience have been limited to materials science research only, however, in recent years nanoparticles are rapidly being incorporated into industrial and consumer products. This is mainly due to the expansion of biomedical related research and the burgeoning field of nanomedicine. Applications of Nanoscience in Photomedicine covers a wide range of nanomaterials including nanoparticles used for drug delivery and other emerging fields such as optofluidics, imaging and SERS diagnostics. Introductory chapters are followed by a section largely concerned with imaging, and finally a section on nanoscience-enabled therapeutics. Covers a comprehensive up-to-date information on nanoscience Focuses on the combination of photomedicine with nanotechnology to enhance the diversity of applications Pioneers in the field have written their respective chapters Opens a plethora of possibilities for developing future nanomedicine Easy to understand and yet intensive coverage chapter by chapter
Dr Ming-Yuan Wei currently holds a pending U.S. Patent Application entitled “Systems and Methods for High-Resolution Imaging”. All other Guest Editors have no other competing interests to declare with regards to the Topic subject.
Photophysics and Nanophysics in Therapeutics explores the latest advances and applications of phototherapy and nanotherapy, covering the application of light, radiation, and nanotechnology in therapeutics, along with the fundamental principles of physics in these areas. Consisting of two parts, the book first features a range of chapters covering phototherapeutics, from the fundamentals of photodynamic therapy (PDT) to applications such as cancer treatment and advances in radiotherapy, applied physics in cancer radiotherapy treatment, and the role of carbon ion beam therapy. Other sections cover nanotherapeutics, potential applications and challenges, and nanotherapy for drug delivery to the brain. Final chapters delve into nanotechnology in the diagnosis and treatment of cancers, the role of nanocarriers for HIV treatment, nanoparticles for rheumatoid arthritis treatment, peptide functionalized nanomaterials as microbial sensors, and theranostic nanoagents. Evaluates the latest developments in the fields of phototherapy and nanotherapy Investigates the fundamental physics behind these technologies Explores therapeutic applications across a range of diseases, such as skin disorders, cancer, and neurological conditions Includes case studies that illustrate research in practice Considers challenges and future perspectives
In the last decade, bioimaging and therapy based on near-infrared (NIR) nanomaterials have played an important role in biotechnology due to their intrinsic advantages when compared with the traditional imaging probe and medicine. NIR nanomaterials allow deeper penetration depth, low detection threshold concentration and better targeted performance. This book systematically summarises the recent progress in the fabrication and application of NIR nanomaterials for biomedical imaging and therapy, and discusses the advantages, challenges and opportunities available. Near-infrared Nanomaterials contains a chapter highlighting the outlook of these materials, detailing novel ideas for the further application of NIR nanomaterials in bioimaging and medicine. Written by leading experts working in the field, this title will have broad appeal to those working in chemistry, materials science, nanotechnology, biology and bioengineering, biomedical science and biophysics.
Shaped by Quantum Theory, Technology, and the Genomics RevolutionThe integration of photonics, electronics, biomaterials, and nanotechnology holds great promise for the future of medicine. This topic has recently experienced an explosive growth due to the noninvasive or minimally invasive nature and the cost-effectiveness of photonic modalities in
Organic Nanomaterials for Cancer Phototheranostics highlights the use of biocompatible building blocks to make nanomaterials that can aid in medical treatment through better diagnostic and antitumor efficacy. It synthesizes the current literature on synthetic strategies and designs based on peptides, proteins, polymers, lipids, and their conjugates, as well as composites and complexes with metals and inorganic components used to form the nanomaterials. Mechanistic approaches, clinical problems, and therapeutic and diagnostics mechanisms are covered in each chapter. Cellular interactions and uptake, pharmacokinetics, biodistribution, drug delivery efficiency, and safety concerns of these types of nanomaterials are discussed, as well. Other topics looked at include photostability, clearance, metabolism, in-vitro and in-vivo mechanisms, therapeutic efficacy, imaging, and toxicology. Outlines fabrication and design strategies of peptides, proteins, polymers, lipids, composites, and complexes with metals and inorganic components Discusses the limitations and challenges of organic nanomaterials in clinical use, including their mechanisms of penetration into cancer cells and tissue, photostability, clearance, and metabolism Covers clinical problems and therapeutic and diagnostics mechanisms
The convergence of nanotechnology with agriculture has transformed farming, while also impacting medicine, biotechnology and environmental science. Plant extracts isolated using new technologies have been used to successfully create new medicines for specific diseases. This book focuses on the eco-friendly synthesis of plant extracts. It provides information about multifunctional nanoparticles, and their versatile applications, including agriculture, food safety, and environmental remediation. The book aims to bridge the gap between nanotechnology and public perception, addressing concerns related to health and environmental impact. Themes within the book span across green synthesis techniques for noble metal nanoparticles, the crucial role of analytical methods in characterizing these "green nanomaterials," and the comprehensive examination of how nanoparticles interact with the human body. Furthermore, the intricate relationships between proteins and nanoparticles is highlighted to explain the physicochemical effects and toxicity of nanomaterials. Readers will learn about sustainable and environmentally friendly approaches for synthesizing nanoparticles, while getting a glimpse of the promising future of nanotechnology in agriculture and beyond.