Targeted Cancer Imaging: Design and Synthesis of Nanoplatforms based on Tumour Biology reviews and categorizes imaging and targeting approaches according to cancer type, highlighting new and safe approaches that involve membrane-coated nanoparticles, tumor cell-derived extracellular vesicles, circulating tumor cells, cell-free DNAs, and cancer stem cells, all with the goal of pointing the way to developing precise targeting and multifunctional nanotechnology-based imaging probes in the future. This book is highly multidisciplinary, bridging the knowledge gap between tumor biology, nanotechnology, and diagnostic imaging, and thus making it suitable for researchers ranging from oncology to bioengineering. Although considerable efforts have been conducted to diagnose, improve and treat cancer in the past few decades, existing therapeutic options are insufficient, as mortality and morbidity rates remain high. One of the best hopes for substantial improvement lies in early detection. Recent advances in nanotechnology are expected to increase our current understanding of tumor biology, allowing nanomaterials to be used for targeting and imaging both in vitro and in vivo experimental models.

Emerging Nanomedicines for Diabetes Mellitus Theranostics provides readers with information on the development of efficacious nanomedicines as potential theranostic agents for diabetes. The book discusses the application of various novel nanomaterials and nanocomposites for targeted delivery of insulin, glucose sensing, including nano-tattoos as glucose monitors, biosynthesized nanoparticles for diabetes treatment, and pre-clinical and clinical assays to evaluate the efficacy of nanomedicines for diabetes treatment. This is an important references source for materials scientists, pharmaceutical scientists and biomedical engineers who want to increase their understanding of how nanotechnology is being used to improve diabetes treatment. Diabetes has emerged as one of the most common diseases associated with lifestyle choices in the modern world, with significant mortality rates. Conventional treatment methods mainly involve insulin-based therapies. However, insulin therapy possesses several limitations such as weight gain and hypoglycemia. Thus, advanced research in nanomedicine is targeting the development of new and improved diagnostics and treatment methods for diabetes.

DHM and Posturography explores the body of knowledge and state-of-the-art in digital human modeling, along with its application in ergonomics and posturography. The book provides an industry first introductory and practitioner focused overview of human simulation tools, with detailed chapters describing elements of posture, postural interactions, and fields of application. Thus, DHM tools and a specific scientific/practical problem - the study of posture - are linked in a coherent framework. In addition, sections show how DHM interfaces with the most common physical devices for posture analysis. Case studies provide the applied knowledge necessary for practitioners to make informed decisions. Digital Human Modelling is the science of representing humans with their physical properties, characteristics and behaviors in computerized, virtual models. These models can be used standalone, or integrated with other computerized object design systems, to design or study designs, workplaces or products in their relationship with humans.

Agricultural Nanobiotechnology: Biogenic Nanoparticles, Nanofertilizers and Nanoscale Biocontrol Agents presents the most up-to-date advances in nanotechnology to improve the agriculture and food industry with novel nanotools for the controlling of rapid disease diagnostic and enhancement of the capacity of plants to absorb nutrients and resist environmental challenges. Highlighting the emerging nanofertilizers, nanopesticides and nanoherbicides that are being widely explored in order to overcome the limitations of conventional agricultural supplements, the book provides important insights to enable smart, knowledge-driven selection of nanoscale agricultural biomaterials, coupled with suitable delivery approaches and formulations will lead to promising agricultural innovation using nanotechnology. Agricultural Nanobiotechnology: Biogenic Nanoparticles, Nanofertilizers and Nanoscale Biocontrol Agents explores emerging innovations in nanobiotechnology for agriculture, food, and natural resources to address the challenges of food security, sustainability, susceptibility, human health, and healthy life. The book is ideal for the multidisciplinary scientists whose goal is to see the use of nanomaterials in agriculture to reduce the amount of spread chemicals, minimize nutrient losses in fertilization and to generate increased yield through pest and nutrient management.

Advances in Nanotechnology-Based Drug Delivery Systems covers the core concepts and latest research regarding the use of nanoscale materials for the development and application of drug delivery systems. The book introduces the reader to nanotechnology in drug delivery, covering the synthesis, encapsulation techniques, characterization and key properties of nanoscale drug delivery systems. Later chapters review the broad range of target applications, including site-specific delivery of drugs for cardiovascular disease, cancer, bacterial infection, bone regeneration. and much more. This book helps translate advanced research into a clinical setting, analyzing the toxicity and health and safety challenges associated with utilizing nanotechnology in biomedicine. This will be a useful reference for those interested in nano-sized drug delivery in biomedicine, including academics and researchers in materials science, biomedical engineering, pharmaceutical science and related disciplines.

Nano-Enabled Agrochemicals in Agriculture presents a targeted overview of the safe implementation of nanotechnologies within agricultural and horticultural settings, with the purpose of achieving enhanced production while maintaining ecological integrity. The growing global request for agricultural crops and products requires high standards of quality and safety, which has stimulated the search for new technologies that preserve their quality and delay their decomposition. Nanotechnology may boost plant production by improving nutrient uptake/use efficiency with nanoformulations of fertilizers and agrochemicals for plant enhancement, detection and treatment of diseases, and host-parasite interactions at the molecular level using nanosensors. It also may improve plant disease diagnostics, removal of contaminants from soil and water, postharvest management of vegetables and flowers, and reclamation of salt-affected soils. Although the markets for nanoproducts and nanoformulations continue to increase, there are also growing concerns regarding the fate and behavior of nanomaterials in environmental systems. Exploring important topics related to nanotechnology and nanomaterials, the book includes the use of nanochemicals in insect pest management, as nanofungicides, nanoherbicides, micronutrient supply, and nanosensors to monitor crop and soil health conditions, from detection of agrochemicals to their slow release of agrochemicals, and their impact on related environs. This book will serve as an excellent resource for a wide range of plant scientists who have concerns about nanomaterial interactions with terrestrial and aquatic plants.

Nanotherapeutics in Cancer Vaccination and Challenges consolidates the current research on cancer nanomedicine and therapeutic cancer vaccination to explore the most effective and promising avenues. The book covers cancer vaccines before exploring nanotherapeutics, DNA and mRNA vaccines in cancer treatment. Finally, it considers regulatory and industrial perspectives on cancer vaccination and nanotherapeutics. This resource will be useful for pharmaceutical scientists and researchers focused on biomedical engineering, chemical engineering, vaccine development, and cancer immunotherapy, along with advanced students in these subjects. Cancer is arguably the most complex and challenging disease known to mankind. Over the last two-decades, significant advancements have been made in new and novel concepts of cancer nanomedicines. Therapeutic cancer vaccines may be utilized to inhibit further growth of advanced cancers and/or relapsed tumors that are refractory to conventional therapies, such as surgery, radiation therapy and chemotherapy.