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Applications of Nanobiotechnology for Neglected Tropical Diseases describes recent advances in nanobiotechnology that can be applied to reducing the global disease burden of neglected tropical diseases (NTDs). The book explores the application of nanotechnology on the development of safe, effective, and reliable tools to prevent, diagnose, and treat NTDs. Furthermore, Applications of Nanobiotechnology for Neglected Tropical Diseases includes multidisciplinary content, combining knowledge from biochemistry, medicinal chemistry, material sciences, pharmacology, and pharmaceutics. The book is divided into three main parts, each outlining one major type of approach: (1) nano-based approaches for prevention, (2) nano-diagnostics and detection, and (3) nanotherapeutics. Each part contains chapters that delve into the different applications of the type of approach being presented in that part. A discussion of other approaches against NTD follows these three parts. This book is remarkable in its ability to encompass and thoroughly explain the latest techniques in nanobiotechnology, from basic research to patient-oriented investigation. Offers a broad overview of nanobiotechnology applied to the prevention, diagnostics, and treatment of NTDs Presents cutting-edge recent advances in nanobiotechnology, focusing on diseases reported by the World Health Organization’s NTDs Roadmap (e.g., leishmaniasis, malaria, schistosomiasis, filariasis, etc.) Provides a deep discussion about ground-breaking approaches designed to meet the medical needs of patients suffering from NTDs Gives examples of multidisciplinary investigations into NTDs, from research labs to clinics
This book aims to cover the applications of nanotechnology against human infectious diseases. The chapters of the book discuss the role of nanotechnology in the efficient diagnosis and treatment of these diseases. It explicitly provides an overview of nanodiagnostics for infectious diseases from nanoparticles-based, nanodevice-based, and point-of-care platforms. The book also covers the state-of-the-art review of recent progress in biomimetic and bioengineered nanotherapies to treat infectious diseases. It also presents a nano carrier-based CRISPR/Cas9 delivery system for gene editing and its applications for developing interventional approaches against communicable diseases. Further, it reviews the recent developments in nanotechnology to engineer nanoparticles with desired physicochemical properties as a line of defense against multi-drug resistance micro-organisms. Cutting across the disciplines, this book serves as a guide for researchers in biotechnology, parasitology, and nanotechnology.
In recent years, there has been a lot of interest in using nanotechnology in medicine to diagnose and cure various infectious diseases. Although the precise mechanism of action is frequently challenged, many nanosized materials have been extensively explored for this purpose, using their innately unique features. Their functionality has also been enhanced by the addition of various coatings, such as those that increase chemical stability and stealth properties or contain targeting agents that lessen off-target effects while producing effective "smart" nanoplatforms for the early detection, treatment, and possibly resolution of diseases. This book aims to compile research and review articles that concentrate on the synthesis, characterization, and applications of nanomaterials, such as nanoparticles, with a focus on investigating novel ways to improve their properties and create new efficient diagnostic, therapeutic, or theranostic approaches with a clear understanding of how they work.
Nanotechnology in Diagnosis, Treatment and Prophylaxis of Infectious Diseases delivers comprehensive coverage of the application of nanotechnology to pressing problems in infectious disease. This text equips readers with cutting-edge knowledge of promising developments and future prospects in nanotechnology, paying special attention to microbes that are now resistant to conventional antibiotics, a concerning problem in modern medicine. Readers will find a thorough discussion of this new approach to infectious disease treatment, including the reasons nanotechnology presents a promising avenue for the diagnosis, treatment, and prophylaxis of infectious diseases. Provides a comprehensive overview of the use of nanotechnology in the treatment and diagnosis of infectious diseases Covers all common types of infective agents, including bacteria, viruses, fungi, and protozoa, along with their vectors, ticks, mosquitoes, flies, etc. Delivers commentary from an international researcher base, providing insights across differing economic statuses Includes a foundation of basic nanotechnological concepts to aid in designing new strategies to combat several pathogenic diseases and cancer Illustrates the high antimicrobial potential of nanoparticles, ultimately demonstrating how they are a promising alternative class that can be successfully used in fighting a myriad of infections
The COVID-19 pandemic has altered the world and reiterated the perpetual need for the development of effective strategies for the prevention and treatment of infectious diseases. While globally prevalent infectious diseases receive extensive attention in terms of drug development and delivery, the neglected and/or emerging infectious diseases that affect developing countries are often overlooked. Additionally, the therapeutic efficacy of existing anti-infective agents is often limited due to sub-optimal biopharmaceutical properties, sub-therapeutic levels of the drugs at the infection site due to various physiological barriers, the expulsion of the drug by efflux transporters, and the emergence of drug-resistant strains. From the commercialization of AmBisome® to the emergency authorization of mRNA-based vaccines, nanotechnology has played a vital role in the prevention and treatment of infectious diseases. More importantly, nanotechnology has enabled the effective utilization of existing armamentarium against infectious diseases leading to improved therapeutic outcomes with a concomitant reduction in the side effects associated with anti-infective agents. In particular, nanotechnology can bring about a paradigm shift in the management of neglected and emerging infectious diseases and may compensate for the lack of drug discovery efforts. While there are several books dedicated to pharmaceutical and/or biomedical applications of nanotechnology or nanotechnology for cancer therapy a comprehensive book focusing on the prevention and/or treatment of viral, bacterial, fungal, and parasitic infections is not available. This book addresses an unmet need in pharmaceutical and medical education. This book provides a comprehensive and up-to-date overview of the latest advancements in nanomedicine, which show great potential for preventing and treating infectious diseases. Covering a wide range of topics, it explores various formulation strategies for combating microbial, fungal, parasitic, and viral infections. The book emphasizes the advantages of nano-scale vaccines over traditional ones and discusses their production. It also examines feasible treatment approaches for diseases like malaria, trypanosomiasis, candidiasis, Hepatitis B, HIV, and the ongoing COVID-19 pandemic. Additionally, it highlights the role of nano-adjuvants in vaccine development, as well as the use of peptide antibiotics and pulmonary delivery of drugs, which open up new possibilities in fighting infectious diseases. Furthermore, the book explores the critical role of nanomedicine in addressing veterinary parasitic infections. The emergence of nanotechnology has led to novel strategies for diagnosing, treating, and preventing parasitic infections in animals. In summary, this book offers a comprehensive description of clinically viable and investigational nanotechnology-enabled medicines (nanomedicines) for the prevention and treatment of globally prevalent, neglected, and emerging infectious diseases.
The book provides a single volume covering detailed descriptions about various delivery systems, their principles and how these are put in use for the treatment of multiple diseases. It is divided into four sections where the first section deals with the introduction and importance of novel drug delivery system. The second section deals with the most advanced drug delivery systems like microbubbles, dendrimers, lipid-based nanoparticles, nanofibers, microemulsions etc., describing the major principles and techniques of the preparations of the drug delivery systems. The third section elaborates on the treatments of diverse diseases like cancer, topical diseases, tuberculosis etc. The fourth and final section provides a brief informative description about the regulatory aspects of novel drug delivery system that is followed in various countries.
Nanotechnology can target specific agricultural problems related to plant pathology and provide new techniques for crop disease control. Plant breeders and phytopathologists are needed who can apply nanogenomics and develop nanodiagnostic technologies to accurately advance the improvement process and take advantage of the potential of genomics. This book serves as a thorough guide for researchers working with nanotechnology to address plant protection problems. Novel nanobiotechnology methods describe new plant gene transfer tools that improve crop resistance against plant diseases and increase food security. Also, quantum dots (QDs) have emerged as essential tools for fast and accurate detection of particular biological markers. Biosensors, QDs, nanostructured platforms, nanoimaging, and nanopore DNA sequencing tools have the potential to raise sensitivity, specificity, and speed in pathogen detection, thereby facilitating high-throughput analysis and providing high-quality monitoring and crop protection. Also, this book deals with the application of nanotechnology for quicker, more cost-effective, and precise diagnostic procedures of plant diseases and mycotoxins. Applications of nanotechnology in plant pests and disease control, antimicrobial mechanisms, pesticides remediation and nanotoxicity on plant ecosystem and soil microbial communities are discussed in detail. Moreover, the application of specific nanomaterials including silver, copper, carbon- or polymer-based nanomaterials and nanoemulsions are also discussed. Crops treated with safe nanofertilizers and nanopesticides will gain added value because they are free of chemical residues, decay and putative pathogens for human health, sustaining the global demand for high product quality.
This book is dedicated to the applications of nanobiotechnology, i.e. the way that nanotechnology is used to create devices to study biological systems and phenomena. It includes seven chapters, organized in two sections. The first section (Chapters 1–5) covers a large spectrum of issues associated with nanoparticle synthesis, nanoparticle toxicity, and the role of nanotechnology in drug delivery, tissue engineering, agriculture, and biosensing. The second section (Chapters 6 and 7) is devoted to the properties of nanofluids and the medical and biological applications of computational fluid dymanics modeling.
Nanotechnology is an emerging, pivotal platform for enhancing plant health. On one hand, nanomaterials serve as crucial nutrients and nanofertilizers, while on the other, they have demonstrated their potential for diagnosing plant diseases, delivering fungicides and pesticides, and providing therapeutic solutions against diseases caused by pathogens and parasites. The book Nanotechnology in Plant Health explores the significance of nanomaterials in plant nutrition, nanofertilizers, and their role in managing plant pathogens, including the most formidable ones like quarantined strains. This unique publication represents a global team of contributors and stands out for its comprehensive coverage of plant nanonutrients, nanofertilizers, and nano-plant protectors.