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Showing 1 - 25 of 25 matches in All Departments
Silver Nanoparticles for Drug Delivery is a complete reference that provides comprehensive coverage of the principle behind the formation, characterization, application, regulation, toxicity, and challenges and future perspectives of silver nanoparticles in drug delivery for the treatment of various diseases. Sections cover the synthesis and characterization of silver nanoparticles (AgNPs), historical introductions to developments, methods and characterization parameters, green and biological synthesis methods, biofate and cellular interactions of AgNPs, drug delivery for the treatment of several diseases and conditions, targeting strategies, applications in cancer diagnosis and treatment, and much more. This is a complete reference for graduate students in nanotechnology drug delivery.
Discusses medicinal plants and plant bioactives used in treatment of various life threatening diseases. Covers green synthesis of nanoparticles as well as their toxicological and biological effects. Explore the various nanocarrier’s routinely used in delivery of plant bioactives and their efficacy for future drug delivery. Envisage future opportunities, challenges and implementation made in phytonanotechnology based treatment of human diseases.
Provides an explicit account of vital aspects of various nanocosmetics drug delivery approaches, thereby providing a next-generation cosmetic product Brings together novel applications of nanocosmetics approaches in a biological milieu Explores preparation, applications, toxicity, and regulatory prospects Includes a dedicated chapter on Niosomal drug-delivery system in cosmetics Discusses the perspectives of the technologies explored so far based upon the findings outlined in highly organized tables, illustrative figures, and flow charts
Poly(lactic-co-glycolic acid) (PLGA) Nanoparticles for Drug Delivery is a comprehensive guide to PLGA nanoparticles for targeting various diseases, covering principles, formation, characterization, applications, regulations and the latest advances. Sections introduce the fundamental aspects of PLGA nanoparticles for drug delivery, including properties, preparation methods, characterization, drug loading methods, and drug release mechanisms, along with a focus on applications. Application of PLGA nanoparticles for the treatment of cancer, inflammatory, cerebral, cardiovascular, and infectious diseases, as well as in regenerative medicine, photodynamic and photothermal therapy, and gene therapy, are all explained in detail. The final chapters explore recent advances and regulatory aspects. This book is a valuable resource for researchers and advanced students across nanomedicine, polymer science, bio-based materials, chemistry, biomedicine, biotechnology, and materials engineering, as well as for industrial scientists and R&D professionals with an interest in nanoparticles for drug delivery, pharmaceutical formulations and regulations, and development of innovative biodegradable materials.
Emerging Applications of Carbon Nanotubes in Drug and Gene Delivery brings together principles behind the formation, characterization and development of carbon nanotubes (CNTs) with recent advances in drug and gene delivery applications. The book begins with an introduction to the unique properties of CNTs, as well as the various synthesis, purification and functionalization methods available. Later chapters cover drug and gene delivery using CNTs for therapeutic applications, comparing advantages and disadvantages of each. The book then goes on to discuss toxicity and safety challenges in using CNTs in biomedicine, with a forward-look at regulatory requirements and clinical translations. This book offers a detailed reference for materials scientists, biomedical engineers, pharmaceutical scientists and geneticists interested in CNTs and nanomedicine.
Aptamers Engineered Nanocarriers for Cancer Therapy details the selection technologies, biological characteristics, and clinical uses of aptamer-based nano agents for cancer therapeutics. The book helps facilitate speedy solutions for some of the problems pertaining to the manufacture of nano-aptamers - such as toxicity, thermal stability, cost efficiency, tumor penetration and blood stability. Key chapters cover cell-SELEX technology for aptamer selection, mechanisms of multi-drug resistance of cancer, the relevance of aptamers as anticancer therapies, as well as the broad range of aptamer-functionalized nanostructures available. This book provides exciting insights into this relatively new approach to cancer therapeutics, and will be of interest to materials scientists, biomedical engineers, molecular biologists, biochemists and clinical scientists, with a focus on cancer therapy.
Polymeric Micelles for Drug Delivery provides a comprehensive overview on the synthesis, characterization and application of polymeric micelles in drug delivery applications. The use of nanomedicines and carriers, such as polymeric micelles, has made it possible to deliver drugs, genes and therapeutic agents to localized disease sites to maximize clinical benefit while limiting unwanted side effects. This book thoroughly reviews the development and application of polymeric micelles for drug delivery, covering various polymer types and the synthesis, characterization and pharmacokinetics of different micelles. Subsequent chapters go on to look at the range of drug delivery applications of polymeric micelles - such as mucosal and transdermal - and the assorted stimuli-responsive micelles available. The book concludes with an important analysis of the environmental and regulatory aspects associated with micelle development and clinical translation.
Combination Drug Delivery Approach as an Effective Therapy for Various Diseases explores the use of bioengineering tools in combination drug delivery approaches to control various diseases at different clinical stages of synergistic action, varying mechanisms of action, and during the suppression of drug resistance. The book presents fundamental knowledge on the experiential and experimental aspects of drug combination approaches in order to equip rational applications in preventing the emergence of resistance during the treatment of various diseases. It provides a holistic understanding of the principles behind formation, characterization, applications, regulations, toxicity, challenges and future perspectives of combination drug delivery approaches. It will be of interest to researchers and advanced graduate students in pharmaceutical science, chemistry, biology and medicine, as well as pharmaceutical companies and scientific organizations.
Hybrid Nanomaterials for Drug Delivery covers a broad range of hybrid nanomaterials and nanocomposites used in drug delivery systems. The book reviews a variety of hybrid nanomaterials and structures, including polymer-lipid, chitosan-based, protein-inorganic, quantum dot hybrids, and more. The strengths, limitations and regulatory aspects of hybrid drug delivery systems are also discussed, allowing readers to make informed decisions when choosing to utilize hybrid nanomaterials. Users will find this to be an exciting and comprehensive look into this emerging area. It will be of particular interest to academics and researchers working in materials science, engineering, biomedical engineering, nanotechnology and pharmaceutical science. Multi nanocarrier-based hybrid systems are an emerging concept in the field of drug delivery that allow researchers to avoid some of the challenges faced when administering drugs, such as low bioavailability, development of drug resistance, toxicities, premature drug release, and therapeutic efficacy.
Theory and Applications of Nonparenteral Nanomedicines presents thoroughly analysed data and results regarding the potential of nanomedicines conceived by diverse non-parenteral routes. In the context of nanotechnology-based approaches, various routes such as oral, pulmonary, transdermal, delivery and local administration of nanomedicine have been utilized for the delivery of nanomedicine. This book discusses the non-parenteral application of nanomedicine, its regulatory implications, application of mucus penetrating nanocarrier, and detailed chapters on development of nanomedicines developed for drug delivery by various route. Beginning with a brief introduction to the non-parenteral delivery of nanomedicine and the safety and regulatory implications of the nanoformulations, further chapters discuss the physiology of the biological barriers, the specificity of the nanocarriers as well as their multiple applications. Theory and Applications of Nonparenteral Nanomedicines helps clinical researchers, researchers working in pharmaceutical industries, graduate students, and anyone working in the development of non-parenteral nanomedicines to understand the recent progress in the design and development of nanoformulations compatible with non-parenteral applications.
Polymeric Nanoparticles as Promising Tool for Anti-cancer Therapeutics provides an understanding of polymeric compounds and their use in cancer therapies. The book begins by giving an overview of the current status, future challenges and potential utilization of polymeric nanoparticles. It then covers specific polymeric nanoparticles through contributions from world-renowned experts and researchers. Chapters examine specific polymeric nanoparticles, their development as potential targeted delivery systems, and cancer characteristics that can be targeted for therapy development. The book synthesizes current research trends in the field, thus enhancing existing knowledge of nanomedicine, drug delivery and therapeutic intervention strategies in human cancers. Users will find this to be an ideal reference for research scientists and those in the pharmaceutical and medical fields who are working to develop novel cancer therapies using nanoparticle-based delivery systems.
Curcumin-Based Nanomedicines as Cancer Therapeutics presents a consistent and thorough overview of nanocurcumin applications in cancer treatments. The book brings together the novel applications of nanocurcumin in biological milieu and helps readers define major gaps in knowledge that can lead to significant scientific discoveries. By providing an explicit account on vital aspects on nanocurcumin-based anticancer delivery approaches and discussing the perspectives of the technologies explored so far based upon the findings outlined, the book offers updated and in-depth knowledge on the topic in one single source written by global leading experts. In addition, the book aims to stimulate the interest of the academic researchers, industrial scientists, businessmen and young scholars to address key multidisciplinary challenges faced by nanotechnologists to foster desired collaboration among biologists, chemists, physicists, engineers, and clinicians to find proper and efficient new cancer treatments.
Nanomedicine in Cancer Immunotherapy bridges the two disciplines of nanotechnology and immunology, summarizing the latest research into novel cancer treatments, often personalized to the patient. The book covers a wide range of nanomaterial types for use in cancer immunotherapy, including hydrogel, lipid, exosome, gold and peptide nanoparticles. The preparation, application, pros and cons of each nanomaterial class is reviewed, helping the reader understand the potential for each to tailor their own selections. Nanovaccines are also covered, along with a clinical evaluation and market analysis of nanomedicines for immunotherapy, offering an important clinical and commercial overview of this rapidly developing field. This book is an interesting reference for those working in the fields of nanotechnology, immunology, and cancer therapeutics, as well as clinicians with an interest in novel nano-based cancer treatments.
Gold Nanoparticles for Drug Delivery discusses the synthesis and characterization of gold nanoparticles (AuNPs), presenting an historical introduction to the developments in the area, discussing methods and characterization parameters, covering targeted delivery strategies, treatment of cancer, CNS conditions, infectious diseases, HIV/AIDS infection, wound healing and tissue regeneration, dentistry, gene delivery, and its photo properties used in diagnostic and therapies, and finally presenting regulatory aspects such as theranostic applications, vaccine development, toxicity, and the translation of research to marketable products. This book is a complete reference for researchers in nanotechnology drug delivery and pharmaceutical disciplines. Researchers in pharmaceutical industries, especially those involved in the use of gold nanoparticles in the field of drug delivery, diagnosis, targeted and early therapies will also benefit from this book.
Cancer Epigenetics, Guns and Triggers: Targeting the Right Player via Nanotechnology Approach is a complete package that provides a comprehensive and thorough understanding of the key players that modulate the various steps of carcinogenesis and malignant progression of the disease and the critical targets to be exploited for developing novel modalities of diagnosis and therapeutics. Since epigenetic aberrations can be potentially reversed and restored to their normal state through epigenetic therapy, the book also discusses the challenges and the future of the field with the cutting-edge revelations and limitations that this research endeavor can offer, thereby helping the readers to enhance their critical thinking and adopt strategies of therapeutic importance.
Nanoparticle therapeutics: Production Technologies, Types of Nanoparticles, and Regulatory Aspects employs unique principles for applications in cell-based therapeutics, diagnostics and mechanistics for the study of organ physiology, disease etiology and drug screening of advanced nanoparticles and nanomaterials. The book focuses on the extrapolation of bioengineering tools in the domain of nanotechnology and nanoparticles therapeutics, fabrication, characterization and drug delivery aspects. It acquaints scientists and researchers on the experiential and experimental aspects of nanoparticles and nanotechnology to equip their rational application in various fields, especially in differential diagnoses and in the treatment of diverse diseased states. This complete resource provides a holistic understanding of the principle behind formation, characterization, applications, regulations and toxicity of nanoparticles employing myriad principles of nanotechnology. Investigators, pharmaceutical researchers, and advanced students working on technology advancement in the areas of designing targeted therapies, nanoscale imaging systems and diagnostic modalities in human diseases where nanoparticles can be used as a critical tool for technology advancement in drug delivery systems will find this book useful.
Dendrimer-Based Nanotherapeutics delivers a comprehensive resource on the use of dendrimer-based drug delivery. Advances in the application of nanotechnology in medicine have given rise to multifunctional smart nanocarriers that can be engineered with tunable physicochemical characteristics to deliver one or more therapeutic agent(s) safely and selectively to cancer cells, including intracellular organelle-specific targeting. This book compiles the contribution of dendrimers in the field of nanotechnology to aid researchers in exploring dendrimers in the field of drug delivery and related applications. This book covers the history of the area to the most recent research. The starting chapter covers detailed information about basic properties about dendrimers i.e. properties, nomenclature, synthesis methods, types, characterization of dendrimers, safety and toxicity issues of dendrimers. Further chapters discuss the most recent advancements in the field of dendrimer i.e. dendrimer-drug conjugates, PEGylated dendrimer, dendrimer surface engineering, dendrimer hybrids, dendrimers as solubility enhancement, in targeting and delivery of drugs, as photodynamic therapy, in tissue engineering, as imaging contrast agents, as antimicrobial agents, advances in targeted dendrimers for cancer therapy and future considerations of dendrimers. Dendrimer-Based Nanotherapeutics will help the readers to understand the most recent progress in the field of dendrimer-based research, suitable for pharmaceutical scientists, advanced students, and those working in related healthcare fields.
Recent Advances in Nanocarriers for Pancreatic Cancer Therapy reviews thriving strategies concerning pancreatic cancer therapy, thoroughly describing the most recent developments in emerging modern drug delivery systems focused on, and derived from, nanotechnology. By providing a holistic understanding of the molecular pathways, conventional therapy and novel nanocarriers mediated drug delivery against pancreatic cancer, this work can be considered a complete package. The book offers a solution to the dissemination of data from a broad range of resources by providing an overview of the molecular pathways and conventional therapy of pancreatic cancer, the application of various nanocarriers, and more. This book equips scientists, clinicians and students to make rational treatment approaches based on nanomedicine for improving and extending the human life against pancreatic cancer.
Nanomaterials for Photodynamic Therapy takes a unique approach to this area, with a key focus on the use of nanomaterials and nanocarriers for photodynamic therapy (PDT). The book introduces the history and mechanism of action behind PDT, covering the variety of sensitizers currently available. Subsequent chapters review existing and emerging nanomaterials for PDT, including hydrogel nanocomposites, fullerenes, quantum dots, polymeric micelles, and more. Challenges and translational aspects of PDT are also discussed, touching on the issues and hindrances of drug resistant cancers. The book bridges the gap between the physics and clinical aspects of PDT, offering a unique nanomaterials-focused perspective. This book will prove useful for materials scientists, biomedical engineers, electrical and optical engineers, and pharmaceutical scientists interested in cancer treatment.
Nanomedicine-Based Approaches for the Treatment of Dementia explores a wide range of promising approaches for the diagnosis and treatment of dementia. The book begins with introductory sections on dementia and brain ailments that are followed by further chapters that discuss detailed information about challenges of drug delivery across the blood-brain barrier as well as the current status. This book helps readers design and develop novel drug delivery systems and devices for the treatment of dementia that take advantage of recent advances in nanomedical technologies. Numerous drug delivery systems have been developed recently for dementia. Unfortunately, most of them are ineffective since dementia is not a single disease. It is an umbrella term for several neurodegenerative conditions which alter brain functions. Due to this, there is an urgent need for innovative technologies/nano drug delivery systems to improve the targeting and delivery of therapeutic as well as diagnostic agents specifically for treating dementia.
Nanotechnology-based Targeted Drug Delivery Systems for Lung Cancer is an indispensable resource that will help pharmaceutical scientists and clinical researchers design and develop novel drug delivery systems and devices for the treatment of lung cancer. As recent breakthroughs in nanomedicine are now making it possible to deliver drugs, genes and therapeutic agents to localized areas of disease to maximize clinical benefit, while also limiting unwanted side effects, this book explores promising approaches for the diagnosis and treatment of lung cancer using cutting-edge nanomedical technologies. Topics discussed include polymeric nanoparticles, solid lipid nanoparticles, liposomes, dendrimers, micelles and nanoemulsions.
Nanotechnology-Based Targeted Drug Delivery Systems for Brain Tumors addresses brain anatomy and tumors and the progress and challenges in delivering drugs across the blood brain barrier. Several chapters are devoted to the latest technologies and advances in nanotechnology, along with practical solutions on how to design more effective nanocarriers for drug and gene delivery. This valuable resource prepares readers to develop novel drug delivery systems for the treatment of brain tumors that further promote the latest nanomedical technologies.
Nanotechnology-Based Approaches for Targeting and Delivery of Drugs and Genes provides an overview of the important aspects of nanomedicine in order to illustrate how to design and develop novel and effective drug delivery systems using nanotechnology. The book is organized into three sections, beginning with an introduction to nanomedicine and its associated issues. Section two discusses the latest technologies in nanomedicine, while the third section covers future developments and challenges in the field. By focusing on the design, synthesis, and application of a variety of nanocarriers in drug and gene delivery, this book provides pharmaceutical and materials science students, professors, clinical researchers, and industry scientists with a valuable resource aimed at tackling the challenges of delivering drugs and genes in a more targeted manner.
Nanotechnology Based Approaches for Tuberculosis Treatment discusses multiple nanotechnology-based approaches that may help overcome persisting limitations of conventional and traditional treatments. The book summarizes the types of nano drugs, their synthesis, formulation, characterization and applications, along with the most important administration routes. It also explores recent advances and achievements regarding therapeutic efficacy and provides possible future applications in this field. It will be a useful resource for investigators, pharmaceutical researchers, innovators and scientists working on technology advancements in the areas of targeted therapies, nano scale imaging systems, and diagnostic modalities in tuberculosis.
Drug Discovery Targeting Drug-Resistant Bacteria explores the status and possible future of developments in fighting drug-resistant bacteria. The book covers the majority of microbial diseases and the drugs targeting them. In addition, it discusses the potential targeting strategies and innovative approaches to address drug resistance. It brings together academic and industrial experts working on discovering and developing drugs targeting drug-resistant (DR) bacterial pathogens. New drugs active against drug-resistant pathogens are discussed, along with new strategies being used to discover molecules acting via new modes of action. In addition, alternative therapies such as peptides and phages are included. Pharmaceutical scientists, microbiologists, medical professionals, pathologists, researchers in the field of drug discovery, infectious diseases and microbial drug discovery both in academia and in industrial settings will find this book helpful.
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