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This book describes the growing clinical and healthcare relevance of nano-therapeutics in treating respiratory diseases. It begins with a brief introduction on the different types of nanoparticles in respiratory disease conditions. It further discusses the current trends in understanding the disease pathology using different in vitro and in vivo models, which are important towards the onsite clinical applications and development of new therapeutics. The book includes exciting topics such as formulation of these nanoparticles, targeting various organelles etc. It also describes the future prospects and challenges in the field. Different chapters are written by researchers actively working in the area of pulmonary diseases. This book is designed to address the requirements of both beginners and specialized scientists involved in pulmonary research. The contents include basic concepts followed by advanced state-of-art monitoring and treatment of diseases. The book is meant for researchers and industry experts in nanotechnology, pharmaceutical sciences and drug design.
Targeting Chronic Inflammatory Lung Diseases Using Advanced Drug Delivery Systems explores the development of novel therapeutics and diagnostics to improve pulmonary disease management, looking down to the nanoscale level for an efficient system of targeting and managing respiratory disease. The book examines numerous nanoparticle-based drug systems such as nanocrystals, dendrimers, polymeric micelles, protein-based, carbon nanotube, and liposomes that can offer advantages over traditional drug delivery systems. Starting with a brief introduction on different types of nanoparticles in respiratory disease conditions, the book then focuses on current trends in disease pathology that use different in vitro and in vivo models. The comprehensive resource is designed for those new to the field and to specialized scientists and researchers involved in pulmonary research and drug development. Explores recent perspectives and challenges regarding the management and diagnosis of chronic respiratory diseases Provides insights into how advanced drug delivery systems can be effectively formulated and delivered for the management of various pulmonary diseases Includes the most recent information on diagnostic methods and treatment strategies using controlled drug delivery systems (including nanotechnology)
The book comprehensively reviews and provides detailed insight into the cellular and molecular signalling mechanisms involved in pathophysiology of various respiratory diseases, towards developing effective therapeutic strategies in the management and treatment of lung disease. It also covers promising advances in the field of therapeutics that could lead to novel clinical therapies capable of preventing or reversing the disease features including novel strategies for targeting chronic lung diseases using advanced drug delivery systems. Importantly, the book examines the significance and relevance of the plant extracts and their constituents with therapeutic efficiencies against lung diseases. As such, the book offers a blend of translational, biological, chemical, and drug delivery aspects relevant to respiratory diseases, thus, offering a valuable resource for pulmonologists and translational researchers working in the field of pulmonary biology and respiratory medicine.
Handbook of Lung Targeted Drug Delivery Systems: Recent Trends and Clinical Evidences covers every aspect of the drug delivery to lungs, the physiology and pharmacology of the lung, modelling for lung delivery, drug devices focused on lung treatment, regulatory requirements, and recent trends in clinical applications. With the advent of nano sciences and significant development in the nano particulate drug delivery systems there has been a renewed interest in the lung as an absorption surface for various drugs. The emergence of the COVID-19 virus has brought lung and lung delivery systems into focus, this book covers new developments and research used to address the prevention and treatment of respiratory diseases. Written by well-known scientists with years of experience in the field this timely handbook is an excellent reference book for the scientists and industry professionals. Key Features: Focuses particularly on the chemistry, clinical pharmacology, and biological developments in this field of research. Presents comprehensive information on emerging nanotechnology applications in diagnosing and treating pulmonary diseases Explores drug devices focused on lung treatment, regulatory requirements, and recent trends in clinical applications Examines specific formulations targeted to pulmonary systems
Advanced Drug Delivery Systems for Colonic Disorders present the current state of the art methods for targeted drug delivery to the colon. These methods can prolong drug half-lives, improve bioavailability, optimize pharmacokinetics, and reduce medication dosing frequency. Chapters are written in a way that allows the audience to not only become familiar with the most recent advancement in the field, but to better understand them by referring to various illustrations, figures, and informative tables. The contents cover an overview of colonic diseases, the cellular and molecular mechanisms involved, current and traditional therapeutic approaches, biomaterials, oral drug delivery methods, targeted drug delivery, nutraceuticals and herbal medicine approaches, prebiotics, probiotics and symbiotics, nanomedicine approaches, and the current status of clinical trials in the area. Advanced Drug Delivery Systems for Colonic Disorders is the perfect resources for researchers in pharma, biomaterials, and nutrition to familiarize themselves with new and upcoming therapeutic methods. Research physicians in GI can also benefit from reading this book for its clinical applications. Covers recent perspectives and challenges towards the treatment of colonic disorders Provides insights into how advanced drug delivery systems can be effectively used for the management of various types of colonic disorders Discusses drug delivery strategies to manage inflammatory bowel disease (chronic inflammation in the digestive tract), ulcerative colitis (inflammation and ulcers in colon), Crohn's disease, Colonic polyps, Shigellosis, Colon Bleeding or Hemorrhage, Diverticulosis and colon cancer
Drug delivery to the lungs is difficult to achieve and conventional approaches like intravenous and oral administration of drugs do not effectively deliver drugs to the lungs. The inhalation route of administration provides a way to deliver the drugs locally, thereby increasing their efficacy. However, there are several problems associated with inhalation delivery like rapid clearance from the lung, uptake by non-relevant cell types within the lung, leading to side effects, and difficulty of formulation. Apart from these routes and their difficulties, optimization of drug delivery is required for different type of drugs like proteins, siRNAs, and small molecules. Hence, efficient drug delivery to the lung is an unmet need for the treatment of lung diseases. The objective of this research was to design and implement novel targeted drug delivery strategies to deliver proteins, siRNAs, and small molecules (pirfenidone) for the treatment of lung diseases. We evaluated efficacy of a fusion protein of tumstatin in vitro in proliferation, invasion, and tube formation assays, and in vivo in a xenograft model of lung cancer upon intravenous administration and comparedit with its parent molecule tumstatin. We found that transferrin-tumstatin was superior to tumstatin in all the assays. siRNA delivery to the lung is challenging, and to achieve effective delivery of siRNA to the lungs, we prepared novel targeted nanoparticles encapsulating CXCL1 siRNA. CXCL1 siRNA was used as a model siRNA to treat acute lung injury in mice which reflects human acute respiratory distress syndrome (ARDS). We evaluated the biodistribution and efficacy of these nanoparticles in a bleomycin induced ARDS mouse model. We found that functionalized nanoparticles were superior in targeting the lungs as well as more efficacious in treating ARDS when compared to non-functionalized nanoparticles and naked siRNA. For small molecule delivery, we developed an inhalation route of administration. For inhaled drugs, it is essential to target them to relevant cells. First, we determined the optimum size of nanoparticles to target various cells within the lung and then used optimally sized nanoparticles to treat a mouse model of idiopathic pulmonary fibrosis (IPF) using pirfenidone as a model small molecule. We found that 200 nm nanoparticles were superior at targeting epithelial cells compared to 20 nm and 2000 nm nanoparticles. Nanoparticles sized approximately 200 nm loaded with pirfenidone were more effective in retaining the drug within the lung up to 1 week compared to pirfenidone solution and they were more efficacious in treating pulmonary fibrosis in a mouse model compared to pirfenidone solution.
The respiratory tract has been used to deliver biologically active chemicals into the human body for centuries. However, the lungs are complex in their anatomy and physiology, which poses challenges to drug delivery. Inhaled formulations are generally more sophisticated than those for oral and parenteral administration. Pulmonary drug development is therefore a highly specialized area because of its many unique issues and challenges. Rapid progress is being made and offers novel solutions to existing treatment problems. Advances in Pulmonary Drug Delivery highlights the latest developments in this field.
Drug therapy via inhalation route is at the cutting edge of modern drug delivery research. There has been significant progress on the understanding of drug therapy via inhalation products. However, there are still problems associated with their formulation design, including the interaction between the active pharmaceutical ingredient(s) (APIs), excipients and devices. This book seeks to cover some of the most pertinent issues and challenges of such formulation design associated with industrial production and desirable clinical outcome. The chapter topics have been selected with a view to integrating the factors that require consideration in the selection and design of device and formulation components which impact upon patient usability and clinical effectiveness. The challenges involved with the delivery of macromolecules by inhalation to both adult and pediatric patients are also covered. Written by leading international experts from both academia and industry, the book will help readers (formulation design scientists, researchers and post-graduate and specialized undergraduate students) develop a deep understanding of key aspects of inhalation formulations as well as detail ongoing challenges and advances associated with their development.
Chronic diseases are common and costly, yet they are also among the most preventable health problems. Comprehensive and accurate disease surveillance systems are needed to implement successful efforts which will reduce the burden of chronic diseases on the U.S. population. A number of sources of surveillance data-including population surveys, cohort studies, disease registries, administrative health data, and vital statistics-contribute critical information about chronic disease. But no central surveillance system provides the information needed to analyze how chronic disease impacts the U.S. population, to identify public health priorities, or to track the progress of preventive efforts. A Nationwide Framework for Surveillance of Cardiovascular and Chronic Lung Diseases outlines a conceptual framework for building a national chronic disease surveillance system focused primarily on cardiovascular and chronic lung diseases. This system should be capable of providing data on disparities in incidence and prevalence of the diseases by race, ethnicity, socioeconomic status, and geographic region, along with data on disease risk factors, clinical care delivery, and functional health outcomes. This coordinated surveillance system is needed to integrate and expand existing information across the multiple levels of decision making in order to generate actionable, timely knowledge for a range of stakeholders at the local, state or regional, and national levels. The recommendations presented in A Nationwide Framework for Surveillance of Cardiovascular and Chronic Lung Diseases focus on data collection, resource allocation, monitoring activities, and implementation. The report also recommends that systems evolve along with new knowledge about emerging risk factors, advancing technologies, and new understanding of the basis for disease. This report will inform decision-making among federal health agencies, especially the Department of Health and Human Services; public health and clinical practitioners; non-governmental organizations; and policy makers, among others.
This book summarizes experimentally-supported research on the therapeutic efficacy of plant extracts and their constituents on a range of respiratory diseases including infections. It discusses the pharmacological, cellular and molecular factors involved in the pathogenies of respiratory diseases and their modulation by plant-derived compounds. Additionally, it underlines the growing relevance of medicinal plant-based advanced drug delivery systems for treating lung diseases providing maximal therapeutic efficacy with better patient compliance. Overall, this comprehensive book is a blend of translational, biological, chemical and drug delivery aspects of medicinal plants employed in targeting respiratory diseases and attracts a range of audiences including physiochemist, translational and clinical researchers working in the field of respiratory diseases.