Cutting edge technology-based drug delivery systems have been rapidly growing and are being applied to various sections of biomedicine. The current scenario of global burden due to infectious disorders can take advantage of nanoparticulate based carriers to advance the cure efficiency. Nanostructured Drug Delivery Systems in Infectious Disease Treatment explores a broad range of promising approaches for the treatment of infectious diseases using the latest advancements in nanomedical technologies. The book opens with introduction about infectious diseases and its global burden. There is also specific discussion and assessment of the global impact of viruses with an emphasis on COVID-19, Zika, and Ebola. Subsequent chapters provide detailed information about various novel nanotherapeutic strategies used for delivering drugs for the treatment of various types of viral, bacterial, and fungal disorders. Nanostructured Drug Delivery Systems in Infectious Disease Treatment is a valuable resource for graduates, researchers, industry professionals, and anyone working to tackle the challenges of delivering drugs in a more targeted and efficient manner for the treatment of infectious diseases.   

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.

Nanoformulation Strategies for Cancer Treatment provides an up-to-date review on current developments and regulatory and clinical challenges in the field of nanopharmaceuticals and the effective treatment of diverse varieties of cancer. This important reference source is ideal for biomaterials scientists and pharmaceutical scientists working in the area of cancer diagnosis and therapy. Due to the high cost of traditional cancer treatment types, researchers have increasingly looked for new ways to augment the therapeutic performance of existing drug candidates. The use of nanotechnology-based approaches have gained significant momentum, thus leading to the launch of a series of new drug products. As nanopharmaceuticals improve the therapeutic performance of cancer therapy drugs, but also provide opportunities for site-specific drug targeting in tumors, this work is a welcomed resource on the topics discussed.

This new volume looks at the applications of biomarkers as important tools for herbal drug discovery, presenting research on phytoconstituents with advanced nanotechnological applications for healthcare benefits. Herbal drug discovery based on biomarkers is an emerging area in complementary and alternative medicine that has tremendous potential in healthcare. Conventional medications have limited efficacy and high toxicity, whereas herbal drugs are said to provide wide structural diversity that is not usually seen with conventional/synthetic drug molecules. Recognition of various herbal constituents, such as terpenoids, fatty acids, flavonoids and steroids, are well explored in the management and treatment of various disorders in this volume. These agents target various biomarkers such as nitric oxide (NO), cytokines, chemokines, adhesion molecules, NF- k , lipoxygenase (LOX), and arachidonic acid. Biomarkers as Targeted Herbal Drug Discovery: A Pharmacological Approach to Nanomedicines discusses phytoconstituent-based nanotherapeutics with applications for some specific health issues, such as arthritis, leishmanicidal, cardiovascular diseases, cancer, ocular disorders, etc.

Pharmaceutical manufacturers are constantly facing quality crises of drug products, leading to an escalating number of product recalls and rejects. Due to the involvement of multiple factors, the goal of achieving consistent product quality is always a great challenge for pharmaceutical scientists. This volume addresses this challenge by using the Quality by Design (QbD) concept, which was instituted to focus on the systematic development of drug products with predefined objectives to provide enhanced product and process understanding. This volume presents and discusses the vital precepts underlying the efficient, effective, and cost effective development of pharmaceutical drug products. It focuses on the adoption of systematic quality principles of pharmaceutical development, which is imperative in achieving continuous improvement in end-product quality and also leads to reducing cost, time, and effort, while meeting regulatory requirements. The volume covers the important new advances in the development of solid oral dosage forms, modified release oral dosage forms, parenteral dosage forms, semisolid dosage forms, transdermal drug, delivery systems, inhalational dosage forms, ocular drug delivery systems, nanopharmaceutical products, and nanoparticles for oral delivery.

Reviews phyto-actives and their targeted action in the management of various cancers Looks at the use of phytochemical-based nano-cosmeceuticals for beautification Explores emerging concepts of vitamins and nanocarriers as nutraceuticals Discusses the advantages of bioactive-loaded nanomedicines over conventional phytotherapies

Pharmaceutical manufacturers are constantly facing quality crises of drug products, leading to an escalating number of product recalls and rejects. Due to the involvement of multiple factors, the goal of achieving consistent product quality is always a great challenge for pharmaceutical scientists. This volume addresses this challenge by using the Quality by Design (QbD) concept, which was instituted to focus on the systematic development of drug products with predefined objectives to provide enhanced product and process understanding. This volume presents and discusses the vital precepts underlying the efficient, effective, and cost effective development of pharmaceutical drug products. It focuses on the adoption of systematic quality principles of pharmaceutical development, which is imperative in achieving continuous improvement in end-product quality and also leads to reducing cost, time, and effort, while meeting regulatory requirements. The volume covers the important new advances in the development of solid oral dosage forms, modified release oral dosage forms, parenteral dosage forms, semisolid dosage forms, transdermal drug, delivery systems, inhalational dosage forms, ocular drug delivery systems, nanopharmaceutical products, and nanoparticles for oral delivery.

This new volume, Nanomedicine for the Treatment of Disease: From Concept to Application, looks at the application of nanomedicines with a particular focus on their use in the treatment of diseases. The chapters in this volume, contributed by eminent scientists, researchers, and nanotechnologists from across the globe, highlight key advancements, challenges, and opportunities in the area of application of nanomedicines for disease treatment. They explore the design and development of therapeutic nanocarriers for targeting drugs for satiating the demands of disease treatment process. The volume explores the use nanomedicines for the diagnosis and treatment of a multitude various diseases and health conditions, including respiratory diseases, neurological disorders, genetic diseases, pulmonary fungal infections, neuroAIDS, cardiovascular disorders, gastric and colonic diseases, skin disorders, cancer, brain tumors, leishmaniasis and other visceral diseases, hypertension, and ocular diseases.

This new volume, Nanomedicine for the Treatment of Disease: From Concept to Application, looks at the application of nanomedicines with a particular focus on their use in the treatment of diseases. The chapters in this volume, contributed by eminent scientists, researchers, and nanotechnologists from across the globe, highlight key advancements, challenges, and opportunities in the area of application of nanomedicines for disease treatment. They explore the design and development of therapeutic nanocarriers for targeting drugs for satiating the demands of disease treatment process. The volume explores the use nanomedicines for the diagnosis and treatment of a multitude various diseases and health conditions, including respiratory diseases, neurological disorders, genetic diseases, pulmonary fungal infections, neuroAIDS, cardiovascular disorders, gastric and colonic diseases, skin disorders, cancer, brain tumors, leishmaniasis and other visceral diseases, hypertension, and ocular diseases.

The nanotheranostics sector provides a very promising strategy for monitoring drug biodistribution and pathology longitudinal processes by integrating the imaging and drug delivery functions in one single nanoformulation, providing vital insights into the identification of tumour and predicting the efficacy of nanomedicine. For its unique properties, which include their small size and biocompatibility and ability to permeate the cellular membrane with carrying drugs, nanomaterials have been used for various biomedical applications. This book covers the progress made in hormone-related cancer and their management by nonmedicinal therapy for targeting the hormone regulated cancer with their clinical progress and clinical hurdles.

Handbook of Analytical Quality by Design addresses the steps involved in analytical method development and validation in an effort to avoid quality crises in later stages. The AQbD approach significantly enhances method performance and robustness which are crucial during inter-laboratory studies and also affect the analytical lifecycle of the developed method. Sections cover sample preparation problems and the usefulness of the QbD concept involving Quality Risk Management (QRM), Design of Experiments (DoE) and Multivariate (MVT) Statistical Approaches to solve by optimizing the developed method, along with validation for different techniques like HPLC, UPLC, UFLC, LC-MS and electrophoresis. This will be an ideal resource for graduate students and professionals working in the pharmaceutical industry, analytical chemistry, regulatory agencies, and those in related academic fields.