Nanomedicine is a rapidly expanding field because of its benefits over conventional drug delivery technology, as it offers site-specific and target-oriented delivery of therapeutic agents. Nanoparticles and Nanocarriers Based Pharmaceutical Preparation presents a structured summary of recent advances and discoveries in nanomedicine and nanocarrier-based drug delivery. The book covers several key topics in a very simple and easy to understand language. Readers will be familiarized with many types of nanocarriers that have been developed over the past decade, the pharmaceutical formulations composed of organic and inorganic materials as well as their clinical benefits. Chapters are written with the help of authoritative sources of knowledge with the goal of building a foundational understanding of novel drug delivery systems. Since the subject matter is interdisciplinary, it will be of interest to students, teachers and researchers in a broad range of fields, including pharmaceutical sciences, nanotechnology, biomedical engineering and material sciences.

This book provides a comprehensive overview of the localized drug delivery system landscape. The 10 chapters provide a detailed introduction in polymers, nanostructures and nanocomposites for developing localized controlled drug delivery systems (LCDDSs) in the form of stimuli-responsive delivery systems, targeted drug delivery systems or the combination of both. A discussion on manufacturing techniques, optimization, challenges and adaptation of LCDDSs for the treatment of a wide range of diseases is also included. This simple and informative resource conveys an understanding about designing novel drug delivery systems to students in advanced pharmacology, biotechnology, materials science and biochemistry study programs. Readers will be equipped with the knowledge of regulating drug release rates to get a desired pharmacological profile, that helps a researcher to ensure a high therapeutic effectiveness. The detailed information about various drug delivery systems and a compilation of recent literature sources also paves the way for research scholars to construct a drug targeting framework for their research plans.

This 2-part reference informs readers about the application of drug delivery technologies to herbal medicines. Chapters cover a broad range of major topics on the subject of targeted drug delivery systems. These topics include the application of drug delivery systems for herbal nanomedicines, drug development issues, emerging technologies, adaptations for clinical use, market prospects and challenges of industrial commercialization. Chapters have been contributed by several experts in pharmaceutical chemistry and blend theoretical knowledge with practical aspects of drug delivery. Part I covers the following topics: - Introduction to nanotechnology and herbal-based nanoparticulate systems - Nucleic acid-based therapeutic drug delivery systems - Herbal bioactives: a booster dose for advanced pharmaceutical nanoscience - Pulmonary nano-drug delivery systems - Application of nano-drug delivery systems in improving the therapeutic efficacy of bioactive natural products - PEGylated liposomes - Insulin liposomes - Aquasomes: a promising novel drug carrier - Nanoparticle-aided herbal drugs: therapeutic implications on cholinergic dysfunction with relevance to Alzheimer's disease - Vitamins based nanomedicine approach - Recent advances in tumor targeting drug delivery systems: fundamentals of advanced pharmaceutical nanoscience - Niosomes: a revolutionary progress in the field of pharmaceutical sciences - Infectious diseases: pharmaceutical nanoscience for targeted drug delivery

This 2-part reference informs readers about the application of drug delivery technologies to herbal medicines. Chapters cover a broad range of major topics on the subject of targeted drug delivery systems. These topics include the application of drug delivery systems for herbal nanomedicines, drug development issues, emerging technologies, adaptations for clinical use, market prospects and challenges of industrial commercialization. Chapters have been contributed by several experts in pharmaceutical chemistry and blend theoretical knowledge with practical aspects of drug delivery. Part II covers the following topics: - Pharmaceutical nanosciences and their application in the delivery of various phytoconstituents - Design of cosmeceutical drug delivery systems: the role of nanotechnology in cosmeceuticals - Transfersomes: a novel vesicular transdermal delivery system - Self-nano/micro emulsified drug delivery systems - Phytosomes - The role of nanomedicines in ocular drug delivery systems - Colloidosomes as an efficient novel drug delivery system: an update - Herbal nanoscience: challenges and regulatory perspectives - Vitamins based nanomedicine approach - Dendrimers: a versatile nanoplatform for advanced targeting and bioactive(s) delivery - Targeted drug delivery systems for cells and cell organelles - Liposomes for herbal drug delivery - AI in pharmacy, herbal medicine and drug delivery: sci-fi or reality?

Osteosarcoma is a rare bone tumor that has a high incidence among children and young adults. Despite recent therapeutic developments, osteosarcoma still presents major hurdles to achieving successful results, mainly due to the presence of multi-drug-resistant cells. This monograph primarily aims to provide information about the basic science behind the treatment of osteosarcoma along with experimental results for a novel formulation that overcomes multidrug resistance, and therefore, may serve as a viable treatment option. The book starts with an updated and concise guide to the pathophysiology of the disease, while also introducing the reader to new therapies and materials (specifically chitosan, polyethyleneimine, poloxamers, poloxamines, and Pluronics®) used in the treatment process along with the aims of the experiments present subsequently. Next, the book documents the materials and methods used in developing polymeric micelles for delivering drugs to osteosarcoma sites. By explaining the basics of nanomedicine as a starting point, readers will understand how polymeric micelles act as facilitators of drug transport to cancer cells, and how one can synthesize a small stable micelle (by creating derivatives of base nanomaterials), capable of actively targeting osteosarcoma cells and overcoming multi-drug resistance. The chapter explains the synthesis and characterization techniques of the materials used to develop polymeric micelles. The results, a reflection of the conjugation of different experimental solutions initiated here, point to a modern route towards the search for a therapeutic solution for osteosarcoma. The simple, structured presentation coupled with relevant information on the subject of micelle-based nanotherapeutic drug delivery make this monograph an essential handbook for pharmaceutical scientists involved in the field of nanomedicine, drug delivery, cancer therapy and any researchers assisting specialists in clinical oncology for the treatment of osteosarcoma.

This text book is a guide for pharmaceutical academics (students and teachers) as well as industry professionals learning about drug delivery and formulation. Chapters presents comprehensive information about self-emulsifying formulations by providing an in-depth understanding of the basic concepts and formulation mechanisms. This information is supplemented by details about current research and development in this field. Readers will learn about the types of self-emulsifying drug delivery systems, evaluation parameters and digestion models, among other topics. </p> Key Features: </p> - 9 chapters organized in a reader-friendly layout </p> - complete guide on self-emulsifying drug delivery formulations, including lipid based systems, SMEDOs, surfactants, and oral dosage forms </p> - includes basic concepts and current developments in research and industrial applications </p> - presents information on conventional and herbal formulations </p> - references for further reading

The development of a vector for the delivery of therapeutic drugs in a controlled and targeted fashion is still a major challenge in the treatment of many diseases. The conventional application of drugs may lead to many limitations including poor distribution, limited effectiveness, lack of selectivity and dose dependent toxicity. An efficient drug delivery system can address these problems. Recent nanotechnology advancements in the biomedical field have the potential to meet these challenges in developing drug delivery systems. Nanomaterials are changing the biomedical platform in terms of disease diagnosis, treatment and prevention. Nanomaterials aided drug delivery provides an advantage by enhancing aqueous solubility that leads to improved bioavailability, increased resistance time in the body, decreased side effects by targeting drugs to the specific location, reduced dose dependent toxicity and protection of drugs from early release. </p> In this two-part book, the contributors have compiled reports of recent studies illustrating the promising nanomaterials that can work as drug carriers which can navigate conventional physiological barriers. A detailed account of several types of nanomaterials including polymeric nanoparticles, liposomes, dendrimers, micelles, carbon nanomaterials, magnetic nanoparticles, solid lipid-based nanoparticles, silica nanomaterials and hydrogels for drug delivery is provided in separate chapters. The contributors also present a discussion on clinical aspects of ongoing research with insights towards future prospects of specific nanotechnologies. </p> Part II covers the following topics: </p> · Solid lipid nanoparticles and nanostructured lipid carriers </p> · Silica based nanomaterials </p> · Hydrogels </p> · Metallic nanoparticles </p> · Computational and experimental binding interactions of drug and β-cyclodextrin </p> · Clinical milestones in nanotherapeutics </p> · Drug delivery systems based on poly(lactide-co-glycolide) and its copolymers </p> The book set is an informative resource for scholars who seek updates in nanomedicine with reference to nanomaterials used in drug delivery systems.

The development of a vector for the delivery of therapeutic drugs in a controlled and targeted fashion is still a major challenge in the treatment of many diseases. The conventional application of drugs may lead to many limitations including poor distribution, limited effectiveness, lack of selectivity and dose dependent toxicity. An efficient drug delivery system can address these problems. Recent nanotechnology advancements in the biomedical field have the potential to meet these challenges in developing drug delivery systems. Nanomaterials are changing the biomedical platform in terms of disease diagnosis, treatment and prevention. Nanomaterials aided drug delivery provides an advantage by enhancing aqueous solubility that leads to improved bioavailability, increased resistance time in the body, decreased side effects by targeting drugs to the specific location, reduced dose dependent toxicity and protection of drugs from early release. In this volume, the contributors have compiled reports of recent studies illustrating the promising nanomaterials that can work as drug carriers, that can navigate conventional physiological barriers. A detailed account of several types of nanomaterials including polymeric nanoparticles, liposomes, dendrimers, micelles, carbon nanomaterials, magnetic nanoparticles, solid lipid-based nanoparticles, silica nanomaterials and hydrogels for drug delivery is provided in separate chapters. The contributors also present a discussion on clinical aspects of ongoing research with insights towards future prospects of specific nanotechnologies. The book is an informative resource for scholars who seek updates in nanomedicine with reference to nanomaterials used in drug delivery systems.