This book provides an update on heterocyclic compounds that serve as key components of anti-cancer agents administered in pre-clinical settings. Many of the compounds highlighted in the book are being actively investigated for the bioactive properties against a range of cancer cell lines. There is potential for heterocyclic compounds to design agents that can target specific molecules to treat different types of cancers. Chapters are contributed by experts in pharmaceutical chemistry and are written to give a general overview of the topic to readers involved in all levels of research and decision-making in pharmaceutical chemistry and anti-cancer drug design. Part II of the book set covers these topics: - Anticancer targets for heterocyclic lead compounds - Coumarin hybrids for cancer treatments - Progress in nitrogen and sulphur-based heterocyclic compounds for their anticancer activity - Imidazole as an anticancer heterocyclic ring - Morpholine for profiling anticancer lead compounds - Natural products as anticancer agents

This reference describes the chemistry of organocalcium compounds that contain a Ca-C σ-bond. It collects the information about this niche group of organometallic compounds into 4 easy-to-read chapters. It is intended for scholars in the field of organic chemistry, and researchers in industrial chemistry and chemical engineering departments. Key features: - Presents a comparison to homologous compounds of other alkaline earth metals. - Explains the main problems encountered in the synthesis of organocalcium compounds with reference to the reactivity of calcium, the low solubility in common solvents and the high reactivity of the formed intermediates and products - Highlights many concepts about the Ca-C bond such as the steric hindrance, degrading agent properties, organocalcium spectroscopy, and more

This reference provides collective information about the physical and photophysical changes of supramolecules after encapsulation. It covers luminescent systems involving a range of host molecules such as calixarenes, cyclodextrin, resorcinanene-crowns, pillararenes, cucurbituril, and metallacycles. Chapters also discuss the effect of the macrocyclic environment on the properties of functionalized molecules, including the variations in folding and unfolding patterns. Each chapter is supplemented with detailed references, making this an ideal resource for scholars interested in supramolecular photophysics.

Advances in Organic Synthesis is a book series devoted to the latest advances in synthetic approaches towards challenging structures. The series presents comprehensive reviews written by eminent authorities on different synthetic approaches to selected target molecules and new methods developed to achieve specific synthetic transformations or optimal product yields. Advances in Organic Synthesis is essential for all organic chemists in academia and the industry who wish to keep abreast of rapid and important developments in the field. Contents of this volume include these 6 reviews: - Multicomponent synthesis of heterocycles by microwave irradiation - Stereoselective procedures for the synthesis of olefines - Advanced microwave assisted organic synthesis method in organic chemistry - Five and six-membered n-heterocycle rings from diaminomaleonitrile - Peptidomimetics: current and future perspectives on hiv protease inhibitors - A review on synthesis, chemistry, and medicinal properties of benzothiazines and their related scaffolds

This book provides an update on heterocyclic compounds that serve as key components of anti-cancer agents administered in pre-clinical settings. Many of the compounds highlighted in the book are being actively investigated for the bioactive properties against a range of cancer cell lines. There is potential for heterocyclic compounds to design agents that can target specific molecules to treat different types of cancers. Chapters are contributed by experts in pharmaceutical chemistry and are written to give a general overview of the topic to readers involved in all levels of research and decision-making in pharmaceutical chemistry and anti-cancer drug design. Part 1 of the book set covers these topics: - Heterocyclic anticancer compounds derived from natural sources with their mechanism of action - The role of terpenoids as anticancer compounds: an insight into prevention and treatment - Recent advances in synthesis and anticancer activity of benzothiazole hybrids as anticancer agents - Structure-activity relationship studies of novel hybrid quinoline and quinolone derivatives as anticancer agents - Tetrazoles: structure and activity relationship as anticancer agents - Progress in nitrogen and oxygen-based heterocyclic compounds for their anticancer activity: an update (2017-2020)

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?

Frontiers in Natural Product Chemistry is a book series devoted to important advances in natural product chemistry. The series features volumes that cover all aspects of research in the chemistry and biochemistry of naturally occurring compounds, including research on natural substances derived from plants, microbes and animals. Reviews of structure elucidation, biological activity, organic and experimental synthesis of natural products as well as developments of new methods are also included in the series. Volume 10 of the series brings together 5 reviews on a variety of bioactive compounds. · An overview of cistus species growing in Sardinia: a source of bioactive compounds · Roles of natural abscisic acids in fruits during fruit development and under environmental stress · Progress in the research of naturally occurring biflavonoids: a look through · Plant metabolites for protecting human cells against radiation-associated damage: an integrative review · Chemical perspective and drawbacks in flavonoid estimation assays

The Chemistry inside Spices and Herbs: Research and Development brings comprehensive information about the chemistry of spices and herbs with a focus on recent research in this field. The book is an extensive 2-part collection of 20 chapters contributed by experts in phytochemistry with the aim to give the reader deep knowledge about phytochemical constituents in herbal plants and their benefits. The contents include reviews on the biochemistry and biotechnology of spices and herbs, herbal medicines, biologically active compounds and their role in therapeutics among other topics. Chapters which highlight natural drugs and their role in different diseases and special plants of clinical significance are also included. Part II continues from the previous part with chapters on the treatment of skin diseases and oral problems. This part focuses on clinically important herbs such as turmeric, fenugreek, ashwagandha (Indian winter cherry), basil, Terminalia chebula (black myrobalan). In terms of phytochemicals, this part presents chapters that cover resveratrol, piperine and circumin.

This textbook summarizes preliminary knowledge of bioactive molecules which serve as pharmaceuticals, their use, synthesis and mode of action, as well as the production of commercial constituents such as ethanol, citric acid, antibiotics, amino acid, and vitamins. The text is written mainly for the undergraduate and graduate levels of study of all Indian universities according to the recently implemented CBCS curriculum in a simple manner while keeping postgraduate course structures in view. Key Features: Simple structured layout suitable for learners - Considers the CBCS curriculum for Indian Institutions - Covers the subject in 2 parts (Part A: Pharmaceutical Chemistry, Part B: Production) - Covers several types of pharmaceuticals used in clinical practice - Covers the fermentation process and the production of antibiotics, pharmaceutical commodities, and nutrients - Includes an appendix for handy information