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Fluorescence of Living Plant Cells for Phytomedicine Preparations reveals how valuable medicinal compounds can be identified through the application of vital fluorescence in plant cells. The book explains the roles that fluorescent compounds play in plant physiology and promotes our knowledge of plant secretory cells and phytopreparations. Supported by vivid illustrations, the book reveals how actinic light – light that induces fluorescence in leaves and flowers – can be used in the identification of secretory cells within plant tissue that may be the repository of valuable medicinal compounds. The book demonstrates the potential of fluorescence in pharmacological analysis with detailed methods for applying fluorescence to identify these deposits of natural drugs. As such, this groundbreaking book contains methods of express-pharmaceutical analysis that could open new horizons in pharmacy and the cultivation of medicinal plants. Features Describes various fluorescence microscopy techniques for the localization of compounds contained in plants with pharmaceutical interest Provides an analysis of pharmaceutical material based on autofluorescence and histochemical reactions for numerous medicinal plant species Demonstrates practices for providing optimal growing conditions and improving the quality of the compounds Showing the readiness of plant raw material for pharmaceutical industry, this book will appeal to professionals in the pharmaceutical industry and students and researchers in the fields of phytochemistry, botany and pharmaceutical sciences.
A collection of test procedures for assessing the identity, purity, and content of medicinal plant materials, including determination of pesticide residues, arsenic and heavy metals. Intended to assist national laboratories engaged in drug quality control, the manual responds to the growing use of medicinal plants, the special quality problems they pose, and the corresponding need for international guidance on reliable methods for quality control. Recommended procedures - whether involving visual inspection or the use of thin-layer chromatography for the qualitative determination of impurities - should also prove useful to the pharmaceutical industry and pharmacists working with these materials.
Key features: Presents the latest trends and developments of neuromediators in plants Provides in-depth coverage of plants enriched in neurotransmitters (especially serotonin, melatonin, and dopamine) and how they are used in medicine, pharmacy, and food nutrition Discusses the physiological role of the neurotransmitters (biomediators) in non-nervous systems including the analysis of effects on the growth and development and stress defense Covers the occurrence of the substances that act in human and animal nervous system in plants as a phenomenon of the universal irritability feature for biologists Reveals the occurrence and possible physiological functions of biogenic amines in plants, food, and human health New scientific data confirm the origin of neurotransmitters in the ancient ocean, whose inhabitants use the compounds in their relationships. One example is the algae Ulvaria, whose image is represented on the cover. During evolution, plant and microbial cells stored the neurotransmitters that play multifunctional roles today. Researchers have paid special attention to their functions in plants, the oxygen well of our planet. This book provides powerful tools for both analyzing and manipulating organisms, considering the functions of neurotransmitters in plant cells and the practical application of knowledge about acetylcholine, catecholamines, serotonin, melatonin, histamine, gamma-aminobutyric acid and glutamine for ecology, agriculture, medicine and food industries. Neurotransmitters in Plants: Perspectives and Applications presents information on: the location and biosynthesis where neurotransmitters occur the molecular biology of some enzymes participating in the process their role in vivo and in vitro processes their functions in plant environmental adaptation in plants their role in enriching the food and medicinal value of plants.
This richly illustrated reference guide treats the subject of herbal medicines in an integrated fashion with reference to pharmacognosy, pharmacology and toxicology. It will help to enable internists, phytotherapists, physicians, healthcare practitioners as well as students to understand why, when and how herbal medicines can be used in the treatment of diseases. A great deal of pathology and therapeutic information is also included. Numerous tables as well as figures clarify complex mechanisms and other information. The most important medicinal plants and drugs are illustrated with exceptional color plates.
This is the second volume in a series of monographs which are intended to promote information exchange and international harmonised standards for the quality control and use of herbal medicines. It contains scientific information on 30 selected plants, and each entry includes a pharmacopoeial summary for quality assurance purposes, information on its clinical application and sections on contraindications, pharmacology, safety issues, and dosage forms. It provides two cumulative indexes with entries in alphabetical order by plant name and according to the plant material of interest.
This book summarizes information on autofluorescence of plant secretory cells as a phenomenon and the possibilities of the practical use of light emission by cell biologists, biophysists, biochemists, botanists and ecologists.
Global dietary recommendations emphasize the consumption of plant-based foods for the prevention and management of chronic diseases. Plants contain many biologically active compounds referred to as phytochemicals or functional ingredients. These compounds play an important role in human health. Prior to establishing the safety and health benefits of these compounds, they must first be isolated, purified, and their physico-chemical properties established. Once identified, their mechanisms of actions are studied. The chapters are arranged in the order from isolation, purification and identification to in vivo and clinical studies, there by covering not only the analytical procedures used but also their nutraceutical and therapeutic properties.
Evidence-Based Validation of Herbal Medicines: Translational Research on Botanicals brings together current thinking and practice in the characterization and validation of natural products. The book describes different approaches and techniques for evaluating the quality, safety and efficacy of herbal medicine, particularly methods to assess their activity and understand compounds responsible and their probable underlying mechanisms of action. This book brings together the views, expertise and experiences of scientific experts in the field of medicinal plant research, hence it will be useful for researcher who want to know more about the natural lead with their validation and also useful to exploit traditional medicines. - Includes state-of-the-art methods for detecting, isolating and performing structure elucidation by degradation and spectroscopic techniques - Highlights the trends in validation and value addition of herbal medicine with different scientific approaches used in therapeutics - Contains several all-new chapters on topics such as traditional-medicine-inspired drug development to treat emerging viral diseases, medicinal plants in antimicrobial resistance, TLC bio profiling, botanicals as medicinal foods, bioprospecting and bioassay-guided isolation of medicinal plants, immunomodulators from medicinal plants, and more
Phytonanotechnology: Challenges and Prospects consolidates information on the use of phytonanoparticles for biomedical, environmental and agricultural applications, covering recent advances in experimental and theoretical studies on various properties of nanoparticles derived from plant sources. The book deals with various attributes of phytonanoparticles, discussing their current and potential applications. In addition, it explores the development of phytonanoparticles, synthesis techniques, characterization techniques, environmental remediation applications, anti-microbial properties, miscellaneous applications, and multi-functional applications. Risks associated with nanoparticles are also discussed. This book is an important reference for materials scientists, engineers, environmental scientists, food scientists and biomedical scientists who want to learn more about the applications of nanoparticles derived from plant sources. - Explores synthesis methods of phytonanoparticles from a variety of plant groups - Discusses the major biological reactions of phytonanoparticles - Outlines the major opportunities and challenges of using phytonanoparticles in biomedical, environmental and agricultural applications
Vols. for 1963- include as pt. 2 of the Jan. issue: Medical subject headings.