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Cephalopod Neurobiology
Cephalopods (octopus, squid, cuttlefish) are among the most intelligent invertebrates, with highly developed nervous systems which provide excellent model systems for investigating basic questions in neuroscience. Within the last five years, many of the powerful techniques of molecular biology and electrophysiology have been applied to cephalopods, with exciting results. In 32 chapters, this book provides a comprehensive overview of the functioning of the cephalopod nervous system, from the cellular level to their complex sensory systems, locomotion, learning, and social behavior. It will be of interest to both vertebrate and invertebrate neurobiologists, and by anyone interested in the basic principles that control neural function.
Blood-Brain Barriers
This is the first handbook to integrate developmental and cellular aspects combining the different structural and functional features involved in the regulation of brain perfusion and neuronal function. It highlights pharmacological and biomedical applications with sections on drug delivery and disease-related states as well as explaining in detail the role of astrocytes, shown to be an essential link between neurons and cerebral blood vessels. In addition the book studies how the structural elements interact in response to the dynamics of neuronal activities, necessitating adaptive mechanism of the interface. A significant part of the book describes new approaches to how the barrier can be surmised for drug delivery and how it can be mimicked by artificial in vitro systems for drug testing. Finally, the involvement of the barrier in brain diseases is considered, focusing on inflammatory and neurodegenerative disorders of the brain. Covering basic knowledge as well as specific information dealing with very recent progress in blood-brain interface research, this book is of interest to neurobiologists, neurologists, biochemists, and pharmacologists.
Blood-Brain Barrier in Drug Discovery
Focused on central nervous system (CNS) drug discovery efforts, this book educates drug researchers about the blood-brain barrier (BBB) so they can affect important improvements in one of the most significant – and most challenging – areas of drug discovery. • Written by world experts to provide practical solutions to increase brain penetration or minimize CNS side-effects • Reviews state-of-the-art in silico, in vitro, and in vivo tools to assess brain penetration and advanced CNS drug delivery strategies • Covers BBB physiology, medicinal chemistry design principles, free drug hypothesis for the BBB, and transport mechanisms including passive diffusion, uptake/efflux transporters, and receptor-mediated processes • Highlights the advances in modelling BBB pharmacokinetics and dynamics relationships (PK/PD) and physiologically-based pharmacokinetics (PBPK) • Discusses case studies of successful CNS and non-CNS drugs, lessons learned and paths to the market
Endothelial Cell Culture
The aim of the Handbooks in Practical Animal Cell Biology is to provide practical workbooks for those involved in primary cell culture. Each volume addresses a different cell lineage, and contains an introductory section followed by individual chapters on the culture of specific differentiated cell types. The authors of each chapter are leading researchers in their fields and use their first-hand experience to present reliable techniques in a clear and thorough manner. Endothelial Cell Culture contains chapters on endothelial cells derived from 1) lung, 2) bone marrow, 3) brain, 4) mammary glands, 5) skin, 6) adipose tissue, 7) female reproductive system, and 8) synovium.
Pharmacokinetic Optimization in Drug Research
The optimization of pharmacokinetic properties has become the bottleneck and a major challenge in drug research. There was, hence, an urgent need for a book covering this field in an authoritative, comprehensive, factual, and conceptual manner. In this work of unique breadth and depth, international authorities and practicing experts from academia and industry present the most modern biological, physicochemical, and computational strategies to achieve optimal pharmacokinetic properties in research series. These properties include gastrointestinal absorption, protein binding, brain permeation, and metabolic profile. Toxicological issues are, of course, also of utmost importance. In addition to its 33 chapters, the book includes a CD-ROM containing the invited lectures, oral communications and posters (in full version) presented at the Second LogP Symposium, 'Lipophilicity in Drug Disposition -- Practical and Computational Approaches to Molecular Properties Related to Drug Permeation, Disposition and Metabolism', held at the University of Lausanne in March 2000.n̓.
Pharmacology of the Blood Brain Barrier: Targeting CNS Disorders
This new volume of Advances in Pharmacology presents pharmacology of the blood brain barrier, focusing on targeting CNS disorders. With a variety of chapters and the best authors in the field, the volume is an essential resource for pharmacologists, immunologists and biochemists alike. - Contributions from the best authors in the field - An essential resource for pharmacologists, immunologists, and biochemists
Molecular, Cellular, and Tissue Engineering of the Vascular System
This book introduces the latest research in molecular, cellular, and tissue engineering of the vascular system. Topics covered include the roles of endothelial surface glycocalyx as a mechano-sensor and transducer for blood flow, a barrier to water and solute transport across the vascular wall and to the interaction between circulating cells and the vessel wall, the roles of nuclear envelope proteins and nuclear lamina in regulating vascular functions under blood flow-induced forces, and the roles of smooth muscle cells and extracellular components in arterial vasoconstriction. Other topics covered include non-surgical vascular interventions for coronary artery diseases, genesis and mechanis...
Blood-Brain Barrier
The vasculature of the central nervous system (eNS) is characterized by the existence of the blood-brain barrier (BBB), which can be regarded as both an anatomical and physiological phenomenon. The BBB is formed by a complex cellular system of endothelial cells, astroglia, pericytes, perivascular macrophages and a basal membrane, although the anatomic substrate of the BBB is the interendothelial tight junctions that form a continuous sealing. The BBB serves as an exquisitely controlled, functional gate to the eNS. It not only protects the brain from agents in the blood that could impair neurological function, but also controls the influx and efflux of numerous substances to maintain proper h...
Blood'Brain Barrier
Blood–brain barrier (BBB) breakdown leading to cerebral edema occurs in many brain diseases—such as trauma, stroke, inflammation, infection, and tumors—and is an important factor in the mortality arising from these con- tions. Despite the importance of the BBB in the pathogenesis of these diseases, the molecular mechanisms occurring at the BBB are not completely und- stood. In the last decade a number of molecules have been identified not only in endothelial cells, but also in astrocytes, pericytes, and the perivascular cells that interact with endothelium to maintain cerebral homeostasis. However, the precise cellular interactions at a molecular level in steady states and d- eases hav...
Vascular Mechanisms in CNS Trauma
While there are a number of books on the market that deal with neuronal mechanisms and targets, the proposed book will be the only one to cover the vascular aspects of CNS trauma. The contributing authors will present basic mechanisms, explain cutting-edge experimental models and techniques, and provide several clinical chapters that provide treating physicians with some insight on the cases that they see in the ICU. The table of contents is diverse and comprehensive with chapters on molecular mechanisms, physiology, pharmacology, stem cells, genomics and proteomics, in vivo MRI and PET, as well as the clinical management of vascular parameters.
