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The Retina: A Model for Cell Biology Studies, Part I, is the first of a two-part series that details developments in the study of retinal cell biology. The book begins with some basic information about retinal structure and development followed by a discussion of the advantages of the retina as a model system for cell biology studies. It reviews some of the major events in the maturation of the retina pertinent to the assembly of neuronal circuits. The book describes studies of neuronal assembly in order to demonstrate that adhesion-based neuronal assembly may be the most elaborated example of a wider class of morphogenetic phenomena categorized as ""adhesion-guided multicellular assembly"" systems. The remaining chapters discuss in vivo and in vitro studies on trophic interactions in retinal development and in retinal degenerations; cell motility in the retina; molecular properties of vertebrate rod cells; the role of cyclic nucleotides in the metabolism and function of the retina; and the cellular and molecular aspects of photosensitive membrane turnover.
The Retina: A Model for Cell Biology Studies, Part II, is the second of a two-part series that details developments in the study of retinal cell biology. The book begins with a review of the current evidence for the role of putative neurotransmitters at particular synapses in the retina. It then discusses pre- and postsynaptic regulatory mechanisms; the interactions of neurotransmitter-neuromodulatory systems; and cellular effects of putative neurotransmitters and neuromodulators. This is followed by an introduction to vision psychophysics, showing its application in studying the functioning of cells in the retina. The remaining chapters discuss how the retinal pigment epithelium cell might be used as a model for studying biological problems of current interest; extracellular matrix molecules; concepts and controversies regarding the biology of endothelial cells, the key elements in the phenomenon of intraocular neovascularization; the use of genetic mutations and genetic mosaics for the study of the retina; and the retina as a regenerating organ.
The long-awaited second edition of an authoritative reference on electrophysiologic vision testing, including detailed information on techniques and problems, basic physiology and anatomy, theoretical concepts, and clinical findings; with extensive new material. This authoritative text is the only comprehensive reference available on electrophysiologic vision testing, offering both practical information on techniques and problems as well as basic physiology and anatomy, theoretical concepts, and clinical correlations. The second edition, of the widely used text, offers extensive new material and updated information: 65 of the 84 chapters are completely new, with the changes reflecting recent advances in the field. The book will continue to be an essential resource for practitioners and scholars from a range of disciplines within vision science. The contributions not only cover new information—important material that is likely to become more important in the next decade—but also offer a long-range perspective on the field and its remarkable development in the last century. After discussing the history and background of clinical electrophysiology, the book introduces the anatomy of the retina and principles of cell biology in the visual pathways at the molecular, physiological, and biochemical levels. It relates these new findings to the techniques and interpretations of clinical tests, including the electro-oculogram (EOG), electroretinogram (ERG), and visual evoked potentials (VEP), which are discussed in detail, as are equipment, data acquisition and analysis, principles and protocols for clinical testing, diseases and dysfunction, and animal testing. Notable additions for this edition include chapters on the origin of electroretinogram waveforms, multifocal techniques, testing in standard laboratory animals, recent advances in analysis of abnormalities in disease, and the applications of these techniques to the study of genetic abnormalities.
This book deals with the cellular biology, biochemistry and physiology of photoreceptors and their interactions with the second-order neurons, bipolar and horizontal cells. The focus is upon the contributions made by these neurons to vision. Thus the basic neurobiology of the outer retina is related to the visual process, and visual defects that could arise from abnormalities in this part of the retina are highlighted in the first 16 chapters. Since all vertebrate retinas have the same basic structure and physiological plan, examples are given from a variety of species, with an emphasis upon mammals, extending to human vision. The last four chapters approach the problem from the other end. This part of the book covers a range of clinical conditions involving visual abnormalities that are due to cellular defects in the outer retina. Although the contents of this book do not represent the proceedings of a conference, the concept arose at an international symposium on 'Recent Advances in Retinal Research' which was held at the International Marine Centre in Oristano, Sardinia. We hope that the book will give a coherent, up to date review of the neurobiology and clinical aspects of the outer retina and encourage further integration of these areas. Retinal neurobiology has been an intense field of investigation for several decades. More recently, it has seen significant advances with the application of modern techniques of cell and molecular biology.
My first introduction to the eye came more than three decades ago when my close friend and mentor, the late Professor Isaac C. Michaelson, convinced me that studying the biochemistry of ocular tissues would be a rewarding pursuit. I hastened to explain that I knew nothing about the subject, since relatively few basic biochemical studies on ocular tissues had appeared in the world literature. Professor Michaelson assured me, however, that two books on eye biochemistry had already been written. One of them, a beautiful monograph by Arlington Krause ( 1934) of Johns Hopkins Hospital, is we II worth reading even today for its historical perspective. The other, published 22 years later, was written by Antoinette Pirie and Ruth van Heyningen ( 1956), whose pioneering achievements in eye biochemistry at the Nuffield Laboratory of Ophthalmology in Oxford, England are known throughout the eye research community and beyond. To their credit are classical investigations on retinal, corneal, and lens biochemistry, beginning in the 1940s and continuing for many decades thereafter. Their important book written in 1956 on the Biochemistry of the Eye is a volume that stood out as a landmark in this field for many years. In recent years, however, a spectacular amount of new information has been gener ated in ocular biochemistry. Moreover, there is increasing specialization among investiga tors in either a specific field of biochemistry or a particular ocular tissue.
Development and Organization of the Retina offers an invaluable survey of contemporary research issues and methods dealing with the retina and retinal projections. The book's 19 chapters report on investigations into two areas: research into the organization of the mature retina and work on developmental issues. A sampling of chapter topics includes -- embryonic patterning of cone subtypes in the mammalian retina -- synaptic transmission between retinal neurons -- scaling the retina, macro and micro -- retinal ganglion cell axonal transport, and more.