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By choosing an approach that avoids undue emphasis on the mathematics involved, this text gives practical advice on topics such as growing crystals, solving and refining structures, and understanding and using the results.
X-ray crystallography. --- Crystals --- Structure.
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Arthritis in Black and White, by Anne C. Brower, MD and Donald J. Flemming, MD, provides you with a concise, practical introduction to the radiographic diagnosis of arthritic disorders. Completely revised, this popular, easy-to-read resource contains high-quality digital radiographs with correlating MRIs throughout and a practical organization that aids in your recognition, diagnosis, and treatment of common arthritides. In print and online at www.expertconsult.com, it is perfect for residents in training and experienced radiologists wishing to refresh their knowledge.
Arthritis --- Radiography. --- Radiography --- diagnostic imaging --- physiopathology --- Skiagraphy --- X-ray photography --- Photography --- Radiology --- X-rays --- Arthritides --- Joints --- Inflammation --- Scientific applications --- Diseases --- Diagnostic X-Ray --- Diagnostic X-Ray Radiology --- X-Ray Radiology, Diagnostic --- Radiology, Diagnostic X-Ray --- Roentgenography --- X-Ray, Diagnostic --- Diagnostic X Ray --- Diagnostic X Ray Radiology --- Diagnostic X-Rays --- Radiology, Diagnostic X Ray --- X Ray Radiology, Diagnostic --- X Ray, Diagnostic --- X-Rays, Diagnostic --- Physiopathology.
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X-ray astronomy --- X-ray spectroscopy --- Emission spectroscopy, X-ray --- Energy dispersive x-ray spectroscopy --- Excitation analysis, Fluorescent --- Fluorescence analysis, X-ray --- Fluorescent excitation analysis --- Fluorescent x-ray spectroscopy --- X-ray emission spectroscopy --- X-ray fluorescence analysis --- Spectrum analysis --- Astronomy --- Space astronomy --- X-rays --- XEUS (Spacecraft) --- X-ray Evolving Universe Spectroscopy (Spacecraft) --- XES (X-ray emission spectroscopy)
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Radiography. --- Radiography, Medical --- -Medical radiography --- Diagnostic imaging --- Medical photography --- Medical radiology --- Radiography --- Diagnostic X-Ray --- Diagnostic X-Ray Radiology --- X-Ray Radiology, Diagnostic --- Radiology, Diagnostic X-Ray --- Roentgenography --- X-Ray, Diagnostic --- Diagnostic X Ray --- Diagnostic X Ray Radiology --- Diagnostic X-Rays --- Radiology, Diagnostic X Ray --- X Ray Radiology, Diagnostic --- X Ray, Diagnostic --- X-Rays, Diagnostic --- Atlases --- -Atlases
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Radiography. --- Diagnostic X-Ray --- Diagnostic X-Ray Radiology --- X-Ray Radiology, Diagnostic --- Radiology, Diagnostic X-Ray --- Roentgenography --- X-Ray, Diagnostic --- Diagnostic X Ray --- Diagnostic X Ray Radiology --- Diagnostic X-Rays --- Radiology, Diagnostic X Ray --- X Ray Radiology, Diagnostic --- X Ray, Diagnostic --- X-Rays, Diagnostic --- Radiography
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Spine-related pain is the world's leading disabling condition, affecting every population and a frequent reason for seeking medical consultation and obtaining imaging studies. Numerous spinal phenotypes (observations/traits) and their respective measurements performed on various spine imaging have been shown to directly correlate and predict clinical outcomes. Atlas of Spinal Imaging: Phenotypes, Measurements and Classification Systems is a comprehensive visual resource that highlights various spinal phenotypes on imaging, describes their clinical and pathophysiological relevance, and discusses and illustrates their respective measurement techniques and classifications. Complies the knowledge and expertise of Dr. Dino Samartzis, the preeminent global authority on spinal phenotypes who has discovered and proposed new phenotypes and classification schemes; Dr. Howard S. An, a leading expert in patient management and at the forefront of 3D imaging of various spinal phenotypes; and Dr. Philip Louie, a young surgeon who is involved in one of the largest machine learning initiatives of spinal phenotyping. *Includes a Foreword by renowed spine surgeons Alexander Vaccaro and Max Aebi* Helps readers better understanding spinal phenotypes and their imaging, and how today's knowledge will facilitate new targeted drug discovery, novel diagnostics and biomarker discovery, and outcome predictions. Features step-by-step instructions on performing the radiographic measurements with examples of normal and pathologic images to demonstrate the various presentations. Presents clinical correlation of the phenotypes as well as the radiographic measurements with landmark references. Includes validated classification systems that complement the phenotypes and radiographic measurements. Complies the knowledge and expertise of Dr. Dino Samartzis, the preeminent global authority on spinal phenotypes who has discovered and proposed new phenotypes and classification schemes; Dr. Howard S. An, a leading expert in patient management and at the forefront of 3D imaging of various spinal phenotypes; and Dr. Philip Louie, a prolific surgeon who is involved in one of the largest machine learning initiatives of spinal phenotyping.
Spine --- Diagnostic Imaging --- Radiography. --- Atlas. --- Imaging --- methods. --- diagnostic imaging. --- Backbone --- Columna vertebralis --- Spinal column --- Vertebral column --- Back --- Bones --- Skeleton --- Diagnostic X-Ray --- Diagnostic X-Ray Radiology --- X-Ray Radiology, Diagnostic --- Radiology, Diagnostic X-Ray --- Roentgenography --- X-Ray, Diagnostic --- Diagnostic X Ray --- Diagnostic X Ray Radiology --- Diagnostic X-Rays --- Radiology, Diagnostic X Ray --- X Ray Radiology, Diagnostic --- X Ray, Diagnostic --- X-Rays, Diagnostic
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Volume 7 of Reviews in Mineralogy reviews the essential aspects of pyroxene research. Recently, Deer, Howie and Zussman (DHZ) published a second edition of their volume in the Rock-Forming Minerals series, Single-Chain Silicates, Vol. 2A (John Wiley, New York, 1978). The present volume is intended to be complementary to DHZ and to provide material covered lightly or not at all in DHZ, such as electron microscopy, spectroscopy, and detailed thermodynamic treatments. However, because the range of pyroxene research has grown so much in recent years, there still are important areas not covered comprehensively in either of these volumes. Some of these areas are kinetics, diffusion, crystal defects, deformation, and nonsilicate pyroxene crystal chemistry. Because of these omissions and because this volume is intended for use with the MSA Short Course on Pyroxenes to be held at Emory University in conjunction with the November, 1980 meeting of the Society, a Symposium on Pyroxenes was organized by J. Stephen Huebner for the meeting that is designed to present the latest research results on several different topics, including those above. With DHZ, this volume, and publications from the Symposium, the student of pyroxenes should be well-equipped to advance our knowledge of pyroxenes in the decades ahead.
Mineralogy --- Physical geology --- Crystallography --- Minerals --- Pyroxene. --- 548.73 --- 548.73 X-ray analysis (Roentgen radiography) of crystals. X-ray investigation of properties. X-ray structure --- X-ray analysis (Roentgen radiography) of crystals. X-ray investigation of properties. X-ray structure
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About the authors -- Index. X-ray fluorescence (XRF) spectrometry is a nondestructive elemental analysis technique utilized in many industrial and research settings. Developments in instrument components and design have allowed applications of XRF spectrometry to expand beyond the laboratory and into field settings such as museums and archaeological excavation sites. This book serves as a practical guide for the application of XRF spectrometry to the study and understanding of archaeology. Early chapters serve as both an introduction to XRF theory and instrumentation as well as an introduction to field applications and practical aspects of archaeology and conservation. These early chapters thus provide those new to XRF and/or new to field archaeology a solid foundation on which to base further study. Based on recent trends within field archaeology, information specific to portable instrumentation also is included in early chapters in addition to a later separate chapter devoted to data collection in the field including both field labs and archaeological sites. The chapter devoted to data discusses qualitative and quantitative approaches, applications of various statistical methods to XRF data, and then relates these data types and statistical methods back to the types of archaeological questions that are possible to answer through XRF analysis. With statistics playing an ever-increasing role in data evaluation, new and experienced users of XRF spectrometry will find the statistics overview particularly helpful in expanding how data can be interpreted and presented. The book concludes with individual chapters devoted to specific archaeological sample types including pigments, ceramics, glass, construction materials, and metallurgical materials. Each of these material-specific chapters includes a section relating that material type back to the archaeology itself. Numerous examples, figures, and spectra are provided within these chapters.
X-ray spectroscopy in archaeology. --- X-Ray spectroscopy --- Radiography in archaeology --- Archaeology --- Data processing --- X-ray spectroscopy. --- Methodology
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X-ray spectroscopy --- Emission spectroscopy, X-ray --- Energy dispersive x-ray spectroscopy --- Excitation analysis, Fluorescent --- Fluorescence analysis, X-ray --- Fluorescent excitation analysis --- Fluorescent x-ray spectroscopy --- X-ray emission spectroscopy --- X-ray fluorescence analysis --- Spectrum analysis --- X-ray spectroscopy. --- Radiation. --- Spectrum analysis. --- Radiation --- Spectrum Analysis --- Analysis, Spectrum --- Spectrometry --- Spectroscopy --- Radiations --- Radiation Dose Hypofractionation --- Spectrum Analysis. --- Spectroscopie de rayons X --- XES (X-ray emission spectroscopy)
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