This detailed volume includes a rich variety of applications using various instrumentations, probes, disease models, and targets in order to account for the multidisciplinary nature of the use of in vivo fluorescence imagine. The book also includes chapters on the emerging fields of cell tracking, image-guided treatment, and fluorescence imaging in the second NIR window, as well as protocols for evaluation methods before and after in vivo imaging. Written for the highly successful Methods in Molecular Biology series, chapters include brief introductions to their respective topics, lists of the necessary materials and reagents, step-by-step readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, In Vivo Fluorescence Imaging: Methods and Protocols serves as a valuable reference for researchers from numerous fields who wish to become more familiar with in vivo fluorescence imaging techniques.

The FRCR examination was recently changed and now comprises two modules: physics and radiological anatomy. The anatomy module is new, and consists of 20 radiological images, with 5 questions on each image, 100 questions in all. The anatomy examination lasts for 75 minutes and incorporates 20 separate images (cases) with 5 questions per case, producing a total of 100 questions. The cases will be presented at computer work-stations, with separate written answer sheets for completion. In this book we present 5 complete `mock' anatomy examinations, with a total of 500 questions. We have stayed true to the lay out of the RCR sample questions and answer sheets to ensure familiarity. The anatomical structures should not be ambiguous and, if necessary, there will be more than one arrow to indicate the appropriate structure (a concept that has been included in some of the example questions in this book). As a rule, the candidate should make an attempt to answer ALL questions in the exam as there is no negative marking. It is advised that answers be as complete as possible, for instance the use of `left' or `right' if this can be derived from the image, or rather than simply stating `acromion', use the `acromion process of the scapula' - if you have the knowledge, use it! This book should not be used as a primary revision tool, rather a practice aid to test the candidate against the clock in exam conditions and highlight any areas of weakness or imaging examinations that the candidate may be unfamiliar with. Primary revision is suggested by using traditional anatomy alongside radiology-based anatomy textbooks. It is also necessary to experience everyday radiological investigations, and even more specialist investigations, as essentially any type of radiological image can be used for assessment of anatomical knowledge in this examination. The authors provide explanatory answers, and have also included extra images to accompany their explanations. In addition there are references to key revision resources, and they have also given advice on exam technique. They have first hand experience of running courses on the new format FRCR anatomy exam, and are therefore the perfect authors for the subject. Key Points 100% relevant to the new format Authors run FRCR Part 1 courses 500 questions

Unraveling the functional properties of structural elements in the brain is one of the fundamental goals of neuroscientific research. In the cerebral cortex this is no mean feat, since cortical areas are defined microstructurally in post-mortem brains but functionally in living brains with electrophysiological or neuroimaging techniques - and cortical areas vary in their topographical properties across individual brains. Being able to map both microstructure and function in the same brains noninvasively in vivo would represent a huge leap forward. In recent years, high-field magnetic resonance imaging (MRI) technologies with spatial resolution below 0.5 mm have set the stage for this by detecting structural differences within the human cerebral cortex, beyond the Stria of Gennari. This provides the basis for an in vivo microanatomical brain map, with the enormous potential to make direct correlations between microstructure and function in living human brains. This book starts with Brodmann's post-mortem map published in the early 20th century, moves on to the almost forgotten microstructural maps of von Economo and Koskinas and the Vogt-Vogt school, sheds some light on more recent approaches that aim at mapping cortical areas noninvasively in living human brains, and culminates with the concept of "in vivo Brodmann mapping" using high-field MRI, which was introduced in the early 21st century.

This book reviews and discusses the development of self-assembled nanomaterials applied in biomedical fields. Based on self-assembled nanomaterial constructions, it highlights the mechanisms of the stimuli-response-induced assembly/disassembly and transformation. Moreover, it examines healthcare-related diseases, the applications of nanomaterials and therapy/detection strategies, providing readers with both a deeper understanding of the subject and inspirations for future research. The book is primarily intended for researchers and graduate students in the fields of material sciences and chemistry who wish to learn about the principles, methods, mechanisms and biomedical applications of self-assembled nanomaterials.

One of the main causes of failure in the treatment of breast cancer is the intrinsic presence of, or development of, drug resistance by the cancer cells. Recent studies on the mechanisms of cancer drug resistance have yielded important information highlighting both how tumour cells may escape these therapeutic constraints and that drug resistance may further impinge on tumour cell functions that may ultimately promote an adverse cell phenotype. New targets have been identified with potential therapeutic applications in resistant breast cancer leading to the subsequent evaluation of inhibitors of these targets in preclinical studies. Importantly, there is increasing evidence from such studies demonstrating the benefit of novel combination strategies as potential avenues for future drug regimens.

Written by experts in the subject area, this book covers the molecular details and functional consequences of endocrine resistance in breast cancer with particular emphasis on the future applications of novel drug combinations that may be utilized to circumvent resistance and improve anti-tumour effects. This book represents a timely publication in the field of breast cancer research, providing current knowledge in the area of drug resistance and will be important reading material for clinicians and researchers alike.

Breast Imaging presents a comprehensive review of the subject matter commonly encountered by practicing radiologists and radiology residents in training. This volume includes succinct overviews of breast cancer epidemiology, screening, staging, and treatment; overviews of all imaging modalities including mammography, tomosynthesis, ultrasound, and MRI; step-by-step approaches for image-guided breast interventions; and high-yield chapters organized by specific imaging finding seen on mammography, tomosynthesis, ultrasound, and MRI. Part of the Rotations in Radiology series, this book offers a guided approach to breast imaging interpretation and techniques, highlighting the nuances necessary to arrive at the best diagnosis and management. Each chapter contains a targeted discussion of an imaging finding which reviews the anatomy and physiology, distinguishing features, imaging techniques, differential diagnosis, clinical issues, key points, and further reading. Breast Imaging is a must-read for residents and practicing radiologists seeking a foundation for the essential knowledge base in breast imaging.

"Bioluminescent Imaging: Methods and Protocols" distills a wide range of techniques that use bioluminescence imaging as a tool for visualizing and tracking various biological processes. Covering diverse fields such as cellular and molecular biology, oncology, neurology, infectious diseases, immunology, and others, the detailed chapters of this volume are arranged by topic and describe practical procedures and applications of different bioluminescent reporters, from photoproteins (Aequorin) to bacterial luciferases as well as other secreted (such as Gaussia) and non-secreted luciferases (such as Firefly). Written in the highly successful "Methods in Molecular Biology" series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and expert tips for troubleshooting and avoiding known pitfalls.

Authoritative and cutting-edge, "Bioluminescent Imaging: Methods and Protocols" aims to provide diverse and comprehensive techniques to researchers interested in implementing bioluminescence-based imaging in their laboratory, regardless of their previous level of experience with such methodologies.

Epilepsy surgery is defined as any neurosurgical intervention whose pri- mary objective is to relieve medically intractable epilepsy (European Fed- eration of Neurological Societies Task Force 2000). The aim of epilepsy surgery is to reduce the number and intensity of seizures, minimise neuro- logical morbidity and antiepileptic drug (AED) toxicity, and improve quality of life. By definition, epilepsy surgery does not include normal surgical treatment of intracranial lesions where the primary goal is to di- agnose and possibly remove the pathological target, often an advancing tumour. In these patients, epileptic seizures are only one symptom of the lesion and will be treated concomitantly as part of the procedure. Temporal lobe epilepsy (TLE) is recognised as the most common type of refractory, focal epilepsy. In one third of all cases the neuronal systems responsible for the seizures that characterise this form of epilepsy fail to respond to currently available AEDs (Andermann F 2002). New imaging methods, especially magnetic resonance imaging (MRI), identify localising abnormalities in an increasing proportion of patients with intractable focal epilepsy. Consequently, the accuracy of the preoperative diagnostic pro- cedures has been significantly improved during the last decade; and suit- able candidates for surgery can be selected more reliably. Currently the main resources in most epilepsy surgery centres have been used to evaluate candidates for TLE surgery.

Although radiation accidents are rare and often complex in nature, they are of great concern not only to the patient and involved medical staff, but to the media and public as well. Yet there are few if any comprehensive publications on the medical management of radiation accidents. Medical Management of Radiation Accidents provides a complete reference for those concerned with radiation accidents nationally as well as abroad.

Substantially different from the first edition, which dealt predominantly with radiation accident experiences in the United States, this updated and revised Second Edition represents an international cooperative effort that reflects current international approaches and experiences related to the medical management of radiation accidents. It is organized into areas that include:

o the fundamental aspects, medical characteristics, and classification of radiation accidents
o aspects of radiation on the entire body and specific tissues
o the history of accidents throughout the world
o a general overview of certain types of accidents with specific examples
o a follow-up of persons accidentally exposed to radiation with considerations related to epidemiological studies and a few selected examples
o radiation protection and dosimetry issues, psychological considerations, and accidental exposure of pregnant females.

The majority of this text is a Russian-United States effort; however, it includes work from authors from Austria, Brazil, Canada, China, France, Japan, and Peru.

The International Commission on Radiological Protection and the Euratom Council directive have specified that workers exposed to ionizing radiation shall be subjected to individual dose monitoring. In the past, individual doses have almost always been monitored by film badge dosimeters, but thermoluminescent dosimeters (TLDs) are now coming into widespread use, principally due to the availability of automated readout systems. Techniques and Management of Personnel Thermoluminescence Dosimetry Services gives details of the operation of and experience gained with a number of large-scale TL personnel dosimetry services, with particular attention being paid to the management aspects of such services. For technical and administrative personnel in TLD services, TLD system designers, staff of licensing authorities concerned with dosimetric licensing, students of radiation protection, especially in the area of protection from ionizing radiation. A basic knowledge of atomic and nuclear physics is assumed, and a training in radiation protection or health physics would be an advantage.

The 29th International Symposium on Acoustical Imaging was held in Shonan Village, Kanagawa, Japan, April 15-18, 2007. This interdisciplinary Symposium has been taking place every two years since 1968 and forms a unique forum for advanced research, covering new technologies, developments, methods and theories in all areas of acoustics. In the course of the years the volumes in the Acoustical Imaging Series have developed and become well-known and appreciated reference works.

Offering both a broad perspective on the state-of-the-art in the field as well as an in-depth look at its leading edge research, this Volume 29 in the Series contains again an excellent collection of seventy papers presented in nine major categories: (1) Strain Imaging, (2) Biological and Medical Applications, (3) Acoustic Microscopy, (4) Non-Destructive Evaluation and Industrial Applications, (5) Components and Systems, (6) Geophysics and Underwater Imaging, (7) Physics and Mathematics, (8) Medical Image Analysis, (9) FDTD method and Other Numerical Simulations.

This book reviews the frontier of research and clinical applications of Patient Specific Modeling, and provides a state-of-the-art update as well as perspectives on future directions in this exciting field. The book is useful for medical physicists, biomedical engineers and other engineers who are interested in the science and technology aspects of Patient Specific Modeling, as well as for radiologists and other medical specialists who wish to be updated about the state of implementation.

Embodying the principle of 'everything you need but still easy to read', this fully updated edition of Core Radiology is an indispensable aid for learning the fundamentals of radiology and preparing for the American Board of Radiology Core exam. Containing over 2,100 clinical radiological images with full explanatory captions and color-coded annotations, streamlined formatting ensures readers can follow discussion points effortlessly. Bullet pointed text concentrates on essential concepts, with text boxes, tables and over 400 color illustrations supporting readers' understanding of complex anatomic topics. Real-world examples are presented for the readers, encompassing the vast majority of entitles likely encountered in board exams and clinical practice. Divided into two volumes, this edition is more manageable whilst remaining comprehensive in its coverage of topics, including expanded pediatric cardiac surgery descriptions, updated brain tumor classifications, and non-invasive vascular imaging. Highly accessible and informative, this is the go-to introductory textbook for radiology residents worldwide.

Edited by Dominique Delbeke and Ora Israel, two leading authorities in the field of nuclear medicine, this practical guide is a reference source of cases for images obtained on state-of-the-art integrated PET/CT and SPECT/CT imaging systems. The cases are presented in-depth so that they will be of value to residents training in nuclear medicine and radiology and to nuclear medicine physicians and radiologists who need to become familiar with this technology. Internationally recognized contributors provide the reader with in-depth coverage on the technical and clinical aspects of hybrid imaging. Principles of hybrid imaging, physics and instrumentation, normal distribution of radiopharmaceuticals and protocols central to the field are covered. A comprehensive review of nuclear oncology cases found in everyday practice, ranging from simple to complex are also addressed. The full spectrum of clinical applications is covered including head and neck tumors, breast cancer, colorectal cancer, pancreatic cancer, and genitourinary tumors. Additional chapters examine cardiac hybrid imaging, benign bone diseases and infection and inflammation. A wealth of illustrations reinforce the key teaching points discussed throughout the book.

Fascinated by X-rays and medical imaging technology? Drawn to work that helps others? PRINCIPLES OF RADIOGRAPHIC IMAGING: AN ART AND A SCIENCE, 6th Edition reveals the inner workings of radiography careers, including radiologist assistants, radiologic technologists, ultrasound techs, CT and MRI techs, and other imaging roles in health care. Some books dump too much on you too fast, but this one moves at your pace, delivering the math and physics behind radiology before advancing to complex subjects. And it's designed around actual job skills like creating the beam, running scans and tests, and analyzing images--so you can pass accreditation exams and work in emergency rooms and hospitals. Reader-friendly yet packed with information, this text offers all you need to know about digital radiography systems, digital exposure factors, instrumentation and so much more!

Recent advances in surgical procedures for the management of focal liver diseases have greatly increased the demand for diagnostic accuracy. So far these demands have been only partially met by further technical developments such as colour coded duplex sonography, spiral CT and marked improvements in magnetic resonance imaging. It is becoming increasingly clear that liver specific contrast media are essential for utilizing these technical developments to their fullest advantage in patient care. Against this background, a workshop was held to explore the current methods of diagnostic imaging of the liver and to try and establish a profile for the future liver specific contrast media. The pathologist's introductory and general overview is followed by chapters on the individual imaging procedures such as ultrasound, CT and MRI, so that each of the three is given the attention it deserves. The book will be of interest to radiologists from the various disciplines, and also those who plan and perform therapies, particularly surgeons and internists.

This book contains a selection of communications presented at the Third International Meeting on Fully Three-Dimensional Image Reconstruction in Radiology and Nuclear Medicine, held 4-6 July 1995 at Domaine d' Aix-Marlioz, Aix-Ies-Bains, France. This nice resort provided an inspiring environment to hold discussions and presentations on new and developing issues. Roentgen discovered X-ray radiation in 1895 and Becquerel found natural radioactivity in 1896 : a hundred years later, this conference was focused on the applications of such radiations to explore the human body. If the physics is now fully understood, 3D imaging techniques based on ionising radiations are still progressing. These techniques include 3D Radiology, 3D X-ray Computed Tomography (3D-CT), Single Photon Emission Computed Tomography (SPECT), Positron Emission Tomography (PET). Radiology is dedicated to morphological imaging, using transmitted radiations from an external X-ray source, and nuclear medicine to functional imaging, using radiations emitted from an internal radioactive tracer. In both cases, new 3D tomographic systems will tend to use 2D detectors in order to improve the radiation detection efficiency. Taking a set of 2D acquisitions around the patient, 3D acquisitions are obtained. Then, fully 3D image reconstruction algorithms are required to recover the 3D image of the body from these projection measurements.

Based on the Lectures given during the Ispra-Course held at the Centro de Formacao Tecnica, Lisbon, Portugal, October 23-27, 1989, in collaboration with the Laboratorio Nacional de Engenharia e Tecnologia

Since 1968, the International Acoustical Imaging Symposium has provided a unique forum for advanced research, promoting the sharing of technology, developments, methods and theory among all areas of acoustics. Volume 28 of the Proceedings offers an excellent collection of papers presented in six major categories, offering both a broad perspective on the state of the art in the field as well as an in-depth look at its leading edge research.

This issue of Radiologic Clinics focuses on Advanced Neuroimaging in Brain Tumors and is edited by Dr. Sangam Kanekar. Articles will include: Imaging findings of new entities and patterns in brain tumor: IDH mutant, IDH wildtype, Codeletion, and MGMT methylation; CT and MR perfusion imaging in neuro-oncology; Application of diffusion weighted imaging (DWI) and diffusion tensor imaging (DTI) in the pre- and post-surgical evaluation of brain tumor; Clinical applications of magnetic resonance spectroscopy (MRS) in of brain tumors: grading and recurrence; Cellular and molecular imaging with PET and SPECT in brain tumors; Role of Functional MRI (fMRI) in the presurgical mapping of brain tumor; Imaging surveillance of gliomas: role of advanced imaging techniques; Neoplastic meningitis and paraneoplastic syndrome-role of imaging; Imaging of neurologic injury following oncologic therapy; RadioGenomics of brain tumor; Imaging mimics of brain tumors; Imaging of tumor syndromes; and more!

This volume addresses up-to-date light microscopy approaches and toolsets offered for live- or fixed-cell observations. The imaging strategies discussed in this book include confocal laser scanning and spinning disk confocal microscopy, FRET, FRAP, and laser microsurgery experiments. Chapters also describe the use of these imaging methodologies to study properties of a multitude of biomolecular targets in a broad range of model systems ranging from bacteria over tissue to whole animal imaging. Light Microscopy: Methods and Protocols puts special focus on system instrumentation parameters and sophisticated labeling and detection methods. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Cutting-edge and thorough, Light Microscopy: Methods and Protocols offers the novice user with straightforward strategies to address biological questions, while providing the experienced researcher with the latest applications that can be useful in routine practices. This book also serves as a useful teaching manual in practical courses on light microscopy.

In the past few decades, Magnetic Resonance Imaging (MRI) has become an indispensable tool in modern medicine, with MRI systems now available at every major hospital in the developed world. But for all its utility and prevalence, it is much less commonly understood and less readily explained than other common medical imaging techniques. Unlike optical, ultrasonic, X-ray (including CT), and nuclear medicine-based imaging, MRI does not rely primarily on simple transmission and/or reflection of energy, and the highest achievable resolution in MRI is orders of magnitude smaller that the smallest wavelength involved. In this book, MRI will be explained with emphasis on the magnetic fields required, their generation, their concomitant electric fields, the various interactions of all these fields with the subject being imaged, and the implications of these interactions to image quality and patient safety. Classical electromagnetics will be used to describe aspects from the fundamental phenomenon of nuclear precession through signal detection and MRI safety. Simple explanations and Illustrations combined with pertinent equations are designed to help the reader rapidly gain a fundamental understanding and an appreciation of this technology as it is used today, as well as ongoing advances that will increase its value in the future. Numerous references are included to facilitate further study with an emphasis on areas most directly related to electromagnetics.

Immunoassay procedures (isotopic and non-isotopic) have become one of the single most important techniques in present-day diagnostic medicine. This book is designed as an introductory test for the staff of clinical research laboratories who conduct or intend to conduct such techniques, and will be of great value to the clinicians who make use of such services. The volume takes a three-pronged approach in it's in-depth presentation: explanation of the basic principles and applications of radioimmunoassays and non-isotopic immunoassays; practical illustrations of the various steps involved in immunoassays; discussion of the problems and pitfalls in immunoassays and how to avoid them. This fifth revised edition is a worthy successor to it's predecessors in this famous "Laboratory Techniques" series.

The advent of X-ray Computed Tomography (CT) as a tool for the soil sciences almost 40 years ago has revolutionised the field. Soil is the fragile, thin layer of material that exists above earth's geological substrates upon which so much of life on earth depends. However a major limitation to our understanding of how soils behave and function is due to its complex, opaque structure that hinders our ability to assess its porous architecture without disturbance. X-ray imagery has facilitated the ability to truly observe soil as it exists in three dimensions and across contrasting spatial and temporal scales in the field in an undisturbed fashion. This book gives a comprehensive overview of the "state of the art" in a variety of application areas where this type of imaging is used, including soil water physics and hydrology, agronomic management of soils, and soil-plant-microbe interactions. It provides the necessary details for entry level readers in the crucial areas of sample preparation, scanner optimisation and image processing and analysis. Drawing on experts across the globe, from both academia and industry, the book covers the necessary "dos and don'ts", but also offers insights into the future of both technology and science. The wider application of the book is provided by dedicated chapters on how the data from such imagery can be incorporated into models and how the technology can be interfaced with other relevant technical applications. The book ends with a future outlook from the four editors, each of whom has over 20 years of experience in the application of X-ray CT to soil science.