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Atlas of CT Angiography: Normal and Pathologic Findings
Atlas of CT Angiography: Normal and Pathologic Findings
Atlas of CT Angiography: Normal and Pathologic Findings
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Atlas of CT Angiography: Normal and Pathologic Findings

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This atlas presents normal and pathologic findings observed on CT angiography with 3D reconstruction in a diverse range of clinical applications, including the imaging of cerebral, carotid, thoracic, coronary, abdominal and peripheral vessels. The superb illustrations display the excellent anatomic detail obtained with CT angiography and depict the precise location of affected structures and lesion severity. Careful comparisons between normal imaging features and pathologic appearances will assist the reader in image interpretation and treatment planning and the described cases include some very rare pathologies. In addition, the technical principles of the modality are clearly explained and guidance provided on imaging protocols. This atlas will be of value both to those in training and to more experienced practitioners within not only radiology but also cardiovascular surgery, neurosurgery, cardiology and neurology.

LanguageEnglish
PublisherSpringer
Release dateJun 26, 2014
ISBN9783319052847
Atlas of CT Angiography: Normal and Pathologic Findings

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    Atlas of CT Angiography - Gratian Dragoslav Miclaus

    Gratian Dragoslav Miclaus and Horia Ples

    Atlas of CT AngiographyNormal and Pathologic Findings

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    Gratian Dragoslav Miclaus

    Department of Computed Tomography, SCM Neuromed, Timisoara, Romania

    Horia Ples

    Department of Neurosurgery, University of Medicine and Pharmacy Victor Babes, Timisoara, Romania

    ISBN 978-3-319-05283-0e-ISBN 978-3-319-05284-7

    DOI 10.1007/978-3-319-05284-7

    Springer Cham Heidelberg New York Dordrecht London

    Library of Congress Control Number: 2014942079

    © Springer International Publishing Switzerland 2014

    This work is subject to copyright. All rights are reserved by the Publisher, whether the whole or part of the material is concerned, specifically the rights of translation, reprinting, reuse of illustrations, recitation, broadcasting, reproduction on microfilms or in any other physical way, and transmission or information storage and retrieval, electronic adaptation, computer software, or by similar or dissimilar methodology now known or hereafter developed. Exempted from this legal reservation are brief excerpts in connection with reviews or scholarly analysis or material supplied specifically for the purpose of being entered and executed on a computer system, for exclusive use by the purchaser of the work. Duplication of this publication or parts thereof is permitted only under the provisions of the Copyright Law of the Publisher’s location, in its current version, and permission for use must always be obtained from Springer. Permissions for use may be obtained through RightsLink at the Copyright Clearance Center. Violations are liable to prosecution under the respective Copyright Law.

    The use of general descriptive names, registered names, trademarks, service marks, etc. in this publication does not imply, even in the absence of a specific statement, that such names are exempt from the relevant protective laws and regulations and therefore free for general use.

    While the advice and information in this book are believed to be true and accurate at the date of publication, neither the authors nor the editors nor the publisher can accept any legal responsibility for any errors or omissions that may be made. The publisher makes no warranty, express or implied, with respect to the material contained herein.

    Printed on acid-free paper

    Springer is part of Springer Science+Business Media (www.springer.com)

    Preface

    Permanent research in the field of medical radio-imaging concerning the non-invasive exploration of the circulatory system has led to the appearance and increasing use of the CT multislice for diagnostic purposes.

    The acquisition by Neuromed Timisoara of the first computed tomography 64 multislice has placed Romania among the countries using state-of-the art non-invasive technologies for diagnostic purposes. It is used not only for routine investigations but also in the diagnosis of cardiovascular pathology.

    Worldwide the existence and use of this technique avoids almost entirely the use invasive methods for diagnostic purposes, which takes place only in exceptional circumstances. The invasive part of the diagnosis, which is extremely unpleasant to the patient, is thus eliminated from the diagnostic process, and patients now have the possibility of the diagnosis of vascular pathology without hospitalization.

    The technique is also beneficial to the doctors, as it enables them to identify and visualize the exact location of the damaged area, the anatomic details, the severity of lesions leading to a more appropriate planning of the operating techniques by the use of 3D reconstruction.

    The present atlas aims to present some of the more challenging cases explored in our clinic during a period of 7 years. During this period, we explored more than 3,500 CT coronary angiographies and more than 18,000 CT angiographies of other anatomic segments.

    While the imagistic radiographs presented in this paper do not fully cover the vascular pathology, we consider it useful to present them in the hope that a great number of doctors will become familiar with the exploration possibilities given by this non-invasive method.

    The present paper is subject to constant improvement, as our acquired experience and inventory of cases studied, provides us with new and interesting insight to be presented in order to discover more the possibilities of non-invasive exploration of the circulatory system.

    Technical Principles

    Computed tomography is a diagnostic technique which utilizes X-rays, in which a small fascicle of X-rays axially traverses the patient’s body from different angles. Parallel collimation is used to model the fascicle of rays into a small slot, which defines the width of the scanning plan. Detectors measure the intensity of the reduction of emerging radiation from the patient’s body. A mathematical algorithm is used (inverse radon transformation) to calculate the reduction in each part of the CT section. These local reduction coefficients are then transformed into CT numbers and are finally converted into shades of grey which are then, in turn, shown as images.

    Multislice tomographs allow the acquisition during a single rotation of the tube of a variable number of images (2-6-4), respectively, of a larger volume. The width of the slice is variable, with the spatial resolution growing in reverse proportion with the width. Therefore, for obtaining isotropy, the use of sub-millimetric widths is necessary. Isotopic acquisition allows us to reconstruct images in all three dimensions without modifying the spatial resolution. Thus, diagnostic accuracy in the case of isotopic acquisition is the same, indifferent of the spatial dimension in which the images are later reconstructed.

    In the case of Somatom Sensation 64, the spatial resolution of an image is lower than 0.4 mm, and the acquired volume unit (voxel) has the same size for all 3 dimensions (under 0.4 mm for the x , y and z axes).

    Obtaining such a resolution is possible due to the technical parameters offered by this machine and, particularly, the high rotation speed of the tube (330 ms) and the technical ability of the STRATON tube to generate two fascicles of X-rays which intertwine, generating the spatial resolution of 0.3 mm.

    The length which may be scanned is also important; this machine permits the acquiring of images for a length of up to 1,540 mm, which makes its use possible in peripheral angiographic studies.

    All of these technical details, the high scanning speed and high temporal and spatial resolution, allow the use of the computed tomograph in coronary angiographic studies, where the investigation of small arteries belonging to a continually moving organ is necessary.

    The study does not aim to become a technical treaty or one of the CT exam protocols, but we consider it necessary to present a couple of technical possibilities for examination as well as a couple of advantages offered by the use of this type of computed tomograph, in relation to the investigated area.

    Cerebral CT Angiography

    In our clinic, we use a scanning protocol which includes a native scan and a scan which follows the injection of intravenous contrast substance. We apply this protocol in order to obtain the subtraction of the bone, which allows the evaluation of the circulation in the cerebral arteries, without the presence of the bone structures of the neurocranium.

    Following the bone subtraction, 3D MIP and 3D VRT reconstructions are used to visualize aneurysms as well as artery-vein malformations (MAV). Coming to the aid of neurosurgeons, we also use 3D VRT reconstructions without bone subtraction, which allows the planning of craniotomies in such a way that the remaining bone defect is at a minimum.

    The method is also used to check post-operatory evolution in the case of applying metal clips or for selective arterial embolising procedures of the MAV.

    CT Angiography of the Cervical Region

    This is used to

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