Relevant bibliographies by topics / Computed tomography ; Cardiac imaging ; Cardiology / Books
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Books on the topic 'Computed tomography ; Cardiac imaging ; Cardiology'

Author: Grafiati
Published: 4 June 2021
Last updated: 13 February 2022

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1

Cardiac CT imaging: Diagnosis of cardiovascular disease. 2nd ed. Dordecht: Springer, 2010.

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2

Mills, John Alexander. Theory of longitudinal emission computed tomography and the practical application to cardiac imaging. [s.l.]: typescript, 1986.

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3

Fleming, Richard M. Establishing better standards of care in Doppler echocardiography, computed tomography and nuclear cardiology. Rijeka, Croatia: InTech, 2011.

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4

Nuclear cardiac imaging: Principles and applications. Philadelphia: Davis, 1987.

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5

Iskandrian, Ami E. Nuclear cardiac imaging: Principles and applications. 2nd ed. Philadelphia: F.A. David, 1996.

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6

service), SpringerLink (Online, ed. Coronary CT Angiography. Berlin, Heidelberg: Springer Berlin Heidelberg, 2009.

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7

Hendel, Robert C., and Gary V. Heller. Handbook of Nuclear Cardiology: Cardiac SPECT and Cardiac PET. Springer, 2012.

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8

Berman, Daniel S., E. Gordon DePuey, and Ernest V. Garcia. Cardiac SPECT Imaging. 2nd ed. Lippincott Williams & Wilkins, 2001.

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9

Gordon, DePuey E., Berman Daniel S. 1944-, and Garcia Ernest V, eds. Cardiac spect imaging. 2nd ed. Philadelphia: Lippincott Williams & Wilkins, 2001.

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10

Sabharwal, Nikant, Parthiban Arumugam, and Andrew Kelion. Introduction to nuclear cardiology. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780198759942.003.0001.

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The cardiologist of the early twenty-first century takes for granted the wide range of imaging modalities at his/her disposal, but it was not always so. At the beginning of the 1970s, invasive cardiac catheterization was the only reliable cardiac imaging technique. Subsequently, nuclear cardiology investigations led the way in the non-invasive assessment of cardiac disease. This chapter covers the history of nuclear cardiology, including important milestones in the development of nuclear medicine. It details the relation of nuclear cardiology to other imaging modalities, covering the common imaging modalities used to evaluate left ventricular function and coronary artery disease, and the challenges of multislice X-ray computed tomography.
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11

Kelion, Andrew, Parthiban Arumugam, and Nikant Sabharwal. Nuclear Cardiology (Oxford Specialist Handbooks in Cardiology). Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780198759942.001.0001.

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Readable, practical, and concise, the Oxford Specialist Handbook in Nuclear Cardiology is a self-contained guide to this cardiac imaging subspecialty. Including both technical and clinical aspects, it provides a foundation of essential knowledge common to practitioners from any background.This title covers radiation physics, biology and protection, and addresses all areas of imaging including the design and operation of the gamma camera (including solid-state cameras), single photon emission computed tomography (SPECT) acquisition and processing, and image interpretation and writing of reports. Stress testing and radiopharmaceuticals are explained in detail, as is the evidence base underpinning myocardial perfusion scintigraphy. Newer radionuclide imaging techniques are well covered (e.g. phosphate scintigraphy in cardiac amyloidosis), as is the expanding field of cardiac positron emission tomography (PET). Fully updated with coverage of new indications for gamma camera imaging, increased focus on attenuation correction and SPECT-CT, and detail on the design use and clinical implications of solid-state gamma cameras throughout, this second edition of the essential text for nuclear cardiology trainees and practitioners is fully illustrated with colour plates to aid clinical practice. Presented in the bestselling Oxford Handbook format, Nuclear Cardiology provides core knowledge for those training in the subspecialty, whether at a basic or advanced level or from a medical or technical background, and is a key resource for those seeking to accredit in the subspecialty.
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12

Marcelo F. Di Carli (Editor) and Martin J. Lipton (Editor), eds. Cardiac PET and PET/CT Imaging. Springer, 2007.

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13

Garcia, Ernest V., James R. Galt, and Ji Chen. SPECT and PET Instrumentation. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199392094.003.0003.

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Nuclear cardiac imaging is solidly based on many branches of science and engineering, including nuclear, optical and mathematical physics, electrical and mechanical engineering, chemistry and biology. This chapter uses principles from these scientific fields to provide an understanding of both the signals used, and the imaging system that captures these signals. Nuclear cardiology’s signals are the x-rays or ?-rays photons emitted from a radioactive tracer and its imaging systems are either single-photon emission computed tomography (SPECT) or positron emission tomography (PET) cameras. This combination has met with remarkable success in clinical cardiology. This success is due to the combination of sophisticated electronic nuclear instruments with a highly specific and thus powerful signal. The signal is as important as or more important than the imaging system. There is a misconception that cardiac magnetic resonance (CMR) cardiac computed tomography (CCT) and echocardiography are superior to nuclear cardiology imaging because of their superior spatial resolution. Yet, in detecting perfusion defects what is really necessary is superior contrast resolution. It is this superior contrast resolution that allows us to differentiate between normal and hypoperfused myocardium facilitating the visual analysis of nuclear cardiology perfusion images. Because these objects are bright compared to the background radioactivity, computer algorithms have been developed that allow us to automatically and objectively process and quantify our images. This chapter explains many of the important scientific principles necessary to understand nuclear cardiology imaging in general, i.e., how these sophisticated imaging systems detect the radiation emitted from the radiotracers.
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14

Ohnesorge, Bernd M., Thomas G. Flohr, Christoph R. Becker, and Maximilian F. Reiser. Multi-slice CT in Cardiac Imaging. Springer, 2002.

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15

Cardiac CT Imaging: Diagnosis of Cardiovascular Disease. Springer, 2016.

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16

Matthew M.J. Budoff (Editor) and Jerold S. Shinbane (Editor), eds. Cardiac CT Imaging: Diagnosis of Cardiovascular Disease. Springer, 2006.

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17

Cuocolo, Alberto, and Emilia Zampella. Role of Imaging in Diabetes Mellitus. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199392094.003.0018.

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Although there has been a marked decline in mortality due to coronary artery disease (CAD) in the overall population in the past three decades, reducing CAD mortality in patients with diabetes mellitus (DM) has proven exceptionally difficult. Several epidemiological studies have shown that DM is associated with a marked increase in the risk of CAD. The symptoms are not a reliable means of identifying patients at higher risk considering that angina is threefold less common in DM than in non-DM. Noninvasive cardiac imaging, such as echocardiography, nuclear cardiology, computed tomography, and magnetic resonance imaging, can provide insight into different aspects of the disease process, from imaging at the cellular level to microvascular and endothelial dysfunction, autonomic neuropathy, coronary atherosclerosis, and interstitial fibrosis with scar formation. In particular, stress myocardial perfusion imaging has taken a central role in the diagnosis, evaluation, and management of CAD in DM patients.
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18

M, Ohnesorge B., ed. Multi-slice CT in cardiac imaging: Technical principles, clinical application and future developments. London: Springer, 2002.

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19

Gordon, DePuey E., Berman Daniel S. 1944-, and Garcia Ernest V, eds. Cardiac SPECT imaging. New York: Raven Press, 1995.

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20

1930-, Stanford William, and Rumberger John A, eds. Ultrafast computed tomography in cardiac imaging: Principles and practice. Mount Kisco, NY: Futura Pub. Co., 1992.

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21

Markus, Schwaiger, ed. Cardiac positron emission tomography. Boston: Kluwer Academic, 1996.

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22

Stanford, William. Ultrafast Computed Tomography in Cardiac Imaging: Principles and Practice. Blackwell/Futura, 1992.

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23

Computed Tomography Imaging in 2012, An Issue of Cardiology Clinics. Saunders, 2012.

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24

J, De Feyter Pim, ed. Computed tomography of the coronary arteries. London: Taylor & Francis, 2005.

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25

Feyter, Pim de, and G. P. Krestin. Computed Tomography of the Coronary Arteries. Informa Healthcare, 2004.

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26

A, Goldstein Richard, and Dae Michael W. 1950-, eds. Cardiac PET imaging: Congenital heart disease. Reston, Va: Society of Nuclear Medicine, 1998.

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27

Hide, Geoff, and Jennifer Humphries. Computed tomography. Oxford University Press, 2013. http://dx.doi.org/10.1093/med/9780199642489.003.0069.

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Computed tomography (CT), along with its cross-sectional partner MRI, continues to evolve apace. Although MRI retains the larger role in the musculoskeletal system due to its unparalleled soft tissue contrast and, not least, its lack of ionizing radiation, CT offers significant advantages in many areas. Imaging acute trauma is more rapid with CT, allowing 'whole body' assessment of patients following polytrauma, and CT is more useful than MRI in demonstrating the configuration of fractures, aiding surgical planning. CT can clearly identify cortical bone and areas of calcification, making the diagnosis of tarsal coalitions straightforward and facilitating the diagnosis and characterization of bone tumours such as osteoid osteoma and chondroid lesions. CT arthrography supplements standard imaging with intra-articular contrast to allow the detection of subtle joint abnormalities, and CT can demonstrate needles precisely within bone and soft tissue to enable the performance of complex image-guided procedures. Developments in CT have been especially rapid in the past decade and although this has particularly impacted on cardiac imaging, other areas of medicine, including rheumatology, have benefited. High multislice scanners can obtain data for a volume of tissue allowing reconstruction of slices with exceptional detail in any plane, and can rapidly image large areas of the body such as the spine. CT is responsible for a large proportion of the population's medical radiation exposure. Although techniques allowing reduction in dose continue to advance, radiologists and referrers retain responsibility to ensure that requests for CT examinations are necessary and justifiable.
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28

R, Baliga R., ed. An introductory guide to cardiac CT imaging. Philadelphia: Lippincott Williams & Wilkins, 2010.

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29

der, Wall E. van, ed. What's new in cardiac imaging?: SPECT, PET, and MRI. Dordrecht: Kluwer Academic Publishers, 1992.

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30

Paul, Schoenhagen, ed. Cardiac CT made easy: An introduction to cardiovascular multidetector computed tomography. Abingdon, Oxon: Informa Healthcare, 2007.

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31

J, Buda Andrew, and Delp Edward J, eds. Digital cardiac imaging. Boston: Nijhoff, 1985.

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32

Stanford, William, Healthstream, and MD Stanford William. Functional Cardiac Imaging: Assessment of Heart Disease by Electron Beam Computed Tomography. Healthstream Inc., 1996.

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33

Schoenhagen, Paul, Arthur E. Stillman, and Richard D. White. Cardiac CT Made Easy: An Introduction to Cardiovascular Multi-Detector Computed Tomography. Informa Healthcare, 2006.

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34

Ernst E.E. van der Wall (Editor), H. Sochor (Editor), A. Righetti (Editor), and M. G. Niemeyer (Editor), eds. What's New in Cardiac Imaging?: SPECT, PET, and MRI (Developments in Cardiovascular Medicine). Springer, 1992.

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35

F, Di Carli Marcelo, Kwong Raymond Y, and American Heart Association, eds. Novel techniques for imaging the heart: Cardiac MR and CT. Chichester, West Sussex, UK: Wiley-Blackwell, 2008.

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36

Cardiac positron emission tomography: Viability, perfusion, receptors, and cardiomyopathy. Dordrecht: Kluwer Academic Publishers, 1995.

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37

1958-, Pennell Dudley J., ed. Thallium myocardial perfusion tomography in clinical cardiology. London: Springer-Verlag, 1992.

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38

Guido, Germano, and Berman Daniel S. 1944-, eds. Clinical gated cardiac SPECT. 2nd ed. Malden, Mass: Blackwell Futura, 2006.

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39

Berman, Daniel S., and Guido Germano. Clinical Gated Cardiac SPECT. Wiley & Sons, Incorporated, John, 2008.

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40

Germano, Guido, and Daniel Berman. Clinical Gated Cardiac Spect. 2nd ed. Blackwell Publishing Limited, 2006.

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41

Berman, Daniel S., and Guido Germano. Clinical Gated Cardiac SPECT. Wiley & Sons, Incorporated, John, 2008.

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42

Berman, Daniel S. Clinical Gated Cardiac SPECT. Blackwell Publishing, Incorporated, 1999.

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43

1944-, Berman Daniel S., and Germano Guido, eds. Clinical gated cardiac SPECT. Armonk, NY: Futura Pub. Co., 1999.

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44

Sabharwal, Nikant, Parthiban Arumugam, and Andrew Kelion. Cardiac positron emission tomography (PET). Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780198759942.003.0012.

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As in single photon emission computed tomography (SPECT), positron emission tomography (PET) involves the injection of a radiopharmaceutical, the physiological properties of which determine its distribution within the patient. The labelling radionuclide then allows this distribution to be imaged. The value of cardiac PET as a routine clinical tool, particularly for perfusion imaging, was previously limited by the expense and scarcity of cameras and the short half-lives of the radionuclides with complex radiochemistry. The need for an on-site cyclotron to produce these radiopharmaceuticals made a clinical service non-viable. A number of recent developments, however, have led to renewed interest in cardiac PET. This chapter covers PET instrumentation, detail on the radiopharmaceuticals used in cardiac PET, and a number of sections on F-fluorodeoxyglucose (F-FDG) PET covering infection and inflammation imaging.
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45

Sabharwal, Nikant, Parthiban Arumugam, and Andrew Kelion. Single photon emission computed tomography (SPECT). Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780198759942.003.0004.

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Single photon emission computed tomography (SPECT) allows an organ to be imaged in three dimensions with enhanced contrast. Of particular relevance in nuclear cardiology, it also allows the heart to be reorientated relative to its own axes, and slices presented in standard orthogonal planes. Scintigraphic imaging is thereby rendered more accessible to cardiologists already familiar with echocardiography and other imaging modalities. This chapter explores specific issues of instrumentation, acquisition, and processing, discussing camera options and specific quality control issues. SPECT reconstruction is covered with reference to both filtered back-projection and iterative reconstruction. Other key aspects of SPECT covered include image reorientation, colour display, gated SPECT, and attenuation correction.
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46

E.E. van der Wall (Editor), P. K. Blanksma (Editor), M. G. Niemeyer (Editor), and A. M. Paans (Editor), eds. Cardiac Positron Emission Tomography: Viability, Perfusion, Receptors and Cardiomyopathy (Developments in Cardiovascular Medicine). Springer, 1995.

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47

H, Brundage Bruce, ed. Comparative cardiac imaging: Function, flow, anatomy, and quantitation. Rockville, Md: Aspen Publishers, 1990.

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48

der, Wall E. van, ed. Noninvasive imaging of cardiac metabolism: Single photonscintigraphy, positron emission tomography, and nuclear magnetic resonance. Dordrecht: M. Nijhoff, 1987.

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49

Nuclear Cardiac Imaging: Principles and Applications. 2nd ed. Oxford University Press, USA, 1996.

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50

Ramrakha, Punit, and Jonathan Hill, eds. Cardiac investigations. Oxford University Press, 2012. http://dx.doi.org/10.1093/med/9780199643219.003.0001.

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Exercise ECG 2Cardiac computed tomography 6Clinical applications of cardiac CT 8Transthoracic echocardiography 10Transthoracic Doppler imaging 14The standard transthoracic ECHO 17The standard transthoracic ECHO: continued 18Assessment of wall motion 20Assessment of LV systolic function 22Assessment of LV diastolic function ...
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