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Książki na temat „Computed tomography images”

Autor: Grafiati
Data publikacji: 2 czerwca 2025
Data aktualizacji: 31 lipca 2025

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1

Ellis, Harold. Human cross-sectional anatomy: Atlas of body sections and CT images. Butterworth-Heinemann, 1991.

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2

Ellis, Harold. Human cross-sectional anatomy: Pocket atlas of body sections and CT images. Butterworth-Heinemann, 1994.

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3

Cahill, Donald R. Atlas of human cross-sectional anatomy: With CT and MR images. 2nd ed. Wiley-Liss, 1990.

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4

M, Logan B., and Dixon Adrian K, eds. Human sectional anatomy: Pocket atlas of body sections, CT and MRI images. 3rd ed. Hodder Arnold, 2009.

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5

Ellis, Harold. Human sectional anatomy: Atlas of body sections, CT and MRI images. 3rd ed. Hodder-Arnold, 2007.

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6

Ellis, Harold. Human sectional anatomy: Atlas of body sections, CT and MRI images. 2nd ed. Butterworth-Heinemann, 1999.

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7

Ellis, Harold. Human sectional anatomy: Pocket atlas of bocy sections, CT and MRI images. 2nd ed. Arnold, 2001.

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8

Lofthag-Hansen, Sara. Cone beam computed tomography: Radiation dose and image quality assessments. University of Gothenburg, 2010.

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9

Yeung, K. T. D. Filtering techniques in image reconstruction applied to X-ray computed tomography. University of Birmingham, 1986.

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10

Kak, Avinash C. Principles of computerized tomographic imaging. Society for Industrial and Applied Mathematics, 2001.

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11

Kak, Avinash C. Principles of computerized tomographic imaging. IEEE Press, 1988.

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12

J, Gelfand Michael, and Thomas Stephen R, eds. Effective use of computers in nuclear medicine: Practical clinical applications in the imaging laboratory. McGraw-Hill, 1988.

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13

Ellis, Carson Richard, Daube-Witherspoon Margaret E, and Herscovitch Peter, eds. Quantitative functional brain imaging with positron emission tomography. Academic Press, 1998.

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14

National Institutes of Health (U.S.). Division of Computer Research and Technology, ed. Image processing. Division of Computer Research and Technology, National Institutes of Health, 1985.

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15

M, Grigoryan Merughan, ed. Image processing: Tensor transform and discrete tomography with MATLAB. Taylor & Francis, 2012.

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16

Howard, Yonas, and International Conference on Xe/CT CBF (1st : 1990 : Orlando, Fla.), eds. Cerebral blood flow measurement with stable xenon-enhanced computed tomography. Raven Press, 1992.

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17

1964-, Bouma Brett E., and Tearney Guillermo J, eds. Handbook of optical coherence tomography. Marcel Dekker, 2002.

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18

Cierniak, Robert. Nowe algorytmy rekonstrukcji obrazu z projekcji z zastosowaniem sieci neuronowych typu Hopfielda. Wydawn. Politechniki Częstochowskiej, 2006.

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19

Laboratory), International Conference on Information Processing in Medical Imaging ((11th 1989 Lawrence Berkeley. Information processing in medical imaging: Proceedings of the 11th International Conference on Information Processing in Medical Imaging held June 19-23, 1989 at Berkeley, California. Wiley-Liss, 1991.

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20

Kazuo, Uemura, ed. Quantification of brain function: Tracer kinetics and image analysis in brain PET : proceedings of PET '93 Akita : Quantification of Brain Function, Akita, Japan, 29-31 May, 1993. Excerpta Medica, 1993.

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21

Calif.) Optical Coherence Tomography and Coherence Domain Optical Methods in Biomedicine (Conference) (17th 2013 San Francisco. Optical coherence tomography and coherence domain optical methods in biomedicine XVII: 4-6 February 2013, San Francisco, California, United States. Edited by Fujimoto, James G., editor of compilation, Izatt, Joseph A., editor of compilation, Tuchin, V. V. (Valeriĭ Viktorovich), editor of compilation, SPIE (Society), and SPIE Photonics West (Conference) (2013 : San Francisco, Calif.). SPIE, 2013.

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22

Wahl, Richard L. Atlas of PET/CT: With SPECT/CT. Saunders, 2008.

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23

Stirrup, James, Michelle Williams, Russell Bull, and Ed Nicol, eds. Cardiovascular Computed Tomography. Oxford University Press, 2019. http://dx.doi.org/10.1093/med/9780198809272.001.0001.

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Recent years have seen a marked increase in cardiovascular computed tomography (CT) imaging, with the technique now integrated into many imaging guidelines, including those published by NICE. Rapid clinical and technological progress has created a need for guidance on the practical aspects of CT image acquisition, analysis, and interpretation. The Oxford Specialist Handbook of Cardiovascular CT, now revised for the second edition by practising international experts with many years of hands-on experience, is designed to fulfil this need. The handbook is a practical guide on performing, analysin
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24

Lirette, Lesley, and Marc A. Huntoon. Atlanto-Axial Joint Injection: Computed Tomography and Fluoroscopy. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199908004.003.0012.

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Atlanto-axial (AA) joint injections can be helpful in the diagnosis and management of occipital headaches stemming from the AA joint. Because of the complicated anatomic landscape, imaging guidance is vital in addition to a sound understanding of the anatomy. Several different image modalities are available for use in AA joint blocks. Fluoroscopy is the most widely used for its familiarity, relative low cost, and wide availability. The addition of digital subtraction angiography to the conventional fluoroscope offers an additional safety benefit when performing injections near critical blood v
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25

(Illustrator), Shelley Eshleman, ed. Living Anatomy: A Working Atlas Using Computed Tomography, Magnetic Resonance & Angiography Images. Hanley & Belfus, 1987.

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26

Squire, Lucy Frank, and Robert A. Novelline. Living Anatomy: A Working Atlas Using Computed Tomography, Magnetic Resonance and Angiography Images. Mosby-Year Book, 1986.

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27

Sabharwal, Nikant, Parthiban Arumugam, and Andrew Kelion. Myocardial perfusion scintigraphy: image interpretation. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780198759942.003.0009.

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This chapter focuses on image interpretation in myocardial perfusion scintigraphy. It covers planar acquisitions, the general approach to reporting single photon emission computed tomography (SPECT) images, and both qualitative and quantitative evaluation of tomographic slices. Detail is also provided on gated SPECT and attenuation correction, as well as a range of artefacts including image, instrumentation-related, and patient-related artefacts. Information is provided on abnormal appearances in coronary artery disease, perfusion defects, and indirect markers of severe coronary artery disease
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28

Dixon, Adrian K., Bari M. Logan, and Harold Ellis. Human Sectional Anatomy: Atlas of Body Sections, Ct and Mri Images. Taylor & Francis Group, 2016.

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29

Logan, Bari M., Adrian Dixon, and Harold Ellis. Human Sectional Anatomy: Atlas of Body Sections, CT and MRI Images. Taylor & Francis Group, 2007.

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30

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 c
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31

Logan, Bari, Adrian Dixon, and Harold Ellis. Human Sectional Anatomy: Pocket Atlas of Body Sections, CT and MRI Images. Taylor & Francis Group, 2001.

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32

Dixon, Adrian K., Bari M. Logan, Bari Logan, Adrian Dixon, and Harold Ellis. Human Sectional Anatomy: Pocket Atlas of Body Sections, CT and MRI Images. 2nd ed. A Hodder Arnold Publication, 2001.

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33

Dixon, Adrian K., Bari M. Logan, Harold Ellis, and David J. Bowden. Human Sectional Anatomy: Atlas of Body Sections, CT and MRI Images, Fourth Edition. Taylor & Francis Group, 2015.

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34

Dixon, Adrian K., Bari M. Logan, Harold Ellis, and David J. Bowden. Human Sectional Anatomy: Atlas of Body Sections, CT and MRI Images, Fourth Edition. Taylor & Francis Group, 2015.

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35

Dixon, Adrian K., Bari M. Logan, Harold Ellis, and David J. Bowden. Human Sectional Anatomy: Atlas of Body Sections, CT and MRI Images, Fourth Edition. Taylor & Francis Group, 2015.

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36

Logan, Bari M., Adrian Dixon, and Harold Ellis. Human Sectional Anatomy: Atlas of Body Sections, CT and MRI Images, Third Edition. Taylor & Francis Group, 2009.

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37

Logan, Bari M., Harold Ellis, David J. Bowden, and Adrian Kendal Dixon. Human Sectional Anatomy: Pocket Atlas of Body Sections, CT and MRI Images, Fourth Edition. Taylor & Francis Group, 2017.

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38

Logan, Bari M., Harold Ellis, David J. Bowden, and Adrian Kendal Dixon. Human Sectional Anatomy: Pocket Atlas of Body Sections, CT and MRI Images, Fourth Edition. Taylor & Francis Group, 2017.

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39

Logan, Bari M., Harold Ellis, David J. Bowden, and Adrian Kendal Dixon. Human Sectional Anatomy: Pocket Atlas of Body Sections, CT and MRI Images, Fourth Edition. Taylor & Francis Group, 2017.

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40

Logan, Bari M., Harold Ellis, David J. Bowden, and Adrian Kendal Dixon. Human Sectional Anatomy: Pocket Atlas of Body Sections, CT and MRI Images, Fourth Edition. Taylor & Francis Group, 2017.

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41

Logan, Bari M., Harold Ellis, David J. Bowden, and Adrian Kendal Dixon. Human Sectional Anatomy: Pocket Atlas of Body Sections, CT and MRI Images, Fourth Edition. Taylor & Francis Group, 2017.

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42

LeVine III, Harry. Medical Imaging. ABC-CLIO, LLC, 2010. http://dx.doi.org/10.5040/9798400684333.

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A prize-winning medical writer offers an explanation of modern diagnostic medical imaging technologies—and the issues that result from their use and misuse. Medical Imaging describes the discovery and development of diagnostic imaging technologies, explaining how the technologies work and exploring some of the issues that such powerful and expensive technologies create. The book begins with the discovery of X-rays in 1895 and traces the history of imaging technology through today's tools, such as X-ray computed tomography, magnetic resonance imaging (MRI), functional imaging by positron emissi
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43

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 d
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44

Waje-Andreassen, Ulrike, and Nicola Logallo. Vascular imaging: Ultrasound. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198722366.003.0009.

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After computed tomography and computed tomography angiography or magnetic resonance imaging and magnetic resonance angiography at admission, ultrasound is the most important diagnostic tool to confirm angiographic findings and to closely follow-up patients until the clinical situation has stabilized. Thrombolysis and interventional therapy have given transcranial ultrasound a very important role in bedside monitoring of occlusions, collaterals, cerebral haemodynamics, and vasoreactivity. Detection of flow changes in sickle cell disease, circulating emboli, and right-to-left shunts may guide tr
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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 reconst
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46

Seeck, Margitta, L. Spinelli, Jean Gotman, and Fernando H. Lopes da Silva. Combination of Brain Functional Imaging Techniques. Edited by Donald L. Schomer and Fernando H. Lopes da Silva. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780190228484.003.0046.

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Several tools are available to map brain electrical activity. Clinical applications focus on epileptic activity, although electric source imaging (ESI) and electroencephalography-coupled functional magnetic resonance imaging (EEG–fMRI) are also used to investigate non-epileptic processes in healthy subjects. While positron-emission tomography (PET) reflects glucose metabolism, strongly linked with synaptic activity, and single-photon-emission computed tomography (SPECT) reflects blood flow, fMRI (BOLD) signals have a hemodynamic component that is a surrogate signal of neuronal (synaptic) activ
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47

Malajikian, Krikor, and Daniel Finelli. Basics of Computed Tomography. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199908004.003.0003.

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Computed tomography (CT)-guidance is typically used when precise needle placement is essential for a successful procedure. It uses ionizing radiation, which could pose risks to the patient and operating staff if proper technique is not used. The performing physician should adhere to all principles of minimizing radiation exposure to the patient and clinicians. Common CT-guided imaging procedures include facet injections, nerve root injections, sacroiliac joint injections, intradiscal procedures, vertebroplasty/sacroplasty, and image-guided ablation of painful bone lesions. Computed tomography
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48

Federle, Michael P., and Michael O. Griffin. Radiologic Assessment and Management of Complications. Edited by Tomasz Rogula, Philip Schauer, and Tammy Fouse. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190608347.003.0027.

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Radiology plays and important role in the evaluation of patients who have undergone a bariatric surgical procedure. This chapter discusses the imaging appearance of complications after the most common bariatric surgeries, Roux-en-Y gastric bypass, gastric banding, and sleeve gastrectomy. The fluoroscopic upper GI examination and computed tomography (CT) are the most commonly used imaging modalities for evaluating these patients. For each surgical procedure, fluoroscopic and/or CT images are used to illustrate the normal postoperative anatomy and to provide examples of common and uncommon compl
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49

Kalender, Willi A. Computed Tomography: Fundamentals, System Technology, Image Quality, Applications. Publicis MCD Werbeagentur GmbH, 2011.

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50

Kalender, W. A. Computed Tomography: Fundamentals, System Technology, Image Quality, Applications. Wiley-VCH Verlag GmbH, 2019.

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