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Książki na temat „Tomographic scanner”

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Data publikacji: 5 kwietnia 2025

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1

L, Arrivé, red. Guide d'interprétation en scanner. Paris: Masson, 2001.

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2

Lionel, Arrivé, red. Guide d'interprétation en scanner. Wyd. 3. Paris: Masson, 2005.

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3

Olivier, Vigneaux, red. Imagerie cardiaque: Scanner et IRM. Issy-les-Moulineaux: Masson, 2005.

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4

Canadian Coordinating Office for Health Technology Assessment. A comparison of fixed and mobile CT and MRI scanners. Ottawa, Ont: The Office, 1995.

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5

Trajtenberg, Manuel. Economic analysis of product innovation: The case of CT scanners. Cambridge, Mass: Harvard University Press, 1990.

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6

Jacqueline, Vignaud, Jardin Caroline i Rosen Lawrence, red. The ear, diagnostic imaging: CT scanner, tomography, and magnetic resonance. New York: Masson Pub., U.S.A., 1986.

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7

Caroline, Jardin, Rosen Lawrence i Vignaud Jacqueline, red. The ear, diagnostic imaging: CT scanners, tomography and magnetic resonance. New York: Masson Pub., 1986.

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8

K, Fishman Elliot, i Jeffrey R. Brooke, red. Multidetector CT: Principles, techniques, and clinical applications. Philadelphia: Lippincott Williams & Wilkins, 2004.

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9

Hsieh, Jiang. Computed tomography: Principles, design, artifacts, and recent advances. Bellingham, Washington: SPIE, 2015.

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10

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

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11

Blodgett, Todd M. Specialty imaging. Salt Lake City, Utah: Amirsys, 2009.

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12

Committee, American Association of Physicists in Medicine Diagnostic X.-Ray Imaging. Specification and acceptance testing of computed tomography scanners: The report of Task Group 2, Diagnostic X-Ray Imaging Committee. New York, NY: published for American Association of Physicists in Medicine by the American Institute of Physics, 1993.

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13

Mathias, Prokop, i Galanski Michael, red. Spiral and multislice computed tomography of the body. Stuttgart: Thieme, 2003.

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14

Heismann, Björn J. Spectral CT imaging. Bellingham, Wash: SPIE Press, 2012.

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15

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

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16

A, Markisz John, red. Musculoskeletal imaging: MRI, CT, nuclear medicine, and ultrasound in clinical practice. Boston: Little, Brown, 1991.

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17

Marahrens, Peter. Untersuchungen von Hornhaut, Kammerwinkelregion, Iris und Linse mit dem Laser Tomographic Scanner (LTS). 1990.

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18

Narayana, Shalini, Babak Saboury, Andrew B. Newberg, Andrew C. Papanicolaou i Abass Alavi. Positron Emission Tomography. Redaktor Andrew C. Papanicolaou. Oxford University Press, 2014. http://dx.doi.org/10.1093/oxfordhb/9780199764228.013.8.

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Positron emission tomography (PET) is an imaging method that utilizes compounds labeled with positron-emitting radioisotopes as molecular probes to evaluate different neurophysiological processes quantitatively and noninvasively. This chapter provides a background regarding positron emission, radiotracer chemistry, and detector and scanner instrumentation, as well as analytical methods for evaluating basic brain physiology, such as cerebral blood flow and oxygen and glucose metabolism. The methodological aspects of PET imaging, such as patient preparation and optimal scanning parameters, are discussed. Examples of application of blood flow and metabolic imaging in both research and clinical scenarios for the evaluation of normal neurophysiology are provided. Recent advances in PET imaging, including PET-CT and PET-MRI, are also described. Finally, the unique strengths of PET imaging are highlighted.
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19

Stirrup, James, Michelle Williams, Russell Bull i Ed Nicol, red. 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, analysing, and interpreting cardiovascular CT scans, covering all aspects from patient safety to optimal image acquisition to differential diagnoses of tricky images. The format is designed to be accessible and is laid out in easy to navigate sections. It is meant as a quick-reference guide, to live near the CT scanner, workstation, or on the office shelf.
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20

Phelps, Michael E. Pet: Physics, Instrumentation, and Scanners. Springer London, Limited, 2006.

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21

Phelps, Michael E. PET: Physics, Instrumentation, and Scanners. Springer, 2010.

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22

Hide, Geoff, i 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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23

IAEA. Status of Computed Tomography Dosimetry for Wide Cone Beam Scanners. International Atomic Energy Agency, 2011.

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24

Hsieh, Jiang. Computed Tomography: Principles, Design, Artifacts, and Recent Advances (SPIE Press Monograph Vol. PM114). SPIE Publications, 2003.

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25

Hospital cost containment regulations and the diffusion of the CAT scanner: A case study. Albany, N.Y: Nelson A. Rockefeller Institute of Government, State University of New York, 1989.

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26

Gambarelli, J., D. Amy, R. Galliano, S. Nazarian i J. P. Jacomy. Ganzkörper-Computer-Tomographie: Ein Anatomischer Atlas Von Serienschnitten Durch Den Menschlichen Körper Anatomie -- Radiologie -- Scanner. Springer London, Limited, 2013.

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27

Mo Ahn, Joong, Yusuf Menda i Georges Y. El-Khoury. Imaging. Oxford University Press, 2011. http://dx.doi.org/10.1093/med/9780199550647.003.0010.

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♦ Each modality of imaging—digital radiography, multidetector computed tomography (MDCT), magnetic resonance imaging (MRI), ultrasound, and nuclear medicine studies—has its own advantages and disadvantages♦ Conventional radiography is the best for initial evaluation of a musculoskeletal problem♦ MDCT rapid survey of multiple trauma patients is easily performed using the new high speed computed tomography scanners♦ MRI is the imaging modality of choice for internal derangement of the knee and other soft tissue injuries♦ Radionuclide bone imaging is most suitable for screening the whole skeleton for metastases♦ Positron emission tomography is useful for identification of tumour, inflammation, and infection.
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28

Holdsworth, David Wayne. A TDI-CCD system for slot-scanned digital radiography and computed tomography. 1993.

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29

(Editor), Elliot K. Fishman, i R. Brooke Jeffrey (Editor), red. Spiral CT: Principles, Techniques and Applications. Wyd. 2. Lippincott Williams & Wilkins, 1998.

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30

Gambarelli, J., D. Amy, R. Galliano, S. Nazarian i J. P. Jacomy. Computerized Axial Tomography: An Anatomic Atlas of Serial Sections of the Human Body Anatomy -- Radiology -- Scanner. Springer London, Limited, 2012.

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31

Wang, Sigen, Otto Zhou i Sha Chang. Carbon-nanotube field emission electron and X-ray technology for medical research and clinical applications. Redaktorzy A. V. Narlikar i Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533060.013.19.

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This article describes carbon-nanotube based X-ray technologies for medical research and clinical applications, including an X-ray source, microfocus X-ray tube, microcomputed tomography scanner, stationary digital breast tomosynthesis, microradiotherapy system, and single-cell irradiation system. It first examines electron field emission from carbon nanotubes before discussing carbon-nanotube field emission electron and X-ray technologies in greater detail. It highlights the enormous promise of these systems in commercial and research application for the future in diagnostic medical imaging; in-vivo imaging of small-animal modelsfor pre-clinical cancer studies; security screening; industrial inspection; cancer radiotherapy of small-animal models for pre-clinical cancer studies; and basic cancer research using single-cell irradiation.
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32

CT physics: The basics of multi-detector physics. Philadelphia, PA: Lippincott Williams & Wilkins, 2009.

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33

Martin, Colin J. The development of radiation protection. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199655212.003.0001.

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The opening chapter introduces the use of radiation in medicine. It lists the main events in the application of radiation following the discovery of X-rays in 1895, the beginning of the use of radioactive sources in therapy in the early 1900s, the development of nuclear medicine in the 1960s, and the first computed tomography scanner in 1972. Radiation protection began to develop as a specialty at an early stage, but it was following analysis of effects on the survivors of the atomic bombs dropped on Japan that the need for stricter control became apparent. The chapter also reviews the development of standards for non-ionizing radiations. Summaries of medical applications for all parts of the electromagnetic spectrum are included, and the main biological effects of different types of radiation are included.
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34

McLean, Donald, i Claire-Louise Chapple. CT dosimetry. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199655212.003.0015.

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The computed tomography (CT) medical examination is the highest single source of radiation to the general public in the developed world. Its use is rapidly growing, as is its technical complexity. The primary dosimetry formalism is based on the computed tomography dose index (CTDI), which can be measured in air or in standard phantoms using a calibrated pencil ionization chamber with adaptations for wide beam scanners. Displayed dose parameters can be used with caution to estimate patient organ doses, effective dose, and risk, using a variety of models and software. An understanding of automatic exposure control and the influence of patient size is essential when interpreting dosimetry results. CT examination protocols require optimisation, including the appropriate use of newly available dose reduction features. Particular consideration needs to be given to paediatric CT and to specialist applications such as radiotherapy planning, cardiac CT and volume imaging.
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35

Spiral and Multislice Computed Tomography of the Body. Thieme Medical Publishers, 2001.

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36

Spiral and Multislice Computed Tomography of the Body. Thieme, 2011.

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37

Prokop, Mathias, Michael Galanski, Cornelia Schaefer-Prokop i Aart J. van der Molen. Spiral and Multislice Computed Tomography of the Body. Thieme Publishing Group, 2002.

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38

Imagining the elephant: A biography of Allan MacLeod Cormack. London: Imperial College Press, 2008.

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39

A, Markisz John, red. Musculoskeletal imaging. Little, Brown, 1991.

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40

Musculoskeletal Imaging: Mri Ct Nuclear Medicine and Ultrasound in Clinical Practice. Little Brown & Co, 1991.

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