Książki: „Application en angiographie”

1

Fluorescein angiography: Technique, interpretation, and application. Oxford: Oxford University Press, 1991.

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2

J, Carroll Timothy, i SpringerLink (Online service), red. Magnetic Resonance Angiography: Principles and Applications. New York, NY: Springer Science+Business Media, LLC, 2012.

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3

Fedorov, S. N. Fluorescein angiography of the eye: Applications in ophthalmosurgery. Moscow: Mir Publishers, 1992.

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4

Toro, Javier G. Direct and indirect parametric multiple motion estimation in image sequences and their application in layer-based angiographic image compression. [s.l: The Author], 2000.

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5

G, Wasserman Alan, i Ross Allan M, red. Cardiac application of digital angiography. Mount Kisco, N.Y: Futura Pub. Co., 1989.

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6

1932-, Potchen E. James, red. Magnetic resonance angiography: Concepts & applications. St. Louis: Mosby-Year Book, 1993.

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7

E. James, M.D. Potchen. Magnetic Resonance Angiography: Concepts & Applications. Mosby Elsevier Health Science, 1993.

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8

(Editor), G. Schneider, M. R. Prince (Editor), J.F.M. Meaney (Editor), V. B. Ho (Editor) i E. J. Potchen (Preface), red. Magnetic Resonance Angiography: Techniques, Indications and Practical Applications. Springer, 2005.

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9

Remondino, Fabio, i Mark Shortis. Videometrics, Range Imaging, and Applications XIV. SPIE, 2017.

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10

John, Mancini G. B., red. Clinical applications of cardiac digital angiography. New York: Raven Press, 1988.

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11

Mancini, G. B. John. Clinical Applications of Cardiac Digital Angiography/1833. Raven Pr, 1988.

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12

Bandello, Francesco, Leonardo Mastropasqua i Giuseppe Querques, red. Clinical Applications of Optical Coherence Tomography Angiography. S. Karger AG, 2020. http://dx.doi.org/10.1159/isbn.978-3-318-06643-2.

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13

Mr Angiography Applications in Pediatric Intracranial Vascular Lesions. Warren H Green, 1997.

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14

Multiditector Coronary Ct Angiography Principles Practise And Applications. Jaypee Brothers Medical Publishers, 2008.

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15

Mehndiratta, Amit. MR Angiography and Development: Review of Clinical Applications. INTECH Open Access Publisher, 2012.

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16

Nanjiani, Max. Fluorescein Angiography: Technique, Interpretation, and Application (Oxford Medical Publications). Oxford University Press, USA, 1992.

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17

Mr Angiography Of The Body Techniques And Clinical Applications. Springer, 2009.

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18

Mr Angiography Of The Body Techniques And Clinical Applications. Springer, 2011.

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19

de Graaf, Michiel A., Arthur JHA Scholte, Lucia Kroft i Jeroen J. Bax. Computed tomography angiography and other applications of computed tomography. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199687039.003.0022.

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Patients presenting with acute chest pain constitute a common and important diagnostic challenge. This has increased interest in using computed tomography for non-invasive visualization of coronary artery disease in patients presenting with acute chest pain to the emergency department; particularly the subset of patients who are suspected of having an acute coronary syndrome, but without typical electrocardiographic changes and with normal troponin levels at presentation. As a result of rapid developments in coronary computed tomography angiography technology, high diagnostic accuracies for excluding coronary artery disease can be obtained. It has been shown that these patients can be discharged safely. The accuracy for detecting a significant coronary artery stenosis is also high, but the presence of coronary artery atherosclerosis or stenosis does not imply necessarily that the cause of the chest pain is related to coronary artery disease. Moreover, the non-invasive detection of coronary artery disease by computed tomography has been shown to be related with an increased use of subsequent invasive coronary angiography and revascularization, and further studies are needed to define which patients benefit from invasive evaluation following coronary computed tomography angiography. Conversely, the implementation of coronary computed tomography angiography can significantly reduce the length of hospital stay, with a significant cost reduction. Additionally, computed tomography is an excellent modality in patients whose symptoms suggest other causes of acute chest pain such as aortic aneurysm, aortic dissection, or pulmonary embolism. Furthermore, the acquisition of the coronary arteries, thoracic aorta, and pulmonary arteries in a single computed tomography examination is feasible, allowing ‘triple rule-out’ (exclusion of aortic dissection, pulmonary embolism, and coronary artery disease). Finally, other applications, such as the evaluation of coronary artery plaque composition, myocardial function and perfusion, or fractional flow reserve, are currently being developed and may also become valuable in the setting of acute chest pain in the future.

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20

de Graaf, Michiel A., Arthur JHA Scholte, Lucia Kroft i Jeroen J. Bax. Computed tomography angiography and other applications of computed tomography. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199687039.003.0022_update_001.

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Patients presenting with acute chest pain constitute a common and important diagnostic challenge. This has increased interest in using computed tomography for non-invasive visualization of coronary artery disease in patients presenting with acute chest pain to the emergency department; particularly the subset of patients who are suspected of having an acute coronary syndrome, but without typical electrocardiographic changes and with normal troponin levels at presentation. As a result of rapid developments in coronary computed tomography angiography technology, high diagnostic accuracies for excluding coronary artery disease can be obtained. It has been shown that these patients can be discharged safely. The accuracy for detecting a significant coronary artery stenosis is also high, but the presence of coronary artery atherosclerosis or stenosis does not imply necessarily that the cause of the chest pain is related to coronary artery disease. Moreover, the non-invasive detection of coronary artery disease by computed tomography has been shown to be related with an increased use of subsequent invasive coronary angiography and revascularization, and further studies are needed to define which patients benefit from invasive evaluation following coronary computed tomography angiography. Conversely, the implementation of coronary computed tomography angiography can significantly reduce the length of hospital stay, with a significant cost reduction. Additionally, computed tomography is an excellent modality in patients whose symptoms suggest other causes of acute chest pain such as aortic aneurysm, aortic dissection, or pulmonary embolism. Furthermore, the acquisition of the coronary arteries, thoracic aorta, and pulmonary arteries in a single computed tomography examination is feasible, allowing ‘triple rule-out’ (exclusion of aortic dissection, pulmonary embolism, and coronary artery disease). Finally, other applications, such as the evaluation of coronary artery plaque composition, myocardial function and perfusion, or fractional flow reserve, are currently being developed and may also become valuable in the setting of acute chest pain in the future.

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21

de Graaf, Michiel A., Arthur JHA Scholte, Lucia Kroft i Jeroen J. Bax. Computed tomography angiography and other applications of computed tomography. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780199687039.003.0022_update_002.

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Patients presenting with acute chest pain constitute a common and important diagnostic challenge. This has increased interest in using computed tomography for non-invasive visualization of coronary artery disease in patients presenting with acute chest pain to the emergency department; particularly the subset of patients who are suspected of having an acute coronary syndrome, but without typical electrocardiographic changes and with normal troponin levels at presentation. As a result of rapid developments in coronary computed tomography angiography technology, high diagnostic accuracies for excluding coronary artery disease can be obtained. It has been shown that these patients can be discharged safely. The accuracy for detecting a significant coronary artery stenosis is also high, but the presence of coronary artery atherosclerosis or stenosis does not imply necessarily that the cause of the chest pain is related to coronary artery disease. Moreover, the non-invasive detection of coronary artery disease by computed tomography has been shown to be related with an increased use of subsequent invasive coronary angiography and revascularization, and further studies are needed to define which patients benefit from invasive evaluation following coronary computed tomography angiography. Conversely, the implementation of coronary computed tomography angiography can significantly reduce the length of hospital stay, with a significant cost reduction. Additionally, computed tomography is an excellent modality in patients whose symptoms suggest other causes of acute chest pain such as aortic aneurysm, aortic dissection, or pulmonary embolism. Furthermore, the acquisition of the coronary arteries, thoracic aorta, and pulmonary arteries in a single computed tomography examination is feasible, allowing ‘triple rule-out’ (exclusion of aortic dissection, pulmonary embolism, and coronary artery disease). Finally, other applications, such as the evaluation of coronary artery plaque composition, myocardial function and perfusion, or fractional flow reserve, are currently being developed and may also become valuable in the setting of acute chest pain in the future.

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22

de Graaf, Michiel A., Arthur JHA Scholte, Lucia Kroft i Jeroen J. Bax. Computed tomography angiography and other applications of computed tomography. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780199687039.003.0022_update_003.

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Streszczenie:

Patients presenting with acute chest pain constitute a common and important diagnostic challenge. This has increased interest in using computed tomography for non-invasive visualization of coronary artery disease in patients presenting with acute chest pain to the emergency department; particularly the subset of patients who are suspected of having an acute coronary syndrome, but without typical electrocardiographic changes and with normal troponin levels at presentation. As a result of rapid developments in coronary computed tomography angiography technology, high diagnostic accuracies for excluding coronary artery disease can be obtained. It has been shown that these patients can be discharged safely. The accuracy for detecting a significant coronary artery stenosis is also high, but the presence of coronary artery atherosclerosis or stenosis does not imply necessarily that the cause of the chest pain is related to coronary artery disease. Moreover, the non-invasive detection of coronary artery disease by computed tomography has been shown to be related with an increased use of subsequent invasive coronary angiography and revascularization, and further studies are needed to define which patients benefit from invasive evaluation following coronary computed tomography angiography. Conversely, the implementation of coronary computed tomography angiography can significantly reduce the length of hospital stay, with a significant cost reduction. Additionally, computed tomography is an excellent modality in patients whose symptoms suggest other causes of acute chest pain such as aortic aneurysm, aortic dissection, or pulmonary embolism. Furthermore, the acquisition of the coronary arteries, thoracic aorta, and pulmonary arteries in a single computed tomography examination is feasible, allowing ‘triple rule-out’ (exclusion of aortic dissection, pulmonary embolism, and coronary artery disease). Finally, other applications, such as the evaluation of coronary artery plaque composition, myocardial function and perfusion, or fractional flow reserve, are currently being developed and may also become valuable in the setting of acute chest pain in the future.

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23

Clinical Perfusion MRI: Techniques and Applications. Cambridge University Press, 2013.

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24

Casolo, Giancarlo, Massimo Midiri i Filippo Cademartiri. Clinical Applications of Cardiac CT. Springer, 2016.

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25

Clinical Applications Of Cardiac Ct. Springer, 2012.

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26

Fyodorov, S. N., V. Ya Kishkina i A. D. Semenov. Fluorescein Angiography of the Eye: Applications in Ophthalmosurgery (Advances in Science and Technology in the USSR). Crc Pr I Llc, 1992.

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27

B, Higgins Charles, Ingwall Joanne S i Pohost Gerald M, red. Current and future applications of magnetic resonance in cardiovascular disease. Armonk, NY: Futura Pub. Co., 1998.

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28

Paul, Richard, i Susanna Price. Imaging the cardiovascular system in the ICU. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199600830.003.0143.

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Cardiac imaging in the critically ill can be challenging. Interpretation requires a broad knowledge of cardiovascular pathophysiology, the range of available investigations, and their sensitivity and specificity in diagnosing individual conditions. Applying first principles and interpreting findings in the clinical context are mandatory. Useful non-invasive investigations include simple chest X-ray, thoracic ultrasound, and computed tomography (CT) to detect pulmonary and extrapulmonary pathology, whilst CT coronary angiography can evaluate stent and graft patency, and identify extramural plaques, undiagnosed with conventional angiography. Invasive left heart cardiac catheterization may be indicated in patients with cardiovascular instability and particularly in patients where cardiac surgery has involved manipulation of the coronary arteries, whilst right heart catheterization remains the gold standard for haemodynamic assessment of pulmonary hypertension. Echocardiography has many applications in the ICU, ranging from haemodynamic monitoring to aiding diagnosis of complex pathology and rapid diagnosis in cardiac arrest. Other investigation modalities less frequently used in the critical care population are also discussed within this chapter.

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29

Chen, Ji. Phase Analysis for Dyssynchrony by MPI and MUGA. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199392094.003.0022.

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Fourier phase analysis can be used to assess dyssynchrony from nuclear images, such as multi-gated acquisition (MUGA) radionuclide angiography, gated blood-pool SPECT, and gated SPECT myocardial perfusion imaging. This chapter reviews the technical background of Fourier phase analysis with these imaging modalities and demonstrates how it measures ventricular dyssynchrony. The major clinical application of ventricular dyssynchrony assessment is to improve response to cardiac resynchronization (CRT) in patients with heart failure. This chapter introduces the current practice of CRT and the potential factors related to CRT response, and then reviews the clinical studies of the above phase analysis techniques for increasing CRT response.

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30

Chadwick, David, Alastair Compston, Michael Donaghy, Nicholas Fletcher, Robert Grant, David Hilton-Jones, Martin Rossor, Peter Rothwell i Neil Scolding. Investigations. Oxford University Press, 2011. http://dx.doi.org/10.1093/med/9780198569381.003.0100.

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This chapter describes the many methods that can be used to investigate neurological disorders. The application and suitability for specific disorder types are outlined, as are contraindications for use. Methods of imaging the central nervous system include computed tomography (CT) imaging, several magnetic resonance (MR) scanning methods, Single photon emission computed tomography (SPECT) and Positron Emission Tomography (PET). Invasive (angiography) and non-invasive methods of imaging the cerebral circulation are also outlined.The standard method of recording electrical activity of the brain is the electroencephalogram (EEG), which is heavily used in epilepsy to investigate regions of epileptogenesis.Other investigations described include evoked potentials, nerve conduction and electromyography studies, the examination of cerebrospinal fluid and the diagnostic use of neurological autoantibodies. Finally, neurogenetics, neuropsychological assessment and the assessment of treatments by randomized trials are discussed.

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31

Price, Susanna, i Pascal Vranckx. Portable (short-term) mechanical circulatory support. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199687039.003.0030.

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Mechanical circulatory support can be used to resuscitate patients, as a stabilizing measure for angiography and prompt revascularization, or to buy time until more definite measures can be taken. In addition, there is experimental evidence that ventricular unloading of the left ventricle can significantly reduce the infarct size. Different systems for mechanical circulatory support are available to the medical community. Treatment options for mechanical circulatory support must be tailored to each patient in order to maximize the potential benefits and minimize the risk of detrimental effects. Intra-aortic balloon pumping is still the most widely used mechanical circulatory support therapy. The relative ease and speed with which this device can be applied to patients with a rapidly deteriorating haemodynamic picture have led to its widespread use as a first-line intervention among critically unstable patients. Where intra-aortic balloon pumping is inadequate, an immediate triage to a more advanced percutaneous (short-term) mechanical circulatory support may be warranted. Despite their extensive use, the utility of mechanical circulatory support devices in acute heart failure syndromes and cardiogenic shock remains uncertain. This chapter concentrates on the application of mechanical circulatory support relevant to the interventional cardiologist and cardiac intensive care physician.

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32

Price, Susanna, i Pascal Vranckx. Portable (short-term) mechanical circulatory support. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199687039.003.0030_update_001.

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Mechanical circulatory support can be used to resuscitate patients, as a stabilizing measure for angiography and prompt revascularization, or to buy time until more definite measures can be taken. In addition, there is experimental evidence that ventricular unloading of the left ventricle can significantly reduce the infarct size. Different systems for mechanical circulatory support are available to the medical community. Treatment options for mechanical circulatory support must be tailored to each patient in order to maximize the potential benefits and minimize the risk of detrimental effects. Intra-aortic balloon pumping is still the most widely used mechanical circulatory support therapy. The relative ease and speed with which this device can be applied to patients with a rapidly deteriorating haemodynamic picture have led to its widespread use as a first-line intervention among critically unstable patients. Where intra-aortic balloon pumping is inadequate, an immediate triage to a more advanced percutaneous (short-term) mechanical circulatory support may be warranted. Despite their extensive use, the utility of mechanical circulatory support devices in acute heart failure syndromes and cardiogenic shock remains uncertain. This chapter concentrates on the application of mechanical circulatory support relevant to the interventional cardiologist and cardiac intensive care physician.

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33

Price, Susanna, i Pascal Vranckx. Portable (short-term) mechanical circulatory support. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780199687039.003.0030_update_002.

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Mechanical circulatory support can be used to resuscitate patients, as a stabilizing measure for angiography and prompt revascularization, or to buy time until more definite measures can be taken. In addition, there is experimental evidence that ventricular unloading of the left ventricle can significantly reduce the infarct size. Different systems for mechanical circulatory support are available to the medical community. Treatment options for mechanical circulatory support must be tailored to each patient in order to maximize the potential benefits and minimize the risk of detrimental effects. Intra-aortic balloon pumping is still the most widely used mechanical circulatory support therapy. The relative ease and speed with which this device can be applied to patients with a rapidly deteriorating haemodynamic picture have led to its widespread use as a first-line intervention among critically unstable patients. Where intra-aortic balloon pumping is inadequate, an immediate triage to a more advanced percutaneous (short-term) mechanical circulatory support may be warranted. Despite their extensive use, the utility of mechanical circulatory support devices in acute heart failure syndromes and cardiogenic shock remains uncertain. This chapter concentrates on the application of mechanical circulatory support relevant to the interventional cardiologist and cardiac intensive care physician.

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