Bibliographies:
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Perfusion_bib.pdf : Selected references on the visual analysis of perfusion data

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Videos:
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BEP_picking.wmv : Anatomy and myocardial perfusion of a patient suffering from 
	atherosclerosis. Upper left: Apical slice of the original perfusion data set and the 
	AHA-consistent division of the myocardium overlaid. Upper right: Apical slice of the 
	parameter volume computed for the dynamic parameter up-slope. Middle left: Bulls-Eye 
	Plot (BEP) which color-codes the parameter up-slope. Segment 17 is missing since no slice 
	has been acquired at the apex itself. Lower left: Time-intensity curves corresponding 
	to the selected BEP segments. Lower Right: Coronary branch supplying the selected 
	segments. The user is guided through the scene by means of animations instead of being 
	confronted only with the interaction results. (Computed Tomography Coronary Angiography
	data was provided by Dr. Achenbach, Department of Radiology, University of Erlangen-
	Nrnberg, Germany and SIEMENS Medical Solutions. Magnetic Resonance Perfusion data 
	was provided by M. Fenchel, S. Miller and A. Seeger, Max Planck MR-center, University 
	of Tbingen, Germany)

BreastTumorDiagnosis.wmv: Video showing the interactive visual analysis of a dataset from breast tumor 
                  diagnosis. Please, also visit the supplemental website: http://wwwisg.cs.uni-magdeburg.de/cv/VAoPD/

Myocardial_perfusion.gif : Time-sequence illustrating myocardial perfusion. The injected contrast
	agent (bright regions) first arrives in the right ventricle, then travels through the
	left ventricular lumen and finally arrives in the myocardium (ring-shaped area). A 
	perfusion defect appears in the septal region (large half-moon shaped dark area, lower
                  left) where no contrast agent is accumulated. (Magnetic Resonance Perfusion data was 
                  provided by M. Fenchel, S. Miller and A. Seeger, Max Planck MR-center, University of 
                  Tbingen, Germany)

Myocardial_function.gif: Time-sequence illustrating myocardial contractility. While in the perfusion sequence
                  (Myocardial_perfusion.gif) the myocardium is imaged always at the same time point during the 
                  cardiac cycle, this sequence shows the myocardium at different time points covering one cardiac 
                  cycle. Thus, the contraction and relaxation processes are imaged. (Magnetic Resonance Functional 
                  data was provided by F. Grothues, Department of Cardiology, University of Magdeburg, Germany) 

Cerebral_perfusion.gif : Time-sequence illustrating cerebral perfusion. Compared to myocardial 
        perfusion (Myocardial_perfusion.gif), the contrast agent here leads to a decrease in 
	signal intensity in healthy tissue. This is due to the applied T2-weighted imaging 
        (in contrast to T1-weighted imaging). The infarction zone remains bright and is
        located within the right hemisphere which appears left in the image. (Magnetic 
        Resonance Perfusion data was provided by J. Wiener, Radiology, Boca Raton Community 
        Hospital, Floria, US) 

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