Numeric-Design-Engineering-

Alexander Veress, Ph.D.


Farrar GE, Gullberg GT, Segars WP, Veress AI, Image-Based Cardiac Strain: Progression of Diastolic and Systolic Dysfunction in the Spontaneously Hypertensive Rat. LBNL-1005996

Veress AI, Fung GSK, Lee T,  Tsui BMW, Segars WP, and Gullberg GT. The Direct Incorporation of Perfusion Defect Information to  Define Ischemia and Infarction in the Finite Element  Model of the Left Ventricle. Journal of  Biomechanical Engineering 137(5), 051004 (May 01, 2015) (10 pages)  BIO-14-1209; doi: 10.1115/1.4028989

Henderson J, Shannon G,  Veress AI and Neu CP. Direct Measurement of  Intranuclear Strain Distributions and RNA Synthesis  in Single Cells Embedded within Native Tissue.  Biophysical Journal, 105(10):2252-61, 2013. doi:  10.1016/j.bpj.2013.09.054.

Veress AI, Klein G, and  Gullberg GT. A Comparison of Hyperelastic Warping of  PET Images with Tagged MRI for the Analysis of  Cardiac Deformation. International Journal of  Biomedical Imaging.  Article ID 728624, 14 pages,  2013.

Veress AI, Raymond GM,  Gullberg GT, and Bassingthwaighte JBB. Left  Ventricular Finite Element Model bounded by a  Systemic Circulation Model. Journal of Biomechanical  Engineering. 135(5), 054502, 6 pages , Apr 24, 2013.

Veress, AI, Segars WP,  Tsui BMW, and Gullberg GT. Incorporation of a Left  Ventricle Finite Element Model Defining Infarction  into the XCAT Imaging Phantom. IEEE Transactions on  Medical Imaging. 30(4):915-27, 2011. 

Veress AI, Weiss JA, Huesman RH, Reutter BW, Taylor SE, Sitek A, Feng B, Yang  Y, Gullberg GT. Regional Changes in the Diastolic Deformation of the  Left Ventricle for SHR Rats using 18FDG based microPET Technology and  Hyperelastic Warping. Annals of Biomedical Engineering 36(7):1104-17,  2008.

Veress AI, Segars WP, Tsui, BMW, Weiss JA, Gullberg, GT. Normal and  Pathological NCAT Image and Phantom Data Based on Physiologically  Realistic Left Ventricle Finite Element Models. IEEE Transactions on  Medical Imaging. 25(12):1604-1616, 2006.
 
Veress AI, Gullberg GT, Weiss JA.  Measurement of Strain in the Left Ventricle during Diastole with cine-MRI and Deformable Image Registration.   Journal of Biomechanical Engineering, 127(7):1195-207, 2005.

Veress AI, Weiss JA, Gullberg GT, Vince DG, Rabbitt RD. Strain Measurement in  Coronary Arteries Using Intravascular Ultrasound and Deformable Images.  Journal of Biomechanical Engineering, 124:734-741, 2002.
 

 

Chapters in edited books

Giannakidis A, Rohmer D, Veress AI, and Gullberg GT. Chapter 57: Diffusion tensor MRI-derived myocardial fiber disarray in hypertensive left ventricular hypertrophy: visualization, quantification and the effect on mechanical function. In: Cardiac Mapping, 4th edition. Mohammad Shenasa, ed. Blackwell Publishing Limited, United Kingdom. December 2012, 978-0470670460


Weiss JA, Veress AI, Gullberg GT, Phatak NS, Sun Q, Parker DL, and Rabbitt RD. 2006. Strain measurement using deformable image registration. In: Mechanics of Biological Tissue: 3-540-25194-4: Holzapfel GA, Ogden RW ed. 489-502.


Veress AI, Phatak NS, and Weiss JA. 2005. Deformable Image Registration with Hyperelastic Warping In : Handbook of Biomedical Image Analysis: Vol. 3, Registration Models (Part A). In: Suri, Wilson, Laxminarayan editors. 487-534.

 


Chapters in edited books (peer reviewed)

Veress AI, Coleman BR, Farrar G, Segars WP, and Fabien BC. 2013, Image Based Estimation of Passive Myocardial Properties Using Finite Element Modeling. In: CRC Handbook on Imaging in Biological Mechanics, CRC Press, Genin G, Nue CP. ed. 155-168.
 

               Complete list of Peer Reviewed Journal Articles can be found here.