Citation: La. Taber, A MODEL FOR AORTIC GROWTH BASED ON FLUID SHEAR AND FIBER STRESSES, Journal of biomechanical engineering, 120(3), 1998, pp. 348-354
Citation: La. Taber, AN OPTIMIZATION PRINCIPLE FOR VASCULAR RADIUS INCLUDING THE EFFECTS OF SMOOTH-MUSCLE TONE, Biophysical journal, 74(1), 1998, pp. 109-114
Citation: Ce. Miller et al., PASSIVE STRESS-STRAIN MEASUREMENTS IN THE STAGE-16 AND STAGE-18 EMBRYONIC CHICK HEART, Journal of biomechanical engineering, 119(4), 1997, pp. 445-451
Citation: La. Taber et Ww. Podszus, A LAMINATED SHELL-MODEL FOR THE INFARCTED LEFT-VENTRICLE, International journal of solids and structures, 34(2), 1997, pp. 223-241
Citation: La. Taber et Dw. Eggers, THEORETICAL-STUDY OF STRESS-MODULATED GROWTH IN THE AORTA, Journal of theoretical biology, 180(4), 1996, pp. 343-357
Citation: Ie. Lin et La. Taber, A MODEL FOR STRESS-INDUCED GROWTH IN THE DEVELOPING HEART, Journal of biomechanical engineering, 117(3), 1995, pp. 343-349
Citation: M. Yang et al., A NONLINEAR POROELASTIC MODEL FOR THE TRABECULAR EMBRYONIC HEART, Journal of biomechanical engineering, 116(2), 1994, pp. 213-223
Citation: La. Taber et al., EPICARDIAL STRAINS IN EMBRYONIC CHICK VENTRICLE AT STAGE-16 THROUGH STAGE-24, Circulation research, 75(5), 1994, pp. 896-903