-
Steele CR and Taber LA
(1979). Comparison of WKB and finite difference calculations for a
two-dimensional cochlear model, J
Acoust Soc Amer 65,
1001-1006.
-
Steele CR and Taber LA
(1979). Comparison of WKB calculations and experimental results for
three-dimensional cochlear models, J
Acoust Soc Amer 65,
1007-1018.
-
Steele CR and Taber LA
(1981). Three-dimensional model calculations for guinea pig cochlea, J Acoust Soc Amer 69, 1107-1111.
-
Taber LA and Steele CR
(1981). Cochlear model including three-dimensional fluid and four modes
of partition flexibility, J Acoust
Soc Amer 70,
426-436.
-
Khalil TB, Viano DC, and
Taber LA (1981). Vibrational characteristics of the embalmed human
femur, J Sound Vibr
75, 417-436.
-
Taber LA (1982). Large
deflection of a fluid-filled spherical shell under a point load,
J Appl Mech
49, l2l-l28.
-
Taber LA and
Viano
DC (1982). Comparison of
analytical and experimental results for free vibration of nonuniform
composite beams, J Sound Vibr
83, 219-228.
-
Taber LA (1983). Compression
of fluid-filled spherical shells by rigid indenters,
J Appl Mech
50, 7l7-722.
-
Taber LA (1984). Large
deformation mechanics of the enucleated eyeball,
J Biomech Eng
106, 229-234.
-
Taber LA (1985). Nonlinear
asymptotic solution of the reissner plate equations,
J Appl Mech
52, 907-912.
-
Taber LA (1985). On
approximate large strain relations for a shell of revolution,
Int J Non-Linear Mech
20, 27-39.
-
Cagan J and Taber LA (1986).
Large deflection stability of spherical shells with ring loads,
J Appl Mech
53, 897-901.
-
Taber LA (1986). A
variational principle for large axisymmetric strain of incompressible
circular plates, Int J Non-Linear
Mech 21,
327-337.
-
Taber LA (1987). Asymptotic
expansions for large elastic strain of a circular plate,
Int J Solids Struct
23, 719-732.
-
Taber LA (1987). On boundary
layers in a pressurized mooney cylinder,
J Appl Mech 54,
280-286.
-
Taber LA (1987). Large
elastic deformation of shear deformable shells of revolution: theory and
analysis, J Appl Mech
54, 578-584.
-
Taber LA (1988). On a theory
for large elastic deformation of shells of revolution including torsion
and thick-shell effects, Int J
Solids Struct 24,
973-985.
-
Taber LA (1988). Large-strain
behavior of unsymmetric laminates, J
Appl Mech 55, 738-740.
-
Kempski MH, Taber LA, and Su
FC (1988). Large elastic deformation of shear deformable shells of
revolution: numerical and experimental results,
J Appl Mech
55, 629-634.
-
Taber LA (1989). Comparison
of elasticity and shell theory results for large deformation of
rubberlike shells, Int J Non-Linear
Mech 24,
237-249.
-
Taber LA (1991). On a
nonlinear theory for muscle shells: I. Theoretical development,
J Biomech Eng
113, 56-62.
-
Taber LA (1991). On a nonlinear
theory for muscle shells: II. Application to the active left ventricle,
J Biomech Eng
113, 63-71.
-
Yang M and Taber LA (1991).
The possible role of poroelasticity in the apparent viscoelastic
behavior of passive cardiac muscle, J
Biomech 24,
587-597.
-
Su FC and Taber LA (1992).
Torsional boundary layer effects in shells of revolution undergoing
large axisymmetric deformation, Comput
Mech 10,
23-37.
-
Taber LA, Keller BB, and
Clark EB (1992). Cardiac mechanics in the stage-16 chick embryo,
J Biomech Eng
114, 427-434.
-
Taber LA (1992). A theory for
transverse deflection of poroelastic plates,
J Appl Mech 59,
628-634.
-
Taber LA (1992). Axisymmetric
deformation of poroelastic shells of revolution,
Int J Solids Struct
29, 3125-3143.
-
Taber LA, Hu N, Pexieder T,
Clark EB, and Keller BB (1993). Residual strain in the ventricle of the
stage 16-24 chick embryo, Circ Res
72, 455-462.
-
Lin IE and Taber LA (1994).
Mechanical effects of looping in the embryonic chick heart,
J Biomech
27, 311-321.
-
Yang M, Taber LA, and Clark
EB (1994). A nonlinear poroelastic model for the trabecular embryonic
heart, J Biomech Eng
116, 213-223.
-
Taber LA, Sun H, Clark EB,
and Keller BB (1994). Epicardial strains in embryonic chick ventricle at
stages 16 through 24, Circ Res
75, 896-903.
-
Taber LA, Lin IE, and Clark
EB (1995). Mechanics of cardiac looping,
Dev Dynamics 203,
42-50.
-
Lin IE and Taber LA (1995). A
model for stress-induced growth in the developing heart,
J Biomech Eng
117, 343-349.
-
Taber LA, Yang M, and Podszus
WW (1996). Mechanics of ventricular torsion,
J Biomech 29,
745-752.
-
Taber LA and Eggers DW
(1996). Theoretical study of stress-modulated growth in the aorta,
J Theor Biol
180, 343-357.
-
Taber LA and Podszus WW
(1997). A laminated shell model for the infarcted left ventricle,
Int J Solids Struct
34, 223-241.
-
Miller CE, Vanni MA, Taber
LA, and Keller BB (1997). Passive stress-strain measurements in the
stage-16 and stage-18 embryonic chick heart,
J Biomech Eng 119,
445-451.
-
Taber LA (1998). A model for
aortic growth based on fluid shear and fiber stresses,
J Biomech Eng
120, 348-354.
-
Taber LA (1998). An
optimization principle for vascular radius including the effects of
smooth muscle tone, Biophys J
74, 109-114.
-
Taber LA (1998).
Biomechanical growth laws for muscle tissue,
J Theor Biol 193,
201-213.
-
Taber LA (1999). Pattern
formation in a nonlinear membrane model for epithelial morphogenesis,
Acta Biotheoretica
48, 47-63.
-
Taber LA, Ng
S, Quesnel AM, Whatman J, and Carmen CJ (2001). Investigating
Murray's law in
the chick embryo,
J Biomech
34, 121-124.
-
Taber LA and Zahalak GI
(2001). Theoretical model for myocardial trabeculation.
Dev Dynamics
220, 226-237.
-
Taber LA and
Humphrey JD (2001). Stress-modulated growth, residual stress, and
vascular heterogeneity,
J Biomech Eng
123, 528-535.
-
Chabert S
and Taber LA (2002). Intramyocardial pressure measurements in the
stage-18 embryonic chick heart,
Am J Physiol
282, H1248-H1254.
-
Ping L,
Taber LA, and Humphrey JD (2002). Approach to quantify the mechanical behavior
of the intact embryonic chick heart,
Ann Biomed Eng
30, 636-645.
-
Taber LA and
Chabert S (2002). Theoretical and experimental study of growth and
remodeling in the developing heart,
Biomech Modeling
Mechanobiol 1, 29-43.
-
Voronov DA
and Taber LA (2002). Cardiac looping in experimental conditions: the
effects of extraembryonic forces,
Dev Dynamics
224, 413-421.
-
Alford PW
and Taber LA (2003). Regional epicardial strain in the embryonic chick
heart during the early looping stages,
J Biomech
36, 1135-1141.
-
Zamir EA,
Srinivasan V, Perucchio R, and Taber LA (2003). Mechanical asymmetry in
the embryonic chick heart during looping,
Ann Biomed Eng
31, 1327-1336.
-
Gleason RL, Taber LA, and
Humphrey JD (2004). A 2-D model of flow-induced alterations in the geometry,
structure, and properties of carotid arteries,
J Biomech Eng 126, 371-381.
-
*Zamir EA and Taber LA (2004).
On the effects of residual stress in microindentation tests of soft
tissue structures,
J Biomech Eng
126, 276-283.
-
Voronov DA,Alford
PW, Xu G, and Taber LA
(2004). The role of mechanical forces in dextral rotation during cardiac
looping in the chick embryo, Dev Biol 272, 339-350.
-
Zamir EA and Taber LA (2004).
Material properties and residual stress in the stage 12 chick heart during
cardiac looping, J Biomech Eng
126, 823-830.
-
Latacha KS, Remond M, Ramasubramanian A, Chen AY, Elson EL, and Taber LA
(2005). The role of actin polymerization in bending of the early heart tube,
Dev Dynamics 233, 1272-1286.
-
Nerurkar NL, Ramasubramanian A,
and Taber LA (2006). Morphogenetic
adaptation
of the looping embryonic heart to altered mechanical loads, Dev Dynamics 235, 1822-1829.
-
Ramasubramanian A,
Latacha LS, Benjamin JM, Voronov DA, Ravi A, and Taber LA (2006).
Computational model for early cardiac looping, Ann Biomed Eng
34, 1655-1669.
-
Remond M, Fee JA,
Elson EL, and Taber LA (2006). Myosin-based contraction is not necessary for
cardiac c-looping in the chick embryo, Anat Embryol
211, 443-454.
-
**Taber LA, Zhang J, and
Perucchio R (2007). Computational model for the transition from
peristaltic to pulsatile flow in the embryonic heart tube, J Biomech Eng
129, 441-449.
-
Filas BA, Efimov IR, and
Taber LA (2007). Optical coherence tomography as a tool for
measuring morphogenetic deformation of the looping heart, Anat Rec
290, 1057-1068.
-
Ramasubramanian A and Taber LA (2008). Computational Modeling of
Morphogenesis Regulated by Mechanical Feedback,
Biomech Modeling
Mechanobiol,
7, 77-91.
-
Alford PW, Humphrey JD,
Taber LA (2008). Growth and Remodeling in a Thick-Walled Artery Model:
Effects of spatial variations in wall constituents, Biomech Modeling
Mechanobiol 7, 245-262.
-
Taber LA (2008).
Theoretical study of Beloussov’s hyper-restoration hypothesis for mechanical regulation of morphogenesis,
Biomech Modeling Mechanobiol
7, 427-441.
-
Alford PW and Taber LA
(2008). Computational study of growth and remodeling in the
aortic arch, Comp Meth Biomech Biomed Eng
11, 525-538.
-
Filas BA, Knutsen AK,
Bayly PV, and Taber LA (2008). A new method for measuring deformation of
folding surfaces during morphogenesis, J Biomech Eng
130, 061010.
-
Ramasubramanian A,
Nerurkar NL, Achtien KH, Filas BA, Voronov DA, and Taber LA
(2008). On modeling morphogenesis of the looping heart following mechanical perturbations,
J Biomech Eng 130, 061018.
-
Xu G, Bayly PV, and
Taber LA (2008). Residual stress in the adult mouse brain, Biomech
Modeling
Mechanobiol
8,253-262.
-
Taber LA (2009).Toward a unified theory for morphomechanics,
Phil Trans Roy Soc A 367, 3555-3583.
-
Xu G, Kemp PS, Hwu JA, Beagley AM, Bayly PV, and Taber LA
(2009). Opening angles and material properties of the early embryonic chick
brain, J Biomech Eng (in press).
