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Cardiovascular Research
|
March 1, 1992
Engineering and physiological approaches to the study of cardiovascular function
K H Parker
Annals of the New York Academy of Sciences
|
May 27, 1983
Spatial characteristics of turbulence in the aorta
T Yamaguchi, K H Parker
Journal of Biomechanics
|
July 22, 1998
Movement of spherical particles in capillaries using a boundary singularity method
W Wang, K H Parker
Journal of Biomechanics
|
January 1, 1989
A mathematical model of flow through a collapsible tube--I. Model and steady flow results
P Morgan, K H Parker
Biophysical Journal
|
December 10, 1999
The deformation of spherical vesicles with permeable, constant-area membranes: application to the red blood cell
K H Parker, C P Winlove
Medical & Biological Engineering & Computing
|
February 10, 2009
Forward and backward waves in the arterial system: impedance or wave intensity analysis?
A D Hughes, K H Parker
Journal of Biomechanics
|
February 17, 2005
Wave intensity in the ascending aorta: effects of arterial occlusion
A W Khir, K H Parker
Biorheology
|
January 1, 1987
Electrokinetic effects on luminal and transmural fluid flow in capillaries
C P Winlove, K H Parker
Journal of Biomechanics
|
May 22, 2002
Measurements of wave speed and reflected waves in elastic tubes and bifurcations
A W Khir, K H Parker
Biorheology
|
January 1, 1984
The macromolecular basis of the hydraulic conductivity of the arterial wall
K H Parker, C P Winlove
Page
of 10
Search research articles
Search
Showing results (1-10 of 95) with videos related to
Sort By:
Page
of 10
Cardiovascular Research
|
March 1, 1992
Engineering and physiological approaches to the study of cardiovascular function
K H Parker
Annals of the New York Academy of Sciences
|
May 27, 1983
Spatial characteristics of turbulence in the aorta
T Yamaguchi, K H Parker
Journal of Biomechanics
|
July 22, 1998
Movement of spherical particles in capillaries using a boundary singularity method
W Wang, K H Parker
Journal of Biomechanics
|
January 1, 1989
A mathematical model of flow through a collapsible tube--I. Model and steady flow results
P Morgan, K H Parker
Biophysical Journal
|
December 10, 1999
The deformation of spherical vesicles with permeable, constant-area membranes: application to the red blood cell
K H Parker, C P Winlove
Medical & Biological Engineering & Computing
|
February 10, 2009
Forward and backward waves in the arterial system: impedance or wave intensity analysis?
A D Hughes, K H Parker
Journal of Biomechanics
|
February 17, 2005
Wave intensity in the ascending aorta: effects of arterial occlusion
A W Khir, K H Parker
Biorheology
|
January 1, 1987
Electrokinetic effects on luminal and transmural fluid flow in capillaries
C P Winlove, K H Parker
Journal of Biomechanics
|
May 22, 2002
Measurements of wave speed and reflected waves in elastic tubes and bifurcations
A W Khir, K H Parker
Biorheology
|
January 1, 1984
The macromolecular basis of the hydraulic conductivity of the arterial wall
K H Parker, C P Winlove
Page
of 10