Literature DB >> 3442711

Modeling water flow through arterial tissue.

M Klanchar, J M Tarbell.   

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Year:  1987        PMID: 3442711     DOI: 10.1007/BF02481766

Source DB:  PubMed          Journal:  Bull Math Biol        ISSN: 0092-8240            Impact factor:   1.758


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  13 in total

1.  Mathematical models of arterial transmural transport.

Authors:  D L Fry
Journal:  Am J Physiol       Date:  1985-02

2.  Transmural organization of the arterial media. The lamellar unit revisited.

Authors:  J M Clark; S Glagov
Journal:  Arteriosclerosis       Date:  1985 Jan-Feb

3.  Compressibility and constitutive equation of arterial wall in radial compression experiments.

Authors:  C J Chuong; Y C Fung
Journal:  J Biomech       Date:  1984       Impact factor: 2.712

4.  Filtration through damaged and undamaged rabbit thoracic aorta.

Authors:  A Tedgui; M J Lever
Journal:  Am J Physiol       Date:  1984-11

5.  The interaction of convection and diffusion in the transport of 131I-albumin within the media of the rabbit thoracic aorta.

Authors:  A Tedgui; M J Lever
Journal:  Circ Res       Date:  1985-12       Impact factor: 17.367

6.  A mathematical model of water flux through aortic tissue.

Authors:  D E Kenyon
Journal:  Bull Math Biol       Date:  1979       Impact factor: 1.758

7.  A fiber matrix model of capillary permeability.

Authors:  F E Curry; C C Michel
Journal:  Microvasc Res       Date:  1980-07       Impact factor: 3.514

8.  Drag-induced compression of articular cartilage during a permeation experiment.

Authors:  W M Lai; V C Mow
Journal:  Biorheology       Date:  1980       Impact factor: 1.875

Review 9.  Fluid transport and mechanical properties of articular cartilage: a review.

Authors:  V C Mow; M H Holmes; W M Lai
Journal:  J Biomech       Date:  1984       Impact factor: 2.712

10.  Hydraulic conductivity of the endothelial and outer layers of the rabbit aorta.

Authors:  C B Vargas; F F Vargas; J G Pribyl; P L Blackshear
Journal:  Am J Physiol       Date:  1979-01
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  7 in total

1.  Flow-induced deformation from pressurized cavities in absorbing porous tissues.

Authors:  S I Barry; G K Aldis
Journal:  Bull Math Biol       Date:  1992-11       Impact factor: 1.758

2.  Distribution of shear stress over smooth muscle cells in deformable arterial wall.

Authors:  Mahsa Dabagh; Payman Jalali; Yrjö T Konttinen; Pertti Sarkomaa
Journal:  Med Biol Eng Comput       Date:  2008-04-02       Impact factor: 2.602

3.  Mechanical properties and collagen content differ between isolated guinea pig duodenum, jejunum, and distal ileum.

Authors:  J H Storkholm; G E Villadsen; S L Jensen; H Gregersen
Journal:  Dig Dis Sci       Date:  1998-09       Impact factor: 3.199

4.  Effect of pressure on transmural fluid flow in different de-endothelialised arteries.

Authors:  P Dhar; G Jayaraman; N Karmakar; S C Manchanda
Journal:  Med Biol Eng Comput       Date:  1996-03       Impact factor: 2.602

5.  Remodeling of conduit arteries in hypertension and flow-overload obeys a minimum energy principle.

Authors:  Wei Zhang; Ghassan S Kassab
Journal:  J Biomech       Date:  2008-07-07       Impact factor: 2.712

6.  Intimal and medial contributions to the hydraulic resistance of the arterial wall at different pressures: a combined computational and experimental study.

Authors:  K Y Chooi; A Comerford; S J Sherwin; P D Weinberg
Journal:  J R Soc Interface       Date:  2016-06       Impact factor: 4.118

7.  From arteries to boreholes: steady-state response of a poroelastic cylinder to fluid injection.

Authors:  L C Auton; C W MacMinn
Journal:  Proc Math Phys Eng Sci       Date:  2017-05-31       Impact factor: 2.704
  7 in total

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