Literature DB >> 1515872

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

S I Barry1, G K Aldis.   

Abstract

The behaviour of a cavity during an injection of fluid into biological tissue is considered. High cavity pressure drives fluid into the neighbouring tissue where it is absorbed by capillaries and lymphatics. The tissue is modelled as a nonlinear deformable porous medium with the injected fluid absorbed by the tissue at a rate proportional to the local pressure. A model with a spherical cavity in an infinite medium is used to find the pressure and displacement of the tissue as a function of time and radial distance. Analytical and numerical solutions for a step change in cavity pressure show that the flow induces a radial compression in the medium together with an annular expansion, the net result being an overall expansion of the medium. Thus any flow induced deformation of the material will aid in the absorption of fluid.

Mesh:

Year:  1992        PMID: 1515872     DOI: 10.1007/bf02460662

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


  18 in total

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Authors:  S I Barry; G K Aldis
Journal:  J Biomech       Date:  1990       Impact factor: 2.712

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Authors:  M Klanchar; J M Tarbell
Journal:  Bull Math Biol       Date:  1987       Impact factor: 1.758

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Journal:  Biorheology       Date:  1987       Impact factor: 1.875

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5.  In vitro compression of a soft tissue layer on a rigid foundation.

Authors:  C W Oomens; D H van Campen; H J Grootenboer
Journal:  J Biomech       Date:  1987       Impact factor: 2.712

6.  Diffusion from an injected volume of a substance in brain tissue with arbitrary volume fraction and tortuosity.

Authors:  C Nicholson
Journal:  Brain Res       Date:  1985-05-06       Impact factor: 3.252

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

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

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

9.  Biphasic creep and stress relaxation of articular cartilage in compression? Theory and experiments.

Authors:  V C Mow; S C Kuei; W M Lai; C G Armstrong
Journal:  J Biomech Eng       Date:  1980-02       Impact factor: 2.097

10.  Water transport in the arterial wall--a theoretical study.

Authors:  G Jayaraman
Journal:  J Biomech       Date:  1983       Impact factor: 2.712
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  7 in total

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6.  A voxelized model of direct infusion into the corpus callosum and hippocampus of the rat brain: model development and parameter analysis.

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7.  Fluid absorption by skin tissue during intradermal injections through hollow microneedles.

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  7 in total

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