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Tonar2011
Microstructure oriented modelling of hierarchically perfused porous media for cerebral blood flow evaluation (bibtex)
@InProceedings{Tonar2011,
  Title                    = {Microstructure oriented modelling of hierarchically perfused porous media for cerebral blood flow evaluation},
  Author                   = {Tonar, Zbynek and Kochova, Petra and Cimrman, Robert and Witter, Kirsti and Janacek, Jiri and Rohan, Vladimir},
  Booktitle                = {{MATERIALS STRUCTURE \& MICROMECHANICS OF FRACTURE}},
  Year                     = {2011},

  Address                  = {{LAUBLSRUTISTR 24, CH-8717 STAFA-ZURICH, SWITZERLAND}},
  Editor                   = {{Sandera, P}},
  Note                     = {{6th International Conference on Materials Structure and Micromechanics of Fracture, Brno, CZECH REPUBLIC, JUN 28-30, 2010}},
  Pages                    = {{286-289}},
  Publisher                = {{TRANS TECH PUBLICATIONS LTD}},
  Series                   = {{Key Engineering Materials}},
  Volume                   = {{465}},

  Abstract                 = {{We used immunochemistry, light microscopy and stereological methods for quantitative description of the microvascular network in 13 tissue samples of the human brain. While the tortuosity of microvessels was comparable in all brain parts under study, the length density of microvessels was higher in subcortical grey matter (652.5 +/- 162.0 mm(-2)) and in the cortex (570.9 +/- 71.8 mm(-2)) than in the white matter (152.7 +/- 42.0 mm(-2)). The numerical density of microvessels was higher in subcortical grey matter (3782.0 +/- 1602.0 mm(-3)) and cerebral cortex (3160.0 +/- 638.4 mm(-3)) than in white matter (627.7 +/- 318.5 mm(-3)). We developed simulation software gensei which generates series of images representing three-dimensional models of microvessels with known length density, volume fraction, and surface density. The simulations are statistically similar to real microvessel networks and can be used for computer modelling of brain perfusion.}},
  Affiliation              = {{Tonar, Z (Reprint Author), Univ W Bohemia, Fac Sci Appl, Dept Mech, Husova 11, Plzen, Czech Republic. Tonar, Zbynek; Kochova, Petra; Cimrman, Robert, Univ W Bohemia, Fac Sci Appl, Dept Mech, Plzen, Czech Republic.}},
  Author-email             = {{tonar@ntc.zcu.cz kochovap@kme.zcu.cz cimrman3@ntc.zcu.cz kirsti.witter@vetmeduni.ac.at janacek@biomed.cas.cz rohan@fnplzen.cz}},
  Doc-delivery-number      = {{BVK41}},
  Doi                      = {{10.4028/www.scientific.net/KEM.465.286}},
  ISSN                     = {{1013-9826}},
  Keywords                 = {{brain; perfusion; morphometry; microvessels; stereology; modelling}},
  Keywords-plus            = {{DENSITY; LENGTH}},
  Language                 = {{English}},
  Number-of-cited-references = {{4}},
  Owner                    = {vcelak},
  Subject-category         = {{Materials Science}},
  Times-cited              = {{1}},
  Timestamp                = {2012.08.25},
  Type                     = {{Proceedings Paper}},
  Unique-id                = {{ISI:000291704700064}},
  Web-of-science-category  = {{Materials Science, Ceramics; Materials Science, Multidisciplinary; Materials Science, Composites}}
}
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