@Article{RSM:Pun2005,
  author =       "B.B. Punske and B. Taccardi and B. Steadman and P.R.
                 Ershler and A. England and M.L. Valencik and J.A.
                 McDonald and S.E. Litwin",
  title =        "Effect of fiber orientation on propagation: electrical
                 mapping of genetically altered mouse hearts.",
  journal =      j-JE,
  year =         "2005",
  month =        oct,
  volume =       "38",
  number =       "4 Suppl",
  pages =        "40--44",
  robnote =      "BACKGROUND: Epicardial potentials reveal the strong
                 effects of fiber anisotropy, rotation, imbrication, and
                 coupling on propagation in the intact heart. From the
                 patterns of the surface potentials, we can obtain
                 information about the local fiber orientation,
                 anisotropy, the transmural fiber rotation, and which
                 direction the wave front is traveling through the wall.
                 In this study, lessons learned from epicardial
                 potential mapping of large hearts were applied to
                 studies conducted in genetically altered mouse hearts.
                 METHODS: An inducible model of the overexpression of
                 a",
  bibdate =      "Thu Dec 28 15:49:33 2006",
}

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