B Yvert

Summary

Country: France

Publications

  1. ncbi request reprint Multiple supratemporal sources of magnetic and electric auditory evoked middle latency components in humans
    B Yvert
    INSERM Unite 280, Mental Processes and Brain Activation, Lyon, France
    Cereb Cortex 11:411-23. 2001
  2. ncbi request reprint Fast realistic modeling in bioelectromagnetism using lead-field interpolation
    B Yvert
    INSERM Unite 280, 151 cours Albert Tomas, F 69424 Lyon Cedex 03, France
    Hum Brain Mapp 14:48-63. 2001
  3. ncbi request reprint An evaluation of dipole reconstruction accuracy with spherical and realistic head models in MEG
    A Crouzeix
    Mental Processes and Brain Activation, INSERM U280, Lyons, France
    Clin Neurophysiol 110:2176-88. 1999

Detail Information

Publications3

  1. ncbi request reprint Multiple supratemporal sources of magnetic and electric auditory evoked middle latency components in humans
    B Yvert
    INSERM Unite 280, Mental Processes and Brain Activation, Lyon, France
    Cereb Cortex 11:411-23. 2001
    ..The early STG activity may be attributed to parallel thalamo-cortical connections, or to cortico-cortical connections between the primary auditory cortex and the STG, as recently described in humans...
  2. ncbi request reprint Fast realistic modeling in bioelectromagnetism using lead-field interpolation
    B Yvert
    INSERM Unite 280, 151 cours Albert Tomas, F 69424 Lyon Cedex 03, France
    Hum Brain Mapp 14:48-63. 2001
    ..This method would show special usefulness when combining realistic models with stochastic inverse procedures (simulated annealing, genetic algorithms) requiring many forward calculations...
  3. ncbi request reprint An evaluation of dipole reconstruction accuracy with spherical and realistic head models in MEG
    A Crouzeix
    Mental Processes and Brain Activation, INSERM U280, Lyons, France
    Clin Neurophysiol 110:2176-88. 1999
    ..Orientation errors of less than 20 degrees could only be retrieved with a 3-layer realistic model. Localization and orientation errors highly depended on the dipole position in the brain...