Dick, Frederic and Taylor Tierney, A. and Lutti, A. and Josephs, O. and Sereno, Martin I. and Weiskopf, N. (2012) In vivo functional and myeloarchitectonic mapping of human primary auditory areas. Journal of Neuroscience 32 (46), pp. 16095-16105. ISSN 0270-6474.
5704.pdf - Published Version
Restricted to Repository staff only until 1 June 2013.
In contrast to vision, where retinotopic mapping alone can define areal borders, primary auditory areas such as A1 are best delineated by combining in vivo tonotopic mapping with postmortem cyto- or myeloarchitectonics from the same individual. We combined high-resolution (800 μm) quantitative T(1) mapping with phase-encoded tonotopic methods to map primary auditory areas (A1 and R) within the "auditory core" of human volunteers. We first quantitatively characterize the highly myelinated auditory core in terms of shape, area, cortical depth profile, and position, with our data showing considerable correspondence to postmortem myeloarchitectonic studies, both in cross-participant averages and in individuals. The core region contains two "mirror-image" tonotopic maps oriented along the same axis as observed in macaque and owl monkey. We suggest that these two maps within the core are the human analogs of primate auditory areas A1 and R. The core occupies a much smaller portion of tonotopically organized cortex on the superior temporal plane and gyrus than is generally supposed. The multimodal approach to defining the auditory core will facilitate investigations of structure-function relationships, comparative neuroanatomical studies, and promises new biomarkers for diagnosis and clinical studies.
|School or Research Centre:||Birkbeck Schools and Research Centres > School of Science > Psychology|
|Date Deposited:||20 Nov 2012 14:26|
|Last Modified:||09 May 2013 15:07|
Archive Staff Only (login required)