The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
Copyrights notice
The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
Konsep "otak piawai" sudah biasa dalam teknik pengimejan neuro berfungsi moden termasuk PET dan fMRI, tetapi ia tidak pernah diterima pakai untuk kajian pengimejan optik yang berurusan dengan kawasan kortikal serantau dan bukannya keseluruhan otak. Dalam makalah ini, kami mencadangkan "korteks tong piawai" untuk tikus, dan membentangkan kaedah untuk memetakan aktiviti saraf yang dikesan secara optik ke korteks piawai. Korteks standard ditakrifkan sebagai satu set lajur kortikal ringkas, yang dimodelkan pada corak sitoarchitektonik agregat sel dalam lapisan kortikal IV korteks tong. Merujuk kepada struktur anatomi asasnya, kaedah ini meledingkan imej permukaan korteks individu agar sesuai dengan korteks standard. Korteks dibengkokkan menggunakan teknik ubah bentuk bentuk bebas dua dimensi dengan manipulasi langsung. Memandangkan pengimejan optik menyediakan peta aktiviti saraf pada permukaan kortikal, akibatnya ledingan itu memetakan semula pada korteks piawai. Data yang dibentangkan dalam kertas ini menunjukkan bahawa aktiviti saraf yang ditimbulkan oleh somatosensori berjaya diwakili pada korteks piawai, menunjukkan bahawa gabungan pengimejan optik dengan kaedah kami adalah pendekatan yang menjanjikan untuk menyiasat seni bina fungsi korteks.
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Salinan
Ichiro TAKASHIMA, Riichi KAJIWARA, Toshio IIJIMA, "Functional Mapping of Optically Detected Neural Activity onto a Standardized Cortical Structure of Rodent Barrels" in IEICE TRANSACTIONS on Information,
vol. E85-D, no. 1, pp. 143-151, January 2002, doi: .
Abstract: The concept of a "standardized brain" is familiar in modern functional neuro-imaging techniques including PET and fMRI, but it has never been adopted for optical imaging studies that deal with a regional cortical area rather than the whole brain. In this paper, we propose a "standardized barrel cortex" for rodents, and present a method for mapping optically detected neural activity onto the standard cortex. The standard cortex is defined as a set of simple cortical columns, which are modeled on the cytoarchitectonic patterns of cell aggregates in cortical layer IV of the barrel cortex. Referring to its underlying anatomical structure, the method warps the surface image of individual cortices to fit the standard cortex. The cortex is warped using a two-dimensional free-form deformation technique with direct manipulation. Since optical imaging provides a map of neural activity on the cortical surface, the warping consequently remaps it on the standard cortex. Data presented in this paper show that somatosensory evoked neural activity is successfully represented on the standardized cortex, suggesting that the combination of optical imaging with our method is a promising approach for investigating the functional architecture of the cortex.
URL: https://global.ieice.org/en_transactions/information/10.1587/e85-d_1_143/_p
Salinan
@ARTICLE{e85-d_1_143,
author={Ichiro TAKASHIMA, Riichi KAJIWARA, Toshio IIJIMA, },
journal={IEICE TRANSACTIONS on Information},
title={Functional Mapping of Optically Detected Neural Activity onto a Standardized Cortical Structure of Rodent Barrels},
year={2002},
volume={E85-D},
number={1},
pages={143-151},
abstract={The concept of a "standardized brain" is familiar in modern functional neuro-imaging techniques including PET and fMRI, but it has never been adopted for optical imaging studies that deal with a regional cortical area rather than the whole brain. In this paper, we propose a "standardized barrel cortex" for rodents, and present a method for mapping optically detected neural activity onto the standard cortex. The standard cortex is defined as a set of simple cortical columns, which are modeled on the cytoarchitectonic patterns of cell aggregates in cortical layer IV of the barrel cortex. Referring to its underlying anatomical structure, the method warps the surface image of individual cortices to fit the standard cortex. The cortex is warped using a two-dimensional free-form deformation technique with direct manipulation. Since optical imaging provides a map of neural activity on the cortical surface, the warping consequently remaps it on the standard cortex. Data presented in this paper show that somatosensory evoked neural activity is successfully represented on the standardized cortex, suggesting that the combination of optical imaging with our method is a promising approach for investigating the functional architecture of the cortex.},
keywords={},
doi={},
ISSN={},
month={January},}
Salinan
TY - JOUR
TI - Functional Mapping of Optically Detected Neural Activity onto a Standardized Cortical Structure of Rodent Barrels
T2 - IEICE TRANSACTIONS on Information
SP - 143
EP - 151
AU - Ichiro TAKASHIMA
AU - Riichi KAJIWARA
AU - Toshio IIJIMA
PY - 2002
DO -
JO - IEICE TRANSACTIONS on Information
SN -
VL - E85-D
IS - 1
JA - IEICE TRANSACTIONS on Information
Y1 - January 2002
AB - The concept of a "standardized brain" is familiar in modern functional neuro-imaging techniques including PET and fMRI, but it has never been adopted for optical imaging studies that deal with a regional cortical area rather than the whole brain. In this paper, we propose a "standardized barrel cortex" for rodents, and present a method for mapping optically detected neural activity onto the standard cortex. The standard cortex is defined as a set of simple cortical columns, which are modeled on the cytoarchitectonic patterns of cell aggregates in cortical layer IV of the barrel cortex. Referring to its underlying anatomical structure, the method warps the surface image of individual cortices to fit the standard cortex. The cortex is warped using a two-dimensional free-form deformation technique with direct manipulation. Since optical imaging provides a map of neural activity on the cortical surface, the warping consequently remaps it on the standard cortex. Data presented in this paper show that somatosensory evoked neural activity is successfully represented on the standardized cortex, suggesting that the combination of optical imaging with our method is a promising approach for investigating the functional architecture of the cortex.
ER -