@article{2125130568ed4719b7d5720210d02123,
title = "Spatiotemporal dynamics of the functional architecture for gain fields in inferior parietal lobule of behaving monkey",
abstract = "Intrinsic optical imaging has revealed a representation of eye position smoothly mapped across the surface of the inferior parietal lobule in behaving monkeys. We demonstrate here that blood vessels imaged along with the cortex have large signals tuned sometimes, but not always, to match the surrounding tissue. The relationship between the vessels and surrounding tissue in both space and time was explored using independent component analysis (ICA). Working only with single-trial data, ICA discovered a sequence of regions corresponding to the vascular propagation of activated signals from remote loci into the blood vessels. The vascular signals form a novel map of cortical function - the functional angioarchitecture - superimposed upon the cortical functional architecture. Furthermore, the incorporation of temporal aspects in optical data permitted the tuning of the inferior parietal lobule to be tracked in time through the task, demonstrating the expression of unusual tuning properties that might be exploited for higher cognitive functions.",
keywords = "Association cortex, Independent component analysis, Monkey, Optical imaging, Vision",
author = "Siegel, {Ralph M.} and Duann, {Jeng Ren} and Jung, {Tzyy Ping} and Terrence Sejnowski",
note = "Funding Information: Early discussions of blood flow issues with Gabor Jando as well as his contributions to the published data used in this study are acknowledged. The use of these published data also collected by Milena Raffi, Raymond Phinney, and Jessica Turner is acknowledged. Careful reading and discussion of this study by Larry Cohen and Scott Makeig is gratefully acknowledged. This work was supported by the National Institutes of Health Grants EY-09223 (RMS) and 1S10RR-12873 (RMS), The Whitehall Foundation (RMS), National Science Foundation Grant NPACI RUT223 (RMS), Howard Hughes Medical Institute (TS), and Swartz Foundation ( J-RD, T-PJ, and TS). Computational resources of the Center for Computational Neuroscience, Rutgers, Newark, are acknowledged as are the massive file transfer and storage services provided by the Storage Resource Broker team headed by George Kremenek at the San Diego Supercomputer Center. Conflict of Interest: None declared.",
year = "2007",
month = feb,
doi = "10.1093/cercor/bhj155",
language = "???core.languages.en_GB???",
volume = "17",
pages = "378--390",
journal = "Cerebral Cortex",
issn = "1047-3211",
number = "2",
}