SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2772075947> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W2772075947 endingPage "226" @default.
W2772075947 startingPage "212" @default.
W2772075947 abstract "Here we show how anatomical and functional data recorded from patients undergoing stereo-EEG can be used to decompose the cortical processing following nerve stimulation in different stages characterized by specific topography and time course. Tibial, median and trigeminal nerves were stimulated in 96 patients, and the increase in gamma power was evaluated over 11878 cortical sites. All three nerve datasets exhibited similar clusters of time courses: phasic, delayed/prolonged and tonic, which differed in topography, temporal organization and degree of spatial overlap. Strong phasic responses of the three nerves followed the classical somatotopic organization of SI, with no overlap in either time or space. Delayed responses presented overlaps between pairs of body parts in both time and space, and were confined to the dorsal motor cortices. Finally, tonic responses occurred in the perisylvian region including posterior insular cortex and were evoked by the stimulation of all three nerves, lacking any spatial and temporal specificity. These data indicate that the somatosensory processing following nerve stimulation is a multi-stage hierarchical process common to all three nerves, with the different stages likely subserving different functions. While phasic responses represent the neural basis of tactile perception, multi-nerve tonic responses may represent the neural signature of processes sustaining the capacity to become aware of tactile stimuli." @default.
W2772075947 created "2017-12-22" @default.
W2772075947 creator A5019013242 @default.
W2772075947 creator A5039054043 @default.
W2772075947 creator A5052416393 @default.
W2772075947 creator A5054130520 @default.
W2772075947 creator A5076999099 @default.
W2772075947 date "2018-04-01" @default.
W2772075947 modified "2023-10-16" @default.
W2772075947 title "Multiple time courses of somatosensory responses in human cortex" @default.
W2772075947 cites W1493718371 @default.
W2772075947 cites W1874601783 @default.
W2772075947 cites W1885656648 @default.
W2772075947 cites W1935350642 @default.
W2772075947 cites W1967183777 @default.
W2772075947 cites W1969441482 @default.
W2772075947 cites W1973039712 @default.
W2772075947 cites W1984679454 @default.
W2772075947 cites W1985765755 @default.
W2772075947 cites W1987256259 @default.
W2772075947 cites W1987971958 @default.
W2772075947 cites W2004135871 @default.
W2772075947 cites W2005160506 @default.
W2772075947 cites W2006535382 @default.
W2772075947 cites W2007118281 @default.
W2772075947 cites W2008110233 @default.
W2772075947 cites W2013567160 @default.
W2772075947 cites W2018829466 @default.
W2772075947 cites W2026616100 @default.
W2772075947 cites W2030844863 @default.
W2772075947 cites W2036624754 @default.
W2772075947 cites W2039251807 @default.
W2772075947 cites W2046639750 @default.
W2772075947 cites W2047220224 @default.
W2772075947 cites W2049328038 @default.
W2772075947 cites W2054050753 @default.
W2772075947 cites W2055163413 @default.
W2772075947 cites W2056072423 @default.
W2772075947 cites W2060873042 @default.
W2772075947 cites W2066384821 @default.
W2772075947 cites W2066501449 @default.
W2772075947 cites W2072522618 @default.
W2772075947 cites W2073694261 @default.
W2772075947 cites W2074853931 @default.
W2772075947 cites W2079632132 @default.
W2772075947 cites W2081113815 @default.
W2772075947 cites W2084763512 @default.
W2772075947 cites W2086393279 @default.
W2772075947 cites W2087083284 @default.
W2772075947 cites W2091437289 @default.
W2772075947 cites W2093845300 @default.
W2772075947 cites W2096247339 @default.
W2772075947 cites W2097014577 @default.
W2772075947 cites W2097780812 @default.
W2772075947 cites W2100769614 @default.
W2772075947 cites W2108010165 @default.
W2772075947 cites W2108223231 @default.
W2772075947 cites W2119180809 @default.
W2772075947 cites W2119583179 @default.
W2772075947 cites W2120475259 @default.
W2772075947 cites W2123654346 @default.
W2772075947 cites W2136254946 @default.
W2772075947 cites W2136894766 @default.
W2772075947 cites W2139886607 @default.
W2772075947 cites W2143005354 @default.
W2772075947 cites W2146187035 @default.
W2772075947 cites W2147910317 @default.
W2772075947 cites W2148726987 @default.
W2772075947 cites W2151721316 @default.
W2772075947 cites W2151900871 @default.
W2772075947 cites W2152758580 @default.
W2772075947 cites W2159014717 @default.
W2772075947 cites W2162649077 @default.
W2772075947 cites W2163366340 @default.
W2772075947 cites W2164835340 @default.
W2772075947 cites W2165536656 @default.
W2772075947 cites W2175190579 @default.
W2772075947 cites W2246006780 @default.
W2772075947 cites W2301449719 @default.
W2772075947 cites W2346908790 @default.
W2772075947 cites W2479200857 @default.
W2772075947 cites W2557258053 @default.
W2772075947 cites W2560205787 @default.
W2772075947 cites W2626415205 @default.
W2772075947 cites W3005001716 @default.
W2772075947 doi "https://doi.org/10.1016/j.neuroimage.2017.12.037" @default.
W2772075947 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5864517" @default.
W2772075947 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29248698" @default.
W2772075947 hasPublicationYear "2018" @default.
W2772075947 type Work @default.
W2772075947 sameAs 2772075947 @default.
W2772075947 citedByCount "33" @default.
W2772075947 countsByYear W27720759472018 @default.
W2772075947 countsByYear W27720759472019 @default.
W2772075947 countsByYear W27720759472020 @default.
W2772075947 countsByYear W27720759472021 @default.
W2772075947 countsByYear W27720759472022 @default.
W2772075947 countsByYear W27720759472023 @default.