From a7b5f734ba25dbf131a13b9150192e5f95ec93d6 Mon Sep 17 00:00:00 2001 From: Beau Spargo Date: Mon, 11 Aug 2025 08:11:05 +0000 Subject: [PATCH] Add 'Saccadic Suppression of Retinotopically Localized Blood Oxygen Level-Dependent Responses In Human Primary Visual Area V1' --- ...-Level-Dependent-Responses-In-Human-Primary-Visual-Area-V1.md | 1 + 1 file changed, 1 insertion(+) create mode 100644 Saccadic-Suppression-of-Retinotopically-Localized-Blood-Oxygen-Level-Dependent-Responses-In-Human-Primary-Visual-Area-V1.md diff --git a/Saccadic-Suppression-of-Retinotopically-Localized-Blood-Oxygen-Level-Dependent-Responses-In-Human-Primary-Visual-Area-V1.md b/Saccadic-Suppression-of-Retinotopically-Localized-Blood-Oxygen-Level-Dependent-Responses-In-Human-Primary-Visual-Area-V1.md new file mode 100644 index 0000000..d9e57b4 --- /dev/null +++ b/Saccadic-Suppression-of-Retinotopically-Localized-Blood-Oxygen-Level-Dependent-Responses-In-Human-Primary-Visual-Area-V1.md @@ -0,0 +1 @@ +
Vision is an active course of involving a detailed interplay between sensory and oculomotor management systems in the mind. V4 (Kleiser et al., 2004). These authors concluded that saccadic suppression happens at increased movement-delicate areas and located no significant proof of saccadic suppression in areas V1 and V2. Thilo et al. (2004) reported that saccades impair the notion of phosphenes elicited at the retinal level however not of those elicited by transcranial magnetic stimulation over the occipital cortex, suggesting that retinal indicators should be suppressed earlier than arriving at the visible cortex. Suppression at an early stage of visible processing can also be supported by fMRI work from Sylvester et al. 2005) through which they reveal that sequences of saccades throughout ganzfeld visual stimulation modulate exercise in human lateral geniculate nucleus (LGN), V1, and V2. Well established psychophysical analysis has proven that saccadic suppression provokes a transient and quick-lived decrease in visible sensitivity that begins ∼75 ms earlier than the onset of the actual eye movement and is maximal at motion onset (Latour, 1962 \ No newline at end of file