This latter finding indicates that the degree to which activity in early visual cortex is necessary for figure–ground segregation varies over time. The neural pathway of surface segregation
The neural pathway mediating contextual modulations found in nonhuman primates or enhanced ERP components related to surface segregation in early visual cortex has been a topic of debate for many years (Kastner et al. 2000; Lamme and Spekreijse 2000; Rossi et al. 2001; Supèr et al. 2010; Zhang and von der Heydt 2010). Lesion studies (Lamme et al. 1998; Bullier 2001) corroborated by demonstrations on conducting speed of lateral connections (Bringuier et al. 1999; Girard et al. 2001) stress the role of feedback signals in Inhibitors,research,lifescience,medical this relatively late phase of figure–ground segregation in early visual cortex. Alternatively, these late processes in early visual cortex could be the product of horizontal connections integrating Inhibitors,research,lifescience,medical information over larger
parts of the visual field. Local cortical interactions (Das and Gilbert 1999) or long-range horizontal connections (Kapadia et al. 1995) could be dominantly responsible for relaying contextual information within early visual cortex. However, previous studies have demonstrated that the conduction velocity of horizontal connections is ten times as slow as the conduction speed Inhibitors,research,lifescience,medical of feedforward or feedback connections (Bringuier et al. 1999; Girard et al. 2001; Angelucci et al. 2002), making integration of information produced by horizontal connections relatively time consuming. The finding of an intermediate period without disruption of neural activity (see Fig. 7) related to surface segregation seems to support the
idea that Inhibitors,research,lifescience,medical feedback signaling to early visual cortex contributes to this late stage in figure–ground segregation. However, to be able to draw firm conclusions about the role of feedback signals, the inclusion of additional higher Inhibitors,research,lifescience,medical tier TMS click here target locations is necessary. Surface segregation and attention In this experiment, we did not manipulate attention explicitly. Therefore, differences found in our EEG data between stimuli could originate from a difference in amount of attention each stimulus draws (object-based attention, as there is no reason to assume a difference in Terminal deoxynucleotidyl transferase spatial attention, see “Methods”). Attention modulating activity has been found to travel all the way back to V1 (Roelfsema et al. 1998; Mehta et al. 2000). These modulations by attention seem to enhance processing of relevant regions of a scene while suppressing irrelevant ones (Hopf et al. 2006), thereby shaping visual input for further processing. Considering the temporal aspects of the electrophysiological differences between stack and frame stimuli (>200 msec) in our data, it could be that modulation by attention caused or influenced stack–frame deflections. Recently, however, several studies showed that figure–ground modulation can be found independently from attention (Driver et al. 1992; Kastner et al.