Sensing and deciding in the somatosensory system
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Cited by (53)
Effect of obesity on inhibitory control in preadolescents during stop-signal task. An event-related potentials study
2021, International Journal of PsychophysiologyCitation Excerpt :The non-obese preadolescents exhibited longer N200 latency for “no-go” than “go” conditions in frontal regions than obese preadolescents. Previous literature has noted that subjects extract perceptual information and properties of visual or auditory input before evaluating this information's relevance (i.e., target or nontarget) in preparing and generating appropriate behavioral responses (Romo and Salinas, 1999; Schall and Thompson, 1999). ERP studies have indicated that identification of trial type begins about 150 ms following stimulus onset (Thorpe et al., 1996; VanRullen and Thorpe, 2001).
The human somatosensory system: From perception to decision making
2013, Progress in NeurobiologyCitation Excerpt :This involves complex interactions between sensory-cognitive brain networks. As already referenced above, Romo and colleagues (e.g., Romo and Salinas, 1999, 2001, 2003) have investigated such sensory-cognitive brain networks in the tactile domain. Single-cell recordings obtained from monkeys’ brain revealed that the secondary somatosensory cortex (Romo et al., 2002) interacts with the premotor cortex (Romo et al., 2004) and the prefrontal cortex (Romo et al., 1999) when a monkey needs to decide on two different frequency stimulations, whose presentations are separated by several seconds (for a computational modeling approach see Machens et al., 2005).
From sense of touch to tactile intelligence: Thoughts from the 2021 Nobel Prize in Physiology or Medicine
2022, Kexue Tongbao/Chinese Science BulletinMultiple representations of the body schema for the same body part
2022, Proceedings of the National Academy of Sciences of the United States of America