The Impact Of Color on Response Inhibition
dc.contributor.advisor | Fallah, Mazyar | |
dc.contributor.author | Asare, Gifty | |
dc.date.accessioned | 2022-12-14T16:19:13Z | |
dc.date.available | 2022-12-14T16:19:13Z | |
dc.date.copyright | 2022-05-12 | |
dc.date.issued | 2022-12-14 | |
dc.date.updated | 2022-12-14T16:19:13Z | |
dc.degree.discipline | Psychology (Functional Area: Brain, Behaviour & Cognitive Science) | |
dc.degree.level | Doctoral | |
dc.degree.name | PhD - Doctor of Philosophy | |
dc.description.abstract | Response inhibition is an important cognitive function that affects decision-making and action selection. Impairments in it occur in neurodegenerative diseases therefore, ways to support response inhibition are important for quality of life. One possibility is the use of color, as color has been shown to modulate inhibitory processes. The overall objective of this work was to determine the prefrontal networks underlying response inhibition that can be modulated through an automatic attentional process such as color. A series of three studies were performed whereby young adults performed a stop-signal task (SST) or a Go/No-go task (GNGT) with colored stimuli. In our first study, the SST, a reactive response inhibition task, was performed to determine whether the effect of color on response inhibition was due to color opponency, attentional color hierarchy, or visual associations. We found that while red stop signals produced faster response inhibition compared to green, blue and yellow stop signals did not differ from each other. This pattern of results was not consistent with color opponency or the attentional color hierarchy of red > green > yellow > blue. Therefore, red facilitating and green impairing response inhibition suggested that response inhibition was modulated by visual color associations where red means stop and green means go. In our second study, we tested if the color modulations between red and green extended beyond countermanding to more general inhibitory control by using a proactive response inhibition task, the GNGT. Indeed, participants were more successful on red in comparison to green No-go trials. Based on these results, a modified accumulator model and putative neural circuitry of color modulation response inhibition was proposed. In our third study, event-related potentials (ERPs) were recorded while participants performed a GNGT to test the putative underlying neural network. While the P300 was not modulated by color, we observed reduced N200 amplitudes and earlier N200 latencies over the prefrontal areas proposed in study 2 in response to red No-go stimuli over green, yellow, and blue. The increased accuracy was argued to be an advantage conferred by learned and evolutionary associations to the colour red. The decreased N200 amplitudes suggested reduced conflict on No-go trials with red No-go stimuli compared to other colours. These findings bring us a step closer to mapping out the differential colour modulated neural circuitry involved in response inhibition and such research will help pave the way for efficient decision-making and staving off cognitive decline. | |
dc.identifier.uri | http://hdl.handle.net/10315/40604 | |
dc.language | en | |
dc.rights | Author owns copyright, except where explicitly noted. Please contact the author directly with licensing requests. | |
dc.subject | Psychology | |
dc.subject | Experimental psychology | |
dc.subject.keywords | Stop signal task | |
dc.subject.keywords | Go/no-go task | |
dc.subject.keywords | Reactive response inhibition | |
dc.subject.keywords | Proactive response inhibition | |
dc.subject.keywords | Color | |
dc.subject.keywords | Visual perception | |
dc.subject.keywords | Attention; Decision-making | |
dc.subject.keywords | 2-choice discrimination | |
dc.subject.keywords | Cognition | |
dc.subject.keywords | EEG | |
dc.subject.keywords | P100 | |
dc.subject.keywords | N200 | |
dc.subject.keywords | P300 | |
dc.title | The Impact Of Color on Response Inhibition | |
dc.type | Electronic Thesis or Dissertation |
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