Abstract
The attention system can be divided into alerting, orienting, and executive control networks. The efficiency and independence of attention networks have been widely tested with the attention network test (ANT) and its revised versions. However, many studies have failed to find effects of attention network scores (ANSs) and inter-network relationships (INRs). Moreover, the low reliability of ANSs can not meet the demands of theoretical and empirical investigations. Two methodological factors (the inter-trial influence in the event-related design and the inter-network interference in orthogonal contrast) may be responsible for the unreliability of ANT. In this study, we combined the mixed design and non-orthogonal method to explore ANSs and directional INRs. With a small number of trials, we obtained reliable and independent ANSs (split-half reliability of alerting: 0.684; orienting: 0.588; and executive control: 0.616), suggesting an individual and specific attention system. Furthermore, mutual inhibition was observed when two networks were operated simultaneously, indicating a differentiated but integrated attention system. Overall, the reliable and individual specific ANSs and mutually inhibited INRs provide novel insight into the understanding of the developmental, physiological and pathological mechanisms of attention networks, and can benefit future experimental and clinical investigations of attention using ANT.
Highlights
The attention system can be divided into alerting, orienting, and executive control networks
The alerting (A) system initiates and sustains a readiness in reaction to upcoming stimuli; the orienting (O) component mediates the selection of relevant information for processing; and the executive control (E) network is involved in error monitoring and conflict resolving[3,4]
The efficiency and independence of attention networks were widely measured with the attention network test (ANT) which was devised by Fan and colleagues[5]
Summary
The attention system can be divided into alerting, orienting, and executive control networks. We combined the mixed design and non-orthogonal method to explore ANSs and directional INRs. With a small number of trials, we obtained reliable and independent ANSs (split-half reliability of alerting: 0.684; orienting: 0.588; and executive control: 0.616), suggesting an individual and specific attention system. Using the ANT and its revised versions[6,7,8], the attention network scores (ANSs) and inter-network relationships (INRs) have been measured and applied in a wide range of investigations such as development, psychiatric disorders, neuroimaging, and genetics[3,4,9]. ANSs and INRs were tested in separate runs to avoid the influence from other components as much as possible when measuring one network or interaction. To avoid inter-network interference and get more accurate measurements of ANSs and INRs, we allocated different ANSs and INRs into separate blocks/runs with a mixed design
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
