%0 Journal Article %A Saliminia, Fereshteh %A Amini-Masouleh, Milad %T Predicting Normal People’s Reaction Time based on Hippocampal Local Efficiency During a Memory-Guided Attention Task %J Caspian Journal of Neurological Sciences %V 3 %N 2 %U http://cjns.gums.ac.ir/article-1-169-en.html %R 10.18869/acadpub.cjns.3.9.60 %D 2017 %K Reaction Time, Memory, Hippocampus, Attention, Functional Neuroimaging, %X Background: There are some convincing shreds of evidence indicating that memory can direct attention. The local efficiency of an area in the brain, as a quantitative feature in a complex network, indicates how the surrounding nodes can transfer the information when a specific node is omitted. This feature is a scale for measuring efficient integration of information in the brain. Objectives: The purpose of the present study is to predict the reaction time using the local efficiency variable while doing memory-guided attention task. Materials and Methods: The fMRI database of a research done in New York University during a visual search task was used for this study. Thirty-five right-handed healthy participants (51% female, mean age= 21.7 years) were recruited at New York University. SPM was used for pre-processing fMRI images, and CONN was used for calculating the values of local efficiency. SPSS was also used for statistical analysis of the study. Results: Results of the study revealed that local efficiency of the right hippocampus can positively predict the reaction time during memory-guided attention tasks. Conclusion: The findings of the study demonstrated that the hippocampus area has a significant role in the performance of memory-guided attention, and this significant role of the hippocampus reveals that long-term memory uses the hippocampus and affects the movement and attention of eyes on the target. %> http://cjns.gums.ac.ir/article-1-169-en.pdf %P 60-65 %& 60 %! %9 Research %L A-10-32-68 %+ MSc in Cognitive Science, AzarbaijanShahidMadani University, Tabriz, Iran; Fereshte.saliminia@gmail.com %G eng %@ 2383-4307 %[ 2017