Ivan Alisson Cavalcante Nunes de Lima scite author profile

About half of the world's population remains without access to internet in an era of digital transformation. In this study, we aimed to investigate the impact of implementing the use of logic and mathematics through digital literacy on a population of elementary school students in a town in Northeast Brazil. In a non-randomized experimental longitudinal intervention study, 5th-grade students were followed during one semester. They underwent observational testing during class with the use of scales to evaluate their activities in a digital environment, and they were evaluated with respect to their ability to use digital devices. A logic/math assessment was applied prior to and at the end of the course for intervention group and compared to a control group. Questionnaires were used to assess the educators', legal guardians' and students' perceptions on digital habits and their respective sociodemographic features. The intervention consisted of a 16-h long course developed consisting of 8 2-h long classes which focused on digital technology, digital culture, and computational thinking. The students had a strong interest in the classes. Although some students did not have prior contact with computers, their development was outstanding. Digital literacy competencies and technology-use behavior increased throughout the semester independent of family income and use of digital devices at home. Students progressively improved their interaction with the computer (e.g. touchpad and typing skills) and their confidence in the digital environment. Students' scores on the logic/math assessment showed significant improvement. This was not observed in the control group, demonstrating the importance of this type of intervention even with one provided by a 16-h course. Highlights• 16 hours of a digital literacy course can help improving math and logic skills • Digital confidence of 5th-grade students increased throughout the semester • Students' computer interaction improved independent of digital culture at home • Digital classes keep students motivated in a rural school of a developing country • We present a digital literacy course suitable to be applied to other digital exclusion locations

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Hippocampal 4-Hz oscillations emerge during stationary running in a wheel and are resistant to medial septum inactivation

Lima

Belchior

2023

PLoS ONE

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Recent studies described 2–4 Hz oscillations in the hippocampus of rats performing stationary locomotion on treadmills and other apparatus. Since the 2–4 Hz rhythm shares common features with theta (5–12 Hz) oscillations—such as a positive amplitude-running speed relationship and modulation of spiking activity—many have questioned whether these rhythms are related or independently generated. Here, we analyzed local field potentials and spiking activity from the dorsal CA1 of rats executing a spatial alternation task and running for ~15 s in a wheel during the intertrial intervals both before and after muscimol injection into the medial septum. We observed remarkable 4-Hz oscillations during wheel runs, which presented amplitude positively correlated with running speed. Surprisingly, the amplitude of 4-Hz and theta oscillations were inversely related. Medial septum inactivation abolished hippocampal theta but preserved 4-Hz oscillations. It also affected the entrainment of pyramidal cells and interneurons by 4-Hz rhythmic activity. In all, these results dissociate the underlying mechanism of 4-Hz and theta oscillations in the rat hippocampus.

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Hippocampal 4-Hz oscillations emerge during stationary running in a wheel and are resistant to medial septum inactivation

Lima

Belchior

2022

Preprint

View full text Add to dashboard Cite

Recent studies described 2-4 Hz oscillations in the hippocampus of rats performing stationary locomotion on treadmills and other apparatus. Since the 2-4 Hz rhythm shares common features with hippocampal theta (5-12 Hz) oscillations - such as a positive running speed-amplitude relationship and modulation of spiking activity - many have questioned whether these rhythms are related or independently generated. To answer this question, we analyzed local field potentials (LFP) and spiking activity from the dorsal CA1 of rats executing a spatial alternation task and running for ~15 s in a wheel during the intertrial intervals both before and after muscimol injection into the medial septum. We observed 4-Hz oscillations during wheel runs, but not during maze runs. The 4-Hz amplitude positively correlated with wheel speed and negatively with maze speed. Also, the amplitude of 4-Hz and theta oscillations were inversely related. Medial septum inactivation abolished hippocampal theta but preserved 4-Hz oscillations. It also affected the entrainment of pyramidal cells and interneurons by 4-Hz rhythmic activity. In all, these results dissociate the underlying mechanism of 4-Hz and theta oscillations in the rat hippocampus.

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