Abstract
IntroductionAudiovisual educational tools have increasingly been used during the past years to complement and compete with traditional textbooks. However, little is known as to how the brain processes didactic information presented in different formats. We directly assessed brain activity during learning using both traditional textbook and audiovisual‐3D material.MethodsA homogeneous sample of 30 young adults with active study habits was assessed. Educational material on the subject of Cardiology was adapted to be presented during the acquisition of functional MRI.ResultsWhen tested after image acquisition, participants obtained similar examination scores for both formats. Evoked brain activity was robust during both traditional textbook and audiovisual‐3D lessons, but a greater number of brain systems were implicated in the processing of audiovisual‐3D information, consistent with its multisource sensory nature. However, learning was not associated with group mean brain activations, but was instead predicted by distinct functional MRI signal changes in the frontal lobes and showed distinct cognitive correlates. In the audiovisual‐3D version, examination scores were positively correlated with late‐evoked prefrontal cortex activity and working memory, and negatively correlated with language‐related frontal areas and verbal memory. As for the traditional textbook version, the fewer results obtained suggested the opposite pattern, with examination scores negatively correlating with prefrontal cortex activity evoked during the lesson.ConclusionsOverall, the results indicate that a similar level of knowledge may be achieved via different cognitive strategies. In our experiment, audiovisual learning appeared to benefit from prefrontal executive resources (as opposed to memorizing verbal information) more than traditional textbook learning.
Highlights
Audiovisual educational tools have increasingly been used during the past years to complement and compete with traditional textbooks
We used functional MRI to assess brain activity during lesson learning in a homogeneous sample of young adults with ac‐ tive study habits
Examination scores in lessons presented with the traditional textbook format showed a negative correlation with functional MRI (fMRI) signal change in a right dorsal prefrontal region (Figure 8)
Summary
Audiovisual educational tools have increasingly been used during the past years to complement and compete with traditional text‐ books (Jarvin, 2015; Lewis, 2003; Prakash, Muthuraman, & Anand, 2017; Trelease, 2016). Some work has been done to characterize the differences in the evoked brain response to verbal information presented visually or aurally (e.g., Buchweitz, Mason, Tomitch, & Just, 2009; Venezia et al, 2017), and a recent study has explicitly compared brain activ‐ ity during the viewing of complex scenes (movies) and reading its screenplay text (scripts) (Tikka, Kauttonen, & Hlushchuk, 2018). There are no studies directly investigating brain ac‐ tivity predicting the learning achieved during both audiovisual and text lessons. We used functional MRI (fMRI) to assess brain activity during lesson learning in a homogeneous sample of young adults with ac‐ tive study habits. We firstly aimed to identify differences in evoked brain ac‐ tivity between both traditional textbook and audiovisual‐3D ver‐ sions. The assessed cognitive domains included working memory, verbal memory, vi‐ sual memory, incidental visual memory, vocabulary, and cognitive processing speed
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