Abstract
BackgroundHealthy aging is accompanied by a decline in learning ability and memory capacity. One widely-studied method to improve learning outcome is by reducing the occurrence of errors during learning (errorless learning; EL). However, there is also evidence that committing errors during learning (trial-and-error learning; TEL) may benefit memory performance. We argue that these inconsistent findings could be driven by a lack of control over the error frequency in traditional EL and TEL paradigms.AimThis study employed a spatial learning task to study EL and TEL and to determine the impact of error frequency on memory recall in healthy older adults (OA; N = 68) and young adults (YA; N = 60).MethodFour groups of participants (YA-EL, YA-TEL, OA-EL, OA-TEL) were instructed to first place and memorize the locations of everyday objects in a chest of drawers presented on a computer screen, and in whom memory recall performance was later tested. In the TEL condition, the amount of errors made before the correct drawer was ‘found’ was predetermined, varying from 0 to 5. During the EL condition, every first attempt was correct (i.e., no errors were made).ResultsWe found better overall performance in YA compared to OA and a beneficial effect of EL in both age groups. However, the amount of errors committed during learning did not influence accuracy of memory recall.ConclusionOur results indicate that elimination of errors during learning can benefit memory performance in both YA and OA compared to TEL.
Highlights
Healthy aging is accompanied by cognitive alterations, in addition to physical and neurobiological changes [1]
The second General Linear Model (GLM) analysis showed an errorless learning (EL) advantage in both groups (YA: M = 0.486, SD = 0.602; older adults (OA): M = 1.18, SD = 0.551) compared to trial and error learning (TEL) (YA: M = 0.740, SD = 0.414; OA: M = 2.12, SD = 0.437), and young adults (YA) overall selected drawers which were closer in absolute distance to the correct drawer compared to OA (Learning condition: F(1, 124) = 44.3, p < 0.001, ηp2 = 0.263; Group: F(1, 125) = 135, p < 0.001, ηp2 = 0.522)
We found a significant interaction effect (F(1, 125) = 14.4, p < 0.001, ηp2 = 0.104),2 indicating that the performance of OA suffered slightly more from errors made during TEL-based acquisition relative to EL (MTEL-EL = 0.940) compared to YA (MTEL-EL = 0.254; see Fig. 2b)
Summary
Healthy aging is accompanied by cognitive alterations, in addition to physical and neurobiological changes [1]. One approach that may improve learning outcome in healthy older adults (OA) is errorless learning (EL). There is evidence that committing errors during learning (trial-and-error learning; TEL) may benefit memory performance. We argue that these inconsistent findings could be driven by a lack of control over the error frequency in traditional EL and TEL paradigms. Aim This study employed a spatial learning task to study EL and TEL and to determine the impact of error frequency on memory recall in healthy older adults (OA; N = 68) and young adults (YA; N = 60).
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