Abstract
According to the Procedural Deficit Hypothesis, abnormalities in corticostriatal pathways could account for the language-related deficits observed in developmental dyslexia. The same neural network has also been implicated in the ability to learn contingencies based on trial and error (i.e., reinforcement learning [RL]). On this basis, the present study tested the assumption that dyslexic individuals would be impaired in RL compared with neurotypicals in two different tasks. In a probabilistic selection task, participants were required to learn reinforcement contingencies based on probabilistic feedback. In an implicit transitive inference task, participants were also required to base their decisions on reinforcement histories, but feedback was deterministic and stimulus pairs were partially overlapping, such that participants were required to learn hierarchical relations. Across tasks, results revealed that although the ability to learn from positive/negative feedback did not differ between the two groups, the learning of reinforcement contingencies was poorer in the dyslexia group compared with the neurotypicals group. Furthermore, in novel test pairs where previously learned information was presented in new combinations, dyslexic individuals performed similarly to neurotypicals. Taken together, these results suggest that learning of reinforcement contingencies occurs less robustly in individuals with developmental dyslexia. Inferences for the neuro-cognitive mechanisms of developmental dyslexia are discussed.
Highlights
Developmental dyslexia is one of the most common neurodevelopmental disorders, characterized by a selective impairment in reading skill acquisition despite conventional instruction, adequate intelligence, and sociocultural opportunity
The dominant hypothesis as to the etiology of dyslexia proposes a deficit in direct access to, and manipulation of, phonemic language units retrieved from long-term declarative memory as the underlying cause of dyslexia (Snowling, 2000)
According to the Procedural Deficit Hypothesis (PDH), dyslexia is characterized by a selective disruption of procedural learning and memory systems that leads to difficulties in the acquisition and automaticity of reading and writing skills (Fawcett & Nicolson, 2019; Krishnan, Watkins, & Bishop, 2016; Nicolson & Fawcett, 2011; Ullman, 2004; Ullman, Earle, Walenski, & Janacsek, 2020)
Summary
Developmental dyslexia is one of the most common neurodevelopmental disorders, characterized by a selective impairment in reading skill acquisition despite conventional instruction, adequate intelligence, and sociocultural opportunity. According to the Procedural Deficit Hypothesis (PDH), dyslexia is characterized by a selective disruption of procedural learning and memory systems that leads to difficulties in the acquisition and automaticity of reading and writing skills (Fawcett & Nicolson, 2019; Krishnan, Watkins, & Bishop, 2016; Nicolson & Fawcett, 2011; Ullman, 2004; Ullman, Earle, Walenski, & Janacsek, 2020). The procedural memory impairment in dyslexia is hypothesized to lead to a greater dependence on the declarative memory system and/ or enhanced functioning of that system (Nicolson & Fawcett, 1990; Ullman, 2016; Ullman & Pullman, 2015). Individuals with dyslexia were found to be impaired in tasks that engage the procedural memory system, such as the Serial Reaction Time Task (Gabay, Schiff, & Vakil, 2012a, 2012b; Lum et al, 2013), Artificial Grammar Learning
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