Abstract
BackgroundReading disability (RD) is characterized by slow and inaccurate word reading development, commonly reflecting underlying phonological problems. We have previously shown that exposure to white noise acutely improves cognitive performance in children with ADHD. The question addressed here is whether white noise exposure yields positive outcomes also for RD. There are theoretical reasons to expect such a possibility: a) RD and ADHD are two overlapping neurodevelopmental disorders and b) since prior research on white noise benefits has suggested that a central mechanism might be the phenomenon of stochastic resonance, then adding certain kinds of white noise might strengthen the signal‐to‐noise ratio during phonological processing and phoneme–grapheme mapping.MethodsThe study was conducted with a group of 30 children with RD and phonological decoding difficulties and two comparison groups: one consisting of skilled readers (n = 22) and another of children with mild orthographic reading problems and age adequate phonological decoding (n = 30). White noise was presented experimentally in visual and auditory modalities, while the children performed tests of single word reading, orthographic word recognition, nonword reading, and memory recall.ResultsFor the first time, we show that visual and auditory white noise exposure improves some reading and memory capacities “on the fly” in children with RD and phonological decoding difficulties. By contrast, the comparison groups displayed either no benefit or a gradual decrease in performance with increasing noise. In interviews, we also found that the white noise exposure was tolerable or even preferred by many children.ConclusionThese novel findings suggest that poor readers with phonological decoding difficulties may be immediately helped by white noise during reading. Future research is needed to determine the robustness, mechanisms, and long‐term practical implications of the white noise benefits in children with reading disabilities.
Highlights
Reading disability (RD) or dyslexia is among the most common neurodevelopmental disorders in children
There is a broad consensus that an important proximal problem in word-level reading disability relates to the ability to access and/or form stable phonological representations (Elbro & Petersen, 2004; Hulme & Snowling, 2009; Ramus et al, 2018) which negatively affects the ability to map the sounds of oral language to the letters of the alphabet
Regarding the effect sizes of the noise benefits—which are obviously important from the sake of practical implications—we found Cohen's d values between 0.52 and 0.97; these effects are considered as being of medium up to large size according to established criteria
Summary
Reading disability (RD) or dyslexia is among the most common neurodevelopmental disorders in children. There is a broad consensus that an important proximal problem in word-level reading disability relates to the ability to access and/or form stable phonological representations (Elbro & Petersen, 2004; Hulme & Snowling, 2009; Ramus et al, 2018) which negatively affects the ability to map the sounds of oral language to the letters of the alphabet. This phoneme–grapheme mapping difficulty is often assessed by nonword/pseudoword reading tasks. Future research is needed to determine the robustness, mechanisms, and long-term practical implications of the white noise benefits in children with reading disabilities
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