The relationship between sustained attention and automatic versus procedural arithmetic: The case of populations with typical development and subgroups of developmental dyscalculia.

Objective: The differentiation between automatic and procedural processing in arithmetic can be crucial when examining the links between arithmetic and sustained attention, as the latter is suggested to be particularly important in more automatic and monotonous situations. The present study examined the interrelations between sustained attention and arithmetic performance while differentiating, for the first time, between automatic and procedural arithmetic problem solving, and between various groups diagnosed with difficulties in the numerical domain.

Method: The data of 506 students from the national diagnostic system for learning disabilities were used in order to examine this relationship in typically developed population and different groups with developmental dyscalculia (DD): pure DD and DD with attention deficiency.

Examining the effect of perceived performance-contingent gains, losses and errors on arithmetic.

Gains and losses have previously been found to differentially modulate Executive Functions and cognitive performance depending on performance contingency. Following recent findings suggesting that random gains and losses modulate arithmetic performance, the current study aimed to investigate the effect of perceived performance-contingent gains and losses on arithmetic performance. In the current study, an arithmetic equation judgment task was administered, with perceived performance-contingent gain, loss, and error feedback presented upon each trial.

The relationship between the height dimension and numerical processing.

It is well documented that the ability to perceive numbers depends on perception of size. However, size consists of two different dimensions: height and width. In previous size-congruency experiments, the changes in the size dimension were confounded by changes in both the height and width dimensions.

The Influence of Gain and Loss on Arithmetic Performance.

Gain and loss modulation of different aspects of executive functions (EF) has been studied under changing conditions. However, the nature of this effect varies in different EF tasks, as both gain and loss were found to improve performance in specific EF tasks while hindering performance in others. The current study examines the influence of gain and loss stimuli on arithmetic performance.