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The importance of executive functioning for later life outcomes, along with its potential to be positively affected by intervention programs, motivates the need to find early markers of executive functioning. In this study, 18-month-olds performed three executive-function tasks-involving simple inhibition, working memory, and more complex inhibition-and a motion-capture task assessing prospective motor control during reaching. We demonstrated that prospective motor control, as measured by the peak velocity of the first movement unit, is related to infants' performance on simple-inhibition and working memory tasks. The current study provides evidence that motor control and executive functioning are intertwined early in life, which suggests an embodied perspective on executive-functioning development. We argue that executive functions and prospective motor control develop from a common source and a single motive: to control action. This is the first demonstration that low-level movement planning is related to higher-order executive control early in life.

The importance of executive functioning for later life outcomes, along with its potential to be positively affected by intervention programs, motivates the need to find early markers of executive functioning. In this study, 18-month-olds performed three executive-function tasks—involving simple inhibition, working memory, and more complex inhibition—and a motion-capture task assessing prospective motor control during reaching. We demonstrated that prospective motor control, as measured by the peak velocity of the first movement unit, is related to infants' performance on simple-inhibition and working memory tasks. The current study provides evidence that motor control and executive functioning are intertwined early in life, which suggests an embodied perspective on executive-functioning development. We argue that executive functions and prospective motor control develop from a common source and a single motive: to control action. This is the first demonstration that low-level movement planning is related to higher-order executive control early in life.

In typical development, infants form predictions about future events based on incoming sensory information, which is essential for perception and goal-directed action. It has been suggested that individuals with autism spectrum disorder (ASD) make predictions differently compared to neurotypical individuals. We investigated how infants who later received an ASD diagnosis and neurotypical infants react to temporarily occluded moving objects that violate initial expectations about object motion. Our results indicate that infants regardless of clinical outcome react similarly to unexpected object motion patterns, both in terms of gaze shift latencies and pupillary responses. These findings indicate that the ability to update representations about such regularities in light of new information may not differ between typically developing infants and those with later ASD.

Atypical gaze processing has been reported in children with autism spectrum disorders (ASD). Here we explored how infants at risk for ASD respond behaviorally to others’ direct gaze. We assessed 10-month-olds with a sibling with ASD (high risk group; n = 61) and a control group (n = 18) during interaction with an adult. Eye-tracking revealed less looking at the adult in the high risk group during 300–1000 ms after the adult initiated direct gaze: a short alteration that is likely to go unnoticed by the naked eye. Data aggregated over longer segments (the traditional eye-tracking approach) showed no group differences. Although findings are limited by lack of outcome data, they are in line with theories linking atypical eye processing to the emergence of ASD.

Autism is frequently associated with difficulties with top-down attentional control, which impact on individuals’ mental health and quality of life. The developmental processes involved in these attentional difficulties are not well understood. Using a data-driven approach, 2 samples (N = 294 and 412) of infants at elevated and typical likelihood of autism were grouped according to profiles of parent report of attention at 10, 15 and 25 months. In contrast to the normative profile of increases in attentional control scores between infancy and toddlerhood, a minority (7–9%) showed plateauing attentional control scores between 10 and 25 months. Consistent with pre-registered hypotheses, plateaued growth of attentional control was associated with elevated autism and ADHD traits, and lower adaptive functioning at age 3 years.

Forming predictions about what is going to happen next is a crucial ability that develops early in life. Theory and some empirical evidence suggest that predictive abilities may be impaired in Autism Spectrum Disorder (ASD). The overarching aim of this thesis is to investigate early measures of prediction in relation to concurrent and later outcomes in typical and atypical development, with a particular focus on ASD and related behavioral problems.In Study I, we used motion capture technology to examine prospective motor control and its relationship to executive functions in typically developing 18-month-olds. Our findings showed that motor control is associated with executive functioning in infancy.Study II investigated motor control in infants at low and elevated likelihood for ASD and examined how these measures relate to later development. We found group differences as well as similarities in motor control in 10-months-olds with and without a familial history of ASD. Early motor measures were related to general developmental level, but not ASD symptomatology in toddlerhood.Using eye tracking, Study III examined how infants with later ASD and neurotypical infants form predictions about visual object motion. Our findings indicated that infants with later ASD were able to form predictions about object motion and adapt to simple changes in motion patterns, and that their performance did not differ from the performance of neurotypical infants.In Study IV, we surveyed parents about their experiences during participation in an infant sibling study of ASD as a first step to understanding the benefits and risks associated with this type of research. Parents were generally positive about their experiences both from their own perspective as well as, the child’s perspective.This thesis illustrates the potential of using advanced technology, such as motion tracking and eye tracking, to study and compare prediction in typical and atypical development. It points to the important role of prediction and motor control for child development, but fails to find a specific link to ASD.