Motor and attentional development

1. Motor and attentional development

2. Brain organization for motor behavior • Similar to organization for sensation • Brain sends signals through thalamus, down spinal chord, controlling movements of limbs etc. • Involves long axons, myelination is important

4. Motor development • Reflexes • Reflexes usually involve little or no cortical activity • Some reflexes only go as far as synapses in spinal cord • Others go to brainstem, still others to cortex • Reflexes that are present in babies are probably mostly subcortical or spinal cord types • Why might reflexes be beneficial to babies?

6. Motor control • Requires 2 things • Stability • Flexibility

7. Coordination • Basal Ganglia • Cerebellum

10. Reaching • Reaching in adults is both stable (can be repeated easily) and flexible (adults can reach to any location • These abilities develop gradually in infants • First infant develop general reaching abilities • Infants will grab things put into their hands, but will only voluntarily reach beginning at about 4 months. • Flexibility occurs with practice at reaching • How might plasticity relate to these developments?

11. Infants also perseverate – once they are able to reach, they often are unable to stop reaching – Why? • Possibly development of inhibition • Possibly memory or control over actions

12. Other motor behaviors • Locomotion • Development is probably related to several factors • Strength • Balance • Control over limbs – myelin • Motor Planning • Involves areas other than primary motor cortex • These areas probably mature much later

14. Attention • Richards has measured attention development in very young babies. • Rothbart and Posner have proposed that there are multiple attention systems in the human brain, and that they develop on different schedules

15. Early attention • A general arousal system likely develops early • Four phases of attention • Automatic interrupt • Orienting response • Sustained attention • Termination of attention • Heart rate varies with phase of attention • Decreases during orienting and sustained attention

16. Sustained attention • Visual fixation • Lack of response to peripheral stimuli • Decreased heart rate • Sustained attention and changes in sustained attention may relate to cognitive development.

17. Orienting Networks • Covert orienting • Visual areas including frontal eye fields • Interactions with parietal lobes • Visual cortex • Basal Ganglia • Develops fairly early • Novelty – infants prefer to look at something new – may be subcortical • Infants can engage attention with an interesting stimulus early in life, but once they’re fixated, it’s hard to break away.

18. Alerting • Vigilance • Both orienting and alerting probably rely on posterior and “low level” brain systems • Parietal lobes • Thalamus • Frontal eye fields

20. Executive Control • Involves more voluntary attention, most likely is late to develop (around 2 years) • May be related to performance on cognitive tasks (e.g., reversal tasks, hiding tasks) • Has also been implicated in more general development (e.g., social attention). • Individual differences may relate to temperament – more excitable children may have a harder time disengaging, and may be more reactive.

21. Language Development • Issues: • Phonological Development • Vocabulary • Grammar • Pragmatics