The purpose of this study was to test the validity of a new computerized task to assess children&... more The purpose of this study was to test the validity of a new computerized task to assess children's cognitive problem-solving skills using the brain event-related potentials. This event-related potential-computerized cognitive problem-solving task does not require a child to give a verbal or motor (ie, pointing) response. The event-related potential waveforms were recorded from 20 typically developing children. Two nonverbal, problem-solving tasks (tasks 1 and 2) were developed for each of two age groups (5 and 6 years). For each task, single pictures, taken from an existing standardized test of nonverbal problem solving, were individually and sequentially presented on a computer screen. One of the seven pictures was classified as incongruent or outside category; it did not belong with the other pictures. As predicted, the event-related potential amplitudes were significantly larger to the outside- versus within-category pictures. This effect was found for tasks 1 and 2 for the 5- and 6-year-old children. Children as young as 5 years of age reliably exhibit brain activity, which can be used to infer cognitive problem-solving skill. This assessment paradigm may eventually serve as a clinically useful adjunct to a thorough neurologic and neurodevelopmental assessment of selected pediatric populations, such as those presenting with moderate-severe cerebral palsy whose expressive language and motor skills are notably impaired.
A consistent limitation when designing event-related potential paradigms and interpreting results... more A consistent limitation when designing event-related potential paradigms and interpreting results is a lack of consideration of the multivariate factors that affect their elicitation and detection in behaviorally unresponsive individuals. This paper provides a retrospective commentary on three factors that influence the presence and morphology of long-latency event-related potentials—the P3b and N400. We analyze event-related potentials derived from electroencephalographic (EEG) data collected from small groups of healthy youth and healthy elderly to illustrate the effect of paradigm strength and subject age; we analyze ERPs collected from an individual with severe traumatic brain injury to illustrate the effect of stimulus presentation speed. Based on these critical factors, we support that: (1) the strongest paradigms should be used to elicit event-related potentials in unresponsive populations; (2) interpretation of event-related potential results should account for participant a...
The purpose of this study was to test the validity of a new computerized task to assess children&... more The purpose of this study was to test the validity of a new computerized task to assess children's cognitive problem-solving skills using the brain event-related potentials. This event-related potential-computerized cognitive problem-solving task does not require a child to give a verbal or motor (ie, pointing) response. The event-related potential waveforms were recorded from 20 typically developing children. Two nonverbal, problem-solving tasks (tasks 1 and 2) were developed for each of two age groups (5 and 6 years). For each task, single pictures, taken from an existing standardized test of nonverbal problem solving, were individually and sequentially presented on a computer screen. One of the seven pictures was classified as incongruent or outside category; it did not belong with the other pictures. As predicted, the event-related potential amplitudes were significantly larger to the outside- versus within-category pictures. This effect was found for tasks 1 and 2 for the 5- and 6-year-old children. Children as young as 5 years of age reliably exhibit brain activity, which can be used to infer cognitive problem-solving skill. This assessment paradigm may eventually serve as a clinically useful adjunct to a thorough neurologic and neurodevelopmental assessment of selected pediatric populations, such as those presenting with moderate-severe cerebral palsy whose expressive language and motor skills are notably impaired.
A consistent limitation when designing event-related potential paradigms and interpreting results... more A consistent limitation when designing event-related potential paradigms and interpreting results is a lack of consideration of the multivariate factors that affect their elicitation and detection in behaviorally unresponsive individuals. This paper provides a retrospective commentary on three factors that influence the presence and morphology of long-latency event-related potentials—the P3b and N400. We analyze event-related potentials derived from electroencephalographic (EEG) data collected from small groups of healthy youth and healthy elderly to illustrate the effect of paradigm strength and subject age; we analyze ERPs collected from an individual with severe traumatic brain injury to illustrate the effect of stimulus presentation speed. Based on these critical factors, we support that: (1) the strongest paradigms should be used to elicit event-related potentials in unresponsive populations; (2) interpretation of event-related potential results should account for participant a...
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Papers by John Connolly