2. Numerous skills are defined as
Executive Functions (EF)
These skills help a person to:
Form a task
Focus on task
Fulfill the task
EF is derived from the frontal
lobe of the brain
Located behind the forehead
(Powell & Voeller, 2004)
3. Five crucial skills that sum up EF abilities
1. Working memory helps to:
Keep track of information
Recall information
Remember how to conduct a procedure
(Best, Miller & Jones, 2009)
4. Five crucial skills that sum up EF abilities
2. Inhibition helps to:
Keep control of self
Appropriately deal with frustration
Focus attention when working on tasks
(Best, Miller & Jones, 2009; Ciairano, Visu-Petra & Settanni, 2007; Nilsen &
Graham, 2009; Riggs, Jahromi, Razza, Dillworth-Bart & Mueller, 2006)
5. Five crucial skills that sum up EF abilities
3. Shifting helps to:
Stop one procedure
Move on to a new procedure
Adapt to change
(Ciairano, Visu-Petra & Settanni, 2007)
6. Five crucial skills that sum up EF abilities
4. Attention helps to:
Keep on-task
Ignore distractions
(Best, Miller & Jones, 2009)
7. Five crucial skills that sum up EF abilities
5. Motor skills help to:
Control body movement
Control sway
(Miyake, Friedman, Shah, Rettinger & Hegarty, 2001; Reilly, Van Donkelaar,
Saavedra & Woollacott, 2008)
8. Major parts of the frontal lobe:
Are present at birth
Connect with other parts of the brain through:
Experience
Maturing
Develop throughout childhood and the teen years
EF Skills each arrive in their own unique timeframe
(Conklin, Luciana, Hooper & Yarger, 2007; Stuss, 1992)
9. Cognitive Development
8
7
6
Amount of Ability
5
4
Preschool
3 Childhood
Adolescence
2
1
0
Make Memory Shifting Inhibition Other's Postural Social Processing
Decisions Point of Control Cooperation Speed
View
EF Skill
(Best, Miller & Jones, 2009; Davidson, Amso, Anderson & Diamond, 2006; Liston, Watts, Tottenham, Davidson, Niogi &
Ulug, 2006; Powell & Voeller, 2004; Reilly, Van Donkelaar, Saavedra & Wollacott, 2008)
10. Typical children can be behind average peers in
the development of EF
Cognitive crutches can help delayed EF child
keep up with average peers in the classroom
(Best, Miller & Jones, 2009; Blair, 2002; Brocki & Bohlin, 2004; Meltzer, 2007)
11. Possible reasons for EF developmental delays in
typical children
Preterm birth
Frontostriatal connectivity
Not all is known why delay occurs
Deficits can cause problems in the classroom
Starting, staying focused on and competing tasks
(Cornelieke, Aarnoundse-Moens, Smidts, Oosterlaan, Duivenvoodren & Weisglas-
Kuperus, 2009)
12. Delay in EF development can be 30% that of
typical development
10-year-old cognitively behaves like a 7-year-old
Empirical research of EF loss from dementia can
be applied to delayed EF children
New research on delayed EF development can
look at how to help children in the classroom
(McCloskey, 2009)
13. Identify delayed EF children
A clinical label of delayed EF
Often mislabeled as learning dysfunction
“Classroom crutches”
Allow new research in the matter
Provide hope for children that EF skill are still growing
Help others to understand that the cognitive skills are still
growing in these children
(Carroll & Reppucci, 1978)
The need for a label of delayed EF is prudent for the
child’s well being both in the classroom and in social
settings.
14. Best, J., Miller, P., & Jones, L. (2009). Executive functions after age 5: Changes and correlates. Developmental Review, 29.
Blair, C. (2002). School readiness: Integrating cognition and emotion in a neurobiological conceptualization of children's functioning at school entry.
American Psychologist, 57(2).
Bull, R., Espy, K., & Wiebe, S. (2008). Short-term memory, working memory, and executive functioning in preschoolers: Longitudinal predictors of
mathematical achievement at age 7 years. Developmental Neuropsychology, 33(3).
Carroll, C., & Reppucci, D. (1978). Meanings that professionals attach to labels for children. Journal of Consulting and Clinical Psychology, 46(2).
Ciairano, S., Visu-Petra, L., & Settanni, M. (2007). Executive inhibitory control and cooperative behavior during early school years: A follow-up study.
Journal of Abnormal Child Psychology, 35(335-345).
Conklin, H., Luciana, M., Hooper, C., & Yarger, R. (2007). Working memory performance in typically developing children and adolescents: Behavioral
evidence of protracted frontal lobe development. Developmental Neuropsychology, 3(1).
Cornelieke, Aarnoundse-Moens, Smidts, Oosterlaan, Duivenvoodren, & Weisglas-Kuperus. (2009). Executive function in very preterm at early school age.
Journal of Abnormal Child Psychology, 37.
Davidson, M. C., Amso, D., Anderson, L. C., & Diamond, A. (2006) Development of cognitive control and executive functions from 4 to 13 years: Evidence
from manipulations of memory, inhibition, and task switching. Advances in Developmental Cognitive Neuroscience, 44(11), 2037-2078
Diamond, A. (2000). Close interrelations of motor development and cognitive development and the cerebellum and prefrontal cortex. Child Development.
71(1), 44-56
Greene, J., Hodges, J., & Baddeley, A. (1995). Autobiographical memory and executive function in early dementia of Alzheimer type.
Neuropsychologia, 33(12).
Kerr, A., & Philip David Zelazo. (2004). Development of "hot" executive function: the children's gambling task. Brain and Cognition, 55.
Liston, C., Watts, R., Tottenham, N., Davidson, M., Niogi, S., Ulug, A., & Casey, B.J. (2006). Fontostriatal microstructure modulates efficient recruitment
of cognitive control. Cerebral Cortex, 16.
Mazzocco, and Kover. (2007). A longitudinal assessment of executive function skills and their association with math performance. Child
Neuropsychology, 13(1).
McCloskey, G. (2009). Executive function development: Lines and levels. In Assessment and intervention for executive function difficulties (p. 72). New York:
Taylor & Francis Group-Rutledge.
Meltzer, L. (Ed.). (2007). Executive function in the classroom: Embedding strategy instruction into daily teaching practices. In Executive function in
education: From theory to practice (pp. 165-186). New York: The Guilford Press.
Miyake, A., Friedman, N., Shah, P., Rettinger, D. A., & Hegarty, M. (2001). How are visuospatial working memory, executive functioning, and spatial
abilities related? A latent-variable analysis. Journal of Experimental Psychology, 130(4).
Nilsen, E., & Graham, S. (2009). The relations between children's communicative perspective-taking and executive functioning. Cognitive Psychology, 58.
Powell, K. B., & Voeller, K. K. S. (2004). Prefrontal executive function syndromes in children. Journal of Child Neurology, 19.
Reilly, D., Van Donkelaar, P., Saavedra, S., & Woollacott, M. (2008). Interaction between the development of postural control and the executive function
of attention. Journal of Motor Behavior, 40(2).
Riggs, N., Jahromi, L., Razza, R., Dillworth-Bart, J., & Mueller, U. (2006). Executive function and the promotion of social-emotional competence. Journal of
Applied Developmental Psychology, 27.
Stuss, Donald, (1992). Biological and psychological development of executive functions. Brain and Cognition, 20, 8-23.
Tsujimoto, S. (2008). The prefrontal cortex: Functional neural development during early childhood. The Neuroscientist, 14(4), 345-358
Editor's Notes
Hi, I’m Rhonda DeYoung and this presentation discusses my literature review on executive functions development in typical children. I found there is a need in defining, labeling and researching typical children delayed in executive functions development.
Executive Functions is the term used to describe all the skills having to do with self-regulations and brain functions, involved in planning and executing tasks to completion. Executive functions come from the frontal lobe of the brain and are the last part of the brain to develop.
There are 5 important skills that sum up executive functionsWorking memory helps us keep track of information that is later recalled and used in sequential tasks in order to complete tasks.
Inhibitions or the use of self control represses natural emotions or reactions that lead to frustration and giving up.
Shifting allows us to switch from one task to the next with ease, so new directions or added instructions can be executed as needed.
Attention allows us to focus on the task at hand, keep distractions at bay and get the job done.
Motor skills help us keep the body’s fine and gross motor movements under control, Including postural control and sway.All of the executive functions skills work together in task completion
At birth, the primary areas of the brain are present, including connective structures of the frontal lobe. Connections of the brain develop through experience and maturing throughout childhood and adolescence and each cognitive skill arrives in its own unique time frame.In all, behavior and cognitions mature with age
Research has shown that there are developmental milestones of executive skills that occur during the preschool, middle childhood and adolescent years. Preschoolers: Have an onset of affective decision making abilities Are able to hold some information into memory Switch tasks Begin to use inhibition , but they Have the most sway of all age groups Children age 7-12 Have better working memory and storage skills Begin to plan and troubleshoot Are less impulsive Have better postural control Start using social cooperation Teens have more use of the frontal lobe They have an increase in working memory and can plan and trouble shoot better than younger children They have even better control of posture and sway There is a mastering of attentional commands and faster processing due to maturing of white brain matter Executive functions need to be in place, and on time for school readiness, and follow a typical trajectory for academic success throughout the school years.
Children delayed in executive functions development who are otherwise typical, free from any neuropsychiatric syndromes or conditions, can be defined as “delayed” and provided with cognitive “crutches” that help them function in school as development continues. Just as the child who doesn’t gain their full height as quick as the average child, may at times need the use of a stepstool, delayed executive functions children may need help: Starting, staying focused on and stopping tasks Organizing their methods and Keeping emotions in check to help them move along during the day
There are some theories about cognitive developmental differences, but not all is known as to why there is delay in typical children.
Delay in executive functions development can be 30% of typical development. A 30% delay can cause a 10-year old based on his birthday, to behave more like a 7-year old cognitively. Identification of delayed executive functions development can open the door to empirical research on ways to help these kids succeed Delayed executive functions children may also benefit from unique classroom adaptations that are custom tailored toward their individual deficits. This could mean: Allowing a child who is behind in development of working memory, to be given one or two procedures at a time, rather than four or five to follow.
A clear clinical label of delayed executive functions would assure the child not accept his circumstances as fixed, with a loss or stunted lack of cognitive skills. Being labeled as having a syndrome or dysfunction may cause a child not to have patients in themselves, and assume they will never be as able as their peers. Parents, educators and clinicians would realize these children are still developing cognitive skills, and not settle into a fixed view of the child as always being deficient. The need for a label of delayed executive functions is important for the child’s well being. Thank you.