Mirror Neuron Network Dysfunction as an Early Biomarker of Neurodevelopmental Disorder
Purpose
Background: People show changes in brain activity when they watch other people do actions. This may be part of early social and communication skills. Researchers want to understand the stages of normal development of motor observation and imitation in people and how it relates to social development in infants and toddlers. Objective: To study the nature of brain activity that underlies typical brain functioning in infants, toddlers, and adults. Eligibility: Infants ages 8 12 months Healthy adults ages 18 65 Design: Adult participants will have one visit. They will: Answer questions about their family, like its size and ethnicity. Answer questions about their own behavior and do a simple motor task. Have EEG/fNIRS. A damp elastic cap with small sensors will be placed on the head. Participants will observe stimuli, either on a video screen or of a live person. The sensors will be connected to a computer. That will record the participant s brain activity while watching pictures on a screen. Infant participants will have 2 visits. Their parents will answer questions about their family. The parents will fill out forms about their child s development. These will be mailed to them before each visit. Parents will stay with their infant while study staff does an assessment of the child s communication, motor, and thinking skills. Infants will have EEG/fNIRS. Infants who are at risk for developmental delays will come back for another visit when they are about 2 years old. This will repeat the infant visits but it will not include EEG/fNIRS. Some questionnaires and assessments will be videotaped.
Condition
- Developmental Delay
Eligibility
- Eligible Ages
- Between 9 Months and 65 Years
- Eligible Sex
- All
- Accepts Healthy Volunteers
- Yes
Criteria
- INCLUSION CRITIERIA:
Healthy adults
- Age of 18-65 at study entry
- Healthy and good condition as determined by medical history and physical examination
Healthy Infants
- 9 months +/- 2 weeks of age at time of consent
- Healthy and good condition as determined by medical history and physical examination
- Age appropriate development as determined by parent report and exam
- Full term at birth
- Normal weight for gestational age
At Risk Infants
- 12 months +/- 2 weeks at the time of consent
- Must have at least one of the following: observed developmental delay; sibling of a
child with autism; premature birth; small for gestational age
EXCLUSION CRITERIA:
Healthy Adults
- Uncorrected auditory impairment
- Uncorrected visual impairment
- Head injury with loss of consciousness
- Inability to provide consent
- Subject has a condition, that in the opinion of the investigator, creates an
unacceptable risk for participation
Healthy and At-Risk Infants
- A language other than English as the primary language spoken at home
- Having a medical impairment that interferes with study participation such as having
a g-tube, shunt or seizure disorder and inability to hold one s head upright
- Having a known visual impairment
- Having a known auditory impairment
Study Design
- Phase
- Study Type
- Observational
- Observational Model
- Case-Control
- Time Perspective
- Prospective
Arm Groups
| Arm | Description | Assigned Intervention |
|---|---|---|
| Adult pilots | Healthy adults between the ages of 18-65 years | |
| AR infants | Infants with 12 months of age (+/- 2 weeks) with one of the following: observed developmental delay, sibling of a child with autism, premature birth, small for gestational age. | |
| TD infants | Healthy infants with 9 months of age (+/- 2 weeks) |
Recruiting Locations
Bethesda, Maryland 20892
For more information at the NIH Clinical Center contact Office of Patient Recruitment (OPR)
800-411-1222
prpl@cc.nih.gov
More Details
- Status
- Recruiting
- Sponsor
- Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD)
Detailed Description
Objective: This investigation has two main objectives: 1) combine two child-friendly brain imaging techniques and stochastic modeling to determine the neural basis for the development of imitation and mimicry in human infants and 2) use machine learning to identify brain activation patterns that predict impairment in imitation and mimicry in infants at risk for social communication disorders. Study Population: This study will focus on two groups of infants. The first group includes 60 typically developing infants, who will complete the imitation and neuroimaging paradigm between the ages of 9-12 months (+/- 2 weeks) and again at 12 months of age (+/- 2 weeks). The second group includes 60 infants at increased risk for social communication disorders, including those with motor delay, language delay, preterm birth, or a sibling with an autism spectrum disorder. These infants will complete the imitation and neuroimaging paradigm at 12 months of age (+/- 1 month) as well as a follow up evaluation of social communication skills and developmental status at 24 months of age (+/- 1 month). Design: We propose to conduct longitudinal studies of changes in EEG and fNIRS correlates of mirror neuron network activity in typical development and infants at risk for social communication delay. We will measure both EEG mu suppression and hemodynamic change over the motor cortex during an established infant action/observation paradigm. At all study visits, infants will also complete developmental assessments that measure abilities in cognitive, motor, language, and social domains. Outcome measures: Both neuroimaging measures and developmental status will serve as outcomes for this study. For the typically developing infants, change in the neuroimaging metrics (i.e., percent mu suppression, percent oxyhemoglobin change) will be used to characterize development of the mirror neuron system, while the relation between neuroimaging variables, their trajectories, and developmental ability will be used to develop hypotheses about the role of the mirror neuron network in development of social communication skills. For the infants at risk for social communication disorders, the main outcome will be developmental status, with neuroimaging metrics used as predictors.