Relationship of Neonatal Pain and Early Brain Development of Preterm Infants on Motor Outcomes at 18 months
Between 2005 and 2009, more than 16,000 infants in British Columbia were born prematurely. Prematurely born infants are at increased risk for developing motor problems that, in many cases, significantly interfere with daily life and school performance. This degree of motor difficulty is often referred to as developmental coordination disorder, or DCD. Children with DCD struggle with many typical tasks, such as tying shoes, riding a bike, handwriting or participating in sports. While it was once believed that children with DCD would outgrow their motor difficulties, studies have shown that these difficulties can persist into adolescence and adulthood. In addition to physical concerns, children with DCD experience other issues, including difficulty with social and peer relationships, lower self-worth and self-esteem, anxiety and depression, and other emotional health concerns. Thus, there is an urgent need to develop rehabilitative therapies to prevent these lifelong complications.
Dr. Jill Zwicker's research program focuses on understanding how the process of early brain development influences motor-skill development. Previous work suggests that DCD may be caused by abnormal brain development, but this has yet to be confirmed. Dr. Zwicker, an occupational therapist with a clinical and research interest in DCD, is using different brain-imaging techniques and is collecting information about health and treatments from a group of 175 premature infants. The babies will have a brain scan in the first few weeks after birth and will have a second scan around the time they would have been born, had they made it to full term. Measurement will be used to compare brain development between these two points in time.
Dr. Zwicker suspects there may be a relationship between brain development and exposure to pain, and that these factors may affect motor development, so she will also gather information about the number of skin-breaking procedures (for example, needle pokes) that the infants receive. In addition, her research team will collect information about other factors that may influence brain and motor development, including medications received, days on oxygen, illness severity, infection, and lung disease.
By having a stronger understanding of the factors that contribute to the development of DCD in children born prematurely, Dr. Zwicker hopes her research will help prevent poor motor outcomes and help develop new therapies to improve motor and functional outcomes for children born prematurely.