1- Pediatric Neurorehabilitation Research Center, University of Social Welfare and Rehabilita-tion Sciences, Tehran, Iran.
2- Department of Midwifery, School of Nursing and Midwifery, Qazvin University of Medical Sciences, Qazvin, Iran. , z.bajalan64@gmail.com
Abstract: (3468 Views)
Background: Developmental and behavioral disorders are the most prevalent problems in children after infection and trauma. Growth and development are influenced by genetic, social and environmental factors that incept of the early life of the fetal and neonatal periods. Due to the importance of the development in children, this study was conducted to determine the relationship between growth indices at birth and developmental status in infancy.
Methods: This case-control study investigated 6 to 18 months old infants, who referred to comprehensive health centers affiliated to Qazvin University of Medical Sciences, Iran, from August to December 2017. The sample size in this study was 200 infants and the participants were evaluated in two groups of 100 subjects (developmental delay and normal development). Anthropometric indices at birth were collected from healthcare records, and developmental status was measured using the ages and stages questionnaire (ASQ). The developmental status of the children was measured in five domains, i.e., motor (gross and fine motor skills), problem-solving, personal-social skills and communication. A significance level was considered statistically <0.05.
Results: The mean age of the infants in the developmental delay group was 12.63±1.72 months and the mean age of the infants in control group was 12.68±1.69 months and 45.6% of children in the developmental delay group were female and 54.4% of children in the developmental delay group were male. The most prevalence developmental delay in case group was in the area of personal-social domain (26.9%) and the lowest prevalence developmental delay in the area of the gross motor (12.7%). No correlation was found between head circumference (P= 0.32) and height at birth (P= 0.11) and developmental status. However, there was a significant relationship between developmental delay in the area of the communication (P= 0.04) and gross motor (P= 0.02) with birth weight. Pearson correlation indicate a correlation between developmental delay in the area of the gross motor and birth weight (P= 0.01).
Conclusion: It seems that birth weight was a factor that is associated with developmental delay. In this study low birth weight correlated with developmental delay in communication and gross motor aspects of ASQ.
Type of Study:
Original Article |