Background <p>Children born preterm may experience alterations in the maturation of visual and oculomotor systems, but the long-term consequences on eye movement control throughout children’s development are not well established. Our study examined how early birth influences fixation and saccadic performance during childhood.</p> Methods <p>We assessed a cross-sectional, multicenter cohort of 1506 children (502 preterm, 1004 full-term) aged 6 months to 12 years using the DIVE system, which provides precise measures of fixation stability, fixation duration, saccadic reaction time, and accuracy. We used logistic regression models to estimate the association between preterm birth and oculomotor control deficits, adjusting for gestational age and visual pathologies.</p> Results <p>Preterm children showed significantly more unstable fixations and slower saccadic reaction times than full-term peers across all age groups. Oculomotor deficits were more prevalent in preterm children (36.5% vs. 23.3%), with higher odds of impairment (OR = 1.89, 95% CI 1.49–2.39, <i>p</i> &lt; 0.001). These differences emerged in infancy and persisted through middle childhood despite age-related improvements in both groups.</p> Conclusion <p>These findings suggest that preterm birth may have lasting consequences for oculomotor control, underscoring the importance of early detection and targeted interventions to support visual and neurological development in preterm children.</p> Impact <p><UnorderedList Mark="Bullet"> <ItemContent> <p>Children born preterm show persistent deficits in fixation stability and saccadic reaction time from infancy through middle childhood.</p> </ItemContent> <ItemContent> <p>These differences persist even after adjusting for visual pathology, gestational age, and sex.</p> </ItemContent> <ItemContent> <p>Eye-tracking provides a sensitive, reproducible approach to detect oculomotor dysfunction in pediatric populations.</p> </ItemContent> <ItemContent> <p>This study offers the largest age-matched assessment of oculomotor control across development in preterm and full-term children using a single standardized system.</p> </ItemContent> <ItemContent> <p>Integrating such assessments into routine pediatric care may enhance early intervention strategies and improve developmental outcomes for children born preterm.</p> </ItemContent> </UnorderedList></p>

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Fixation and saccadic performance throughout childhood in children born preterm: A multicenter eye-tracking study

  • Marina Vilella,
  • Diego Gutiérrez,
  • David Solanas,
  • Mauricio Cedillo-Ley,
  • Marta Ortín,
  • Eduardo Esteban-Ibañez,
  • Jason C. S. Yam,
  • Marta Lacort-Beltrán,
  • Chau Pham,
  • Sandra de Fernando,
  • Hu Liu,
  • Rosario de Gómez Liaño,
  • Adrian Alejandre,
  • Álvaro Fanlo-Zarazaga,
  • Xian Pan,
  • Olimpia Castillo,
  • Inmaculada Gonzalez,
  • Teresa Perez-Roche,
  • Juan Pinilla,
  • Esther Prieto,
  • María Romero,
  • Belen Masia,
  • Maria Estela Arroyo Yllanes,
  • Gerardo García Guzmán,
  • Guadalupe Rodriguez Gallardo,
  • Yuzhou Zhang,
  • Nguyen Xuan Hiep,
  • Nguyen Xuan Tinh,
  • Sandra de Fernando,
  • Marta Galdós,
  • Maialén López,
  • Dan Huang,
  • Rui Li,
  • Carmen Carreño,
  • Rosario Gómez de Liaño,
  • Victoria Pueyo

摘要

Background

Children born preterm may experience alterations in the maturation of visual and oculomotor systems, but the long-term consequences on eye movement control throughout children’s development are not well established. Our study examined how early birth influences fixation and saccadic performance during childhood.

Methods

We assessed a cross-sectional, multicenter cohort of 1506 children (502 preterm, 1004 full-term) aged 6 months to 12 years using the DIVE system, which provides precise measures of fixation stability, fixation duration, saccadic reaction time, and accuracy. We used logistic regression models to estimate the association between preterm birth and oculomotor control deficits, adjusting for gestational age and visual pathologies.

Results

Preterm children showed significantly more unstable fixations and slower saccadic reaction times than full-term peers across all age groups. Oculomotor deficits were more prevalent in preterm children (36.5% vs. 23.3%), with higher odds of impairment (OR = 1.89, 95% CI 1.49–2.39, p < 0.001). These differences emerged in infancy and persisted through middle childhood despite age-related improvements in both groups.

Conclusion

These findings suggest that preterm birth may have lasting consequences for oculomotor control, underscoring the importance of early detection and targeted interventions to support visual and neurological development in preterm children.

Impact

Children born preterm show persistent deficits in fixation stability and saccadic reaction time from infancy through middle childhood.

These differences persist even after adjusting for visual pathology, gestational age, and sex.

Eye-tracking provides a sensitive, reproducible approach to detect oculomotor dysfunction in pediatric populations.

This study offers the largest age-matched assessment of oculomotor control across development in preterm and full-term children using a single standardized system.

Integrating such assessments into routine pediatric care may enhance early intervention strategies and improve developmental outcomes for children born preterm.