Position of Central Vascular Trunk and Shape of Optic Nerve Head in Newborns.
Kim Martha, Kim So Young, Lee Kyoung Min, Oh Sohee, Kim Seok Hwan
AI Summary
Newborns' central vascular trunk is typically central with a vertically oval optic disc, suggesting these features change significantly during eye development, unlike adult variability.
Abstract
Purpose
To investigate the baseline position of the central vascular trunk (CVT) and the characteristics of the optic nerve head (ONH) in newborns.
Methods
CVT position was evaluated based on fundus images obtained from newborns who had undergone eye-screening examinations. It was then graded according to the optic disc area as follows: grade 1, within central 4%; grade 2, within central 9%; grade 3, within central 16%; grade 4, within central 25%; grade 5, outside central 25% of optic disc area. The direction of the CVT position was determined in cases of grade 2 or more as superior, inferior, nasal, and temporal, relative to the optic disc center. The ovality index and the vertical cup-to-disc ratio were determined as well.
Results
In 1000 fundus images from 1000 newborns, 87.1% showed grade 1 (95% confidence interval 84.7-88.8), and 10.7% showed grade 2. The most common CVT direction was central (87.1%, grade 1), followed by nasal (11.0%) and inferior (1.2%). The ovality index was 1.28 ± 0.09 (range, 1.01-1.61). The ONH shape was vertically oval and highly uniform. The average vertical cup-to-disc ratio was 0.29 ± 0.13 (range, 0.00-0.67).
Conclusions
The CVT of newborns was located in the central area of the ONH in most cases. The shape of the optic disc was vertically oval, and very similar among the newborns. Considering the high variability of ONH morphology and the diverse location of the CVT in adults, our result suggests that the shape of the ONH and the CVT position might change during eyeball growth.
MeSH Terms
Shields Classification
Key Concepts5
In 1000 fundus images from 1000 newborns, the central vascular trunk (CVT) showed grade 1 (within central 4% of optic disc area) in 87.1% (95% confidence interval 84.7-88.8) of cases, and grade 2 (within central 9% of optic disc area) in 10.7% of cases.
The most common central vascular trunk (CVT) direction in newborns was central (87.1%, grade 1), followed by nasal (11.0%) and inferior (1.2%).
The optic nerve head (ONH) shape in newborns was vertically oval and highly uniform, with an average ovality index of 1.28 ± 0.09 (range, 1.01-1.61).
The average vertical cup-to-disc ratio in newborns was 0.29 ± 0.13 (range, 0.00-0.67).
Considering the high variability of optic nerve head (ONH) morphology and the diverse location of the central vascular trunk (CVT) in adults, the results suggest that the shape of the ONH and the CVT position might change during eyeball growth from newborns to adulthood.
Related Articles5
Evaluation of Retinal Structure in Pediatric Subjects With Vitamin D Deficiency.
Cross-Sectional StudyBirth Weight Is a Significant Predictor of Retinal Nerve Fiber Layer Thickness at 36 Weeks Postmenstrual Age in Preterm Infants.
Observational StudyProfile of the retina by optical coherence tomography in the pediatric age group.
Observational StudyViolation of the ISNT rule in Nonglaucomatous pediatric optic disc cupping.
Cross-Sectional StudyThe rim area of the optic nerve head, assessed with Heidelberg retina tomography, is smaller in prematurely born children than in children born at term.
Cross-Sectional StudyIs this article assigned to the wrong chapter(s)? Let us know.