Abstract
OBJECTIVE: To test the hypothesis that nailfold capillaroscopy can noninvasively detect dysregulated retinal angiogenesis and predict retinopathy of prematurity (ROP) in infants born premature before its development. METHODS: In a cohort of 32 infants born <33 weeks of gestation, 1386 nailfold capillary network images of the 3 middle fingers of each hand were taken during the first month of life. from these, 25 infants had paired data taken 2 weeks apart during the first month of life. images were analyzed for metrics of peripheral microvascular density using a machine learning-based segmentation approach and a previously validated microvascular quantification platform (reaver vascular analysis). results were correlated with subsequent development of rop based on a published consensus rop severity scale. results: in total, 18 of 32 (56%) (entire cohort) and 13 of 25 (52%) (2-time point subgroup) developed rop. peripheral vascular density decreased significantly during the first month of life. in the paired time point analysis, vessel length density, a key metric of peripheral vascular density, was significantly greater at both time points among infants who later developed rop (15 563 and 11 996 μm mm2, respectively) compared with infants who did not (12 252 and 8845 μm mm2, respectively) (p >< .001, both time points). a vessel length density cutoff of>15 100 at T1 or at T2 correctly detected 3 of 3 infants requiring ROP therapy. In a mixed-effects linear regression model, peripheral vascular density metrics were significantly correlated with ROP severity. CONCLUSIONS: Nailfold microvascular density assessed during the first month of life is a promising, noninvasive biomarker to identify premature infants at highest risk for ROP before detection on eye exam. .001,>33 weeks>