This is a prospective observational study aiming to establish reference values of neurofilaments in late preterm newborns (34-37 weeks of gestation) and to evaluate their early postnatal evolution. Neurofilaments are neuronal proteins released into the blood when nerve cells are damaged. They have emerged as promising biomarkers in neurodegenerative diseases, particularly in spinal muscular atrophy (SMA), where higher levels are associated with disease activity. However, very limited data exist on the normal dynamics of neurofilament levels in preterm infants. In this study, up to 15 preterm newborns hospitalized in the neonatal unit will be enrolled (5 at 34 weeks, 5 at 35 weeks, 5 at 36 weeks of gestation). A maximum of 1 mL of additional blood will be collected only during routine clinically indicated blood draws, at birth, on day 2, and weekly until 37 weeks of gestation. Samples will be analyzed for neurofilament concentrations and compared across gestational ages, over time, and with existing data from term newborns and SMA patients. The expected outcome is to generate normative data on neurofilament levels in late preterm infants, which will help interpret biomarker values in future studies and optimize early diagnosis and treatment strategies for neurodegenerative diseases such as SMA.
Recent therapeutic advances in spinal muscular atrophy (SMA) have highlighted the importance of very early treatment, ideally before the onset of symptoms. Neurofilaments, structural proteins of neurons released into the blood when axons are damaged, have been identified as sensitive biomarkers of neurodegeneration and disease activity in SMA. Elevated neurofilament levels have been reported in affected infants, with a rapid decline following initiation of effective treatment. Despite their growing importance as a biomarker, little is known about the normal postnatal dynamics of neurofilaments in preterm infants. Establishing normative data in this population is essential to correctly interpret biomarker levels in newborn screening programs and clinical follow-up, particularly for conditions such as SMA where treatment decisions rely on early biological signals.
Study Type
OBSERVATIONAL
Enrollment
15
An additional blood sample (maximum 1 mL) is collected during routine clinically indicated blood draws in late preterm infants (34-37 weeks of gestation). Samples are obtained at birth, day 2, and weekly until 37 weeks of gestation if blood draws are already planned. No separate venipuncture is performed. Samples are processed and stored for subsequent neurofilament concentration analysis.
Hopital Citadelle
Liège, Belgium
RECRUITINGNeurofilament concentration in blood of late preterm infants
Measurement of blood neurofilament light chain (NfL) concentrations to establish reference values and describe their early postnatal evolution in late preterm infants.
Time frame: From birth to 37 weeks of gestational age (up to 3 weeks after inclusion depending on gestational age at birth).
Postnatal evolution of neurofilament concentrations
Analysis of changes in neurofilament levels over time in late preterm infants, from birth to 37 weeks of gestational age.
Time frame: From birth up to 37 weeks of gestational age (longitudinal follow-up).
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.