Targeted quantitative amniotic cell profiling: a potential diagnostic tool in the prenatal management of neural tube defects

Abstract

Purpose: We sought to determine whether amniotic cell profiles correlate quantitatively with neural tube defect (NTD) type and/or size.

Methods: Sprague-Dawley fetuses exposed to retinoic acid (n=61) underwent amniotic fluid sample procurement before term. Samples were analyzed by flow cytometry for the presence of cells concomitantly expressing Nestin and Sox-2 (neural stem cells, aNSCs), and cells concomitantly expressing CD29 and CD44 (mesenchymal stem cells, aMSCs). Statistical analysis included ANOVA and post-hoc Bonferroni adjusted comparisons (P<0.05).

Results: There was a statistically significant increase in the proportion of aNSCs in fetuses with spina bifida (6.78%± 1.87%) when compared to those with exencephaly (0.64%± 0.23%) or with both spina bifida and exencephaly (0.22%± 0.09%). Conversely, there was a statistically significant decrease in the proportion of aMSCs in fetuses with exencephaly, either isolated (1.09%± 0.42%) or in combination defects (2.37%± 0.63%) when compared with normal fetuses (8.83%± 1.38%). In fetuses with isolated exencephaly, there was a statistically significant inverse correlation between the proportion of aNSCs and defect size.

Conclusions: The proportions of neural and mesenchymal stem cells in the amniotic fluid correlate with the type and size of experimental NTDs. Targeted quantitative amniotic cell profiling may become a useful diagnostic tool in the prenatal evaluation of these anomalies.

Keywords: Amniotic cell profiling; Amniotic stem cells; Myelomeningocele; Neural tube defects; Spina bifida.