Cardiac defects, nuchal edema and abnormal lymphatic development are not associated with morphological changes in the ductus venosus.

BACKGROUND: In human fetuses with cardiac defects and increased nuchal translucency, abnormal ductus venosus flow velocity waveforms are observed. It is unknown whether abnormal ductus venosus flow velocity waveforms in fetuses with increased nuchal translucency are a reflection of altered cardiac function or are caused by local morphological alterations in the ductus venosus. AIM: The aim of this study was to investigate if the observed increased nuchal translucency, cardiac defects and abnormal lymphatic development in the examined mouse models are associated with local changes in ductus venosus morphology. STUDY DESIGN: Mouse embryos with anomalous lymphatic development and nuchal edema (Ccbe1(-/-) embryos), mouse embryos with cardiac defects and nuchal edema (Fkbp12(-/-), Tbx1(-/-), Chd7(fl/fl);Mesp1Cre, Jarid2(-/-NE+) embryos) and mouse embryos with cardiac defects without nuchal edema (Tbx2(-/-), Fgf10(-/-), Jarid2(-/-NE-) embryos) were examined. Embryos were analyzed from embryonic day (E) 11.5 to 15.5 using markers for endothelium, smooth muscle actin, nerve tissue and elastic fibers. RESULTS: All mutant and wild-type mouse embryos showed similar, positive endothelial and smooth muscle cell expression in the ductus venosus at E11.5-15.5. Nerve marker and elastic fiber expression were not identified in the ductus venosus in all investigated mutant and wild-type embryos. Local morphology and expression of the used markers were similar in the ductus venosus in all examined mutant and wild-type embryos. CONCLUSIONS: Cardiac defects, nuchal edema and abnormal lymphatic development are not associated with morphological changes in the ductus venosus. Ductus venosus flow velocity waveforms most probably reflect intracardiac pressure.

Cord compression may rapidly influence the expression of placental angiogenic genes in pre-eclampsia.

Gene expression studies have demonstrated the altered expression level of placental angiogenesis related genes in severe pre-eclampsia (PE). In cord compression, the transportation of oxygen from the placenta to the fetus is blocked, and it is speculated that during blockade the originally hypoxic placenta may become hyperoxic. We compared the placental gene expression profiles of one pre-eclamptic patient with cord compression (the index patient) to the profiles of patients with PE and those of normal pregnancy controls (including one woman with cord compression). The gene expression of the cord compression PE patient resembled that observed in the normal pregnancies. We hypothesize that umbilical blockade may in a short period of time lead to placental hyperoxia, which in turn has an effect on angiogenic gene expression profile.