Trophoblast proliferation is higher in female than in male preeclamptic placentas.

Introduction: Preeclampsia (PE) is a pregnancy-specific hypertensive disorder with inflammatory complications. There are no known placental histopathological features, which are unique to PE. It is often pooled with the fetal growth restriction (FGR) under a single umbrella pathophysiology, the maternal vascular malperfusion (MVM).

Fluid shear stress induces a shift from glycolytic to amino acid pathway in human trophoblasts.

Background: The human placenta, a tissue with a lifespan limited to the period of pregnancy, is exposed to varying shear rates by maternal blood perfusion depending on the stage of development. In this study, we aimed to investigate the effects of fluidic shear stress on the human trophoblast transcriptome and metabolism.

Results: Based on a trophoblast cell line cultured in a fluidic flow system, changes caused by shear stress were analyzed and compared to static conditions.

Growth restricted placentas show severely reduced volume of villous components with perivascular myofibroblasts.

Introduction: The restricted placental growth in IUGR is associated with a simultaneous weight and volume restriction for the placental villous tree. It is unknown whether the whole villous tree or only specific parts of it are growth restricted in IUGR. In the case of uniform growth restriction of the villous tree, IUGR placentas could be interpreted as symmetrically smaller versions of normal placentas.

Air contrast of the intervillous space enables non-disruptive Micro-CT analysis of paraffin-embedded archival placental tissue.

The morphometric parameters of the villous tree are a strong indicator of deviant placentas. Methods have been established to digitally reconstruct small peripheral branches by tracing with 3D Microscopy at subcellular resolution. Micro-CT can help scale up the scanning of villous trees with resolution in the range of a few micrometers.

The volume of villi with γ-sm-actin positive perivascular cells correlates with placental weight and thickness.

Introduction: The classification of histologically stained villous cross sections in villous types (terminal, intermediate and stem villi) by stromal peculiarities is known to be observer predicated. Therefore, quantitative histology of villous trees has not become a routine endpoint of studies on the role of the placenta in prenatal programming, as opposed to the gross placental parameters weight and thickness. The classification of villous cross sections in central (stem) and peripheral (terminal) parts based on the presence or absence, respectively, of immunohistochemical detection of myofibroblasts in perivascular position is less observer dependent.