AI Article Synopsis
- Mammalian models, especially mice, are crucial for studying placental development, and MRI could provide important structural and functional insights.
- Diffusion-weighted MRI can improve understanding of how maternal and fetal blood exchange via the placenta but has faced challenges due to the small size and movement of mouse placentas.
- The study used advanced SPEN MRI techniques and albumin contrast agents to differentiate between maternal and fetal blood flows, revealing distinct diffusion behaviors and correlating structural features with microscopy studies.
Article Abstract
Mammalian models, and mouse studies in particular, play a central role in our understanding of placental development. Magnetic resonance imaging (MRI) could be a valuable tool to further these studies, providing both structural and functional information. As fluid dynamics throughout the placenta are driven by a variety of flow and diffusion processes, diffusion-weighted MRI could enhance our understanding of the exchange properties of maternal and fetal blood pools--and thereby of placental function. These studies, however, have so far been hindered by the small sizes, the unavoidable motions, and the challenging air/water/fat heterogeneities, associated with mouse placental environments. The present study demonstrates that emerging methods based on the spatiotemporal encoding (SPEN) of the MRI information can robustly overcome these obstacles. Using SPEN MRI in combination with albumin-based contrast agents, we analyzed the diffusion behavior of developing placentas in a cohort of mice. These studies successfully discriminated the maternal from the fetal blood flows; the two orders of magnitude differences measured in these fluids' apparent diffusion coefficients suggest a nearly free diffusion behavior for the former and a strong flow-based component for the latter. An intermediate behavior was observed by these methods for a third compartment that, based on maternal albumin endocytosis, was associated with trophoblastic cells in the interphase labyrinth. Structural features associated with these dynamic measurements were consistent with independent intravital and ex vivo fluorescence microscopy studies and are discussed within the context of the anatomy of developing mouse placentas.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4104865 | PMC |
| http://dx.doi.org/10.1073/pnas.1401695111 | DOI Listing |
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