AI Article Synopsis
- The study examined human fetal anatomy very early post-mortem at 8 weeks of gestation using advanced imaging technologies like micro-CT and high-field MRI.
- Nine fetuses were analyzed, showing the imaging provided clear anatomical details without damaging the tissue, allowing for further histological study.
- The research indicates that these imaging techniques enable early virtual autopsy, which could assist in genetic counseling for parents dealing with miscarriage.
Article Abstract
Objective: This study involved very early post-mortem (PM) examination of human fetal anatomy at 8 weeks of gestation (WG) using whole-body multimodal micro-imaging: micro-CT and high-field MRI (HF-MRI). We discuss the potential place of this imaging in early first-trimester virtual autopsy.
Methods: We performed micro-CT after different contrast-bath protocols including diffusible iodine-based contrast-enhanced (dice) and HF-MRI with a 9.4 T machine with qualitative and quantitative evaluation and obtained histological sections.
Results: Nine fetuses were included: the crown-rump length was 10-24 mm and corresponded to 7 and 9 WG according to the Robinson formula. The Carnegie stages were 17-21. Dice micro-CT and HF-MRI presented high signal to noise ratio, >5, according to the Rose criterion, and for allowed anatomical phenotyping in these specimens. Imaging did not alter the histology, allowing immunostaining and pathological examination.
Conclusion: PM non-destructive whole-body multimodal micro-imaging: dice micro-CT and HF-MRI allows for PM human fetal anatomy study as early as 8 WG. It paves the way to virtual autopsy in the very early first trimester. Obtaining a precision phenotype, even regarding miscarriage products, allows a reverse phenotyping to select variants of interest in genome-wide analysis, offering potential genetic counseling for bereaved parents.
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| http://dx.doi.org/10.1002/pd.6489 | DOI Listing |
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