European Radiology Experimental (Jun 2023)

Ultra-high-field MRI of postmortem human fetal wrist joints: initial experience

  • Sabine H. Josemans,
  • Anne-Sophie van der Post,
  • Gustav J. Strijkers,
  • Yousif Dawood,
  • Maurice J. B. van den Hoff,
  • Sjoerd R. J. Jens,
  • Miryam C. Obdeijn,
  • Roelof-Jan Oostra,
  • Mario Maas

DOI
https://doi.org/10.1186/s41747-023-00341-0
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 12

Abstract

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Abstract Background This study aimed to assess the feasibility of postmortem ultra-high-field magnetic resonance imaging (UHF-MRI) to study fetal musculoskeletal anatomy and explore the contribution of variation in iodine and formaldehyde (paraformaldehyde, PFA) treatment of tissue. Methods Seven upper extremities from human fetuses with gestational ages of 19 to 24 weeks were included in this experimental study, approved by the Medical Research Ethics Committee. The specimens were treated with various storage (0.2–4% PFA) and staining (Lugol’s solution) protocols and the wrist joint was subsequently imaged with 7.0 T UHF-MRI. Soft-tissue contrast was quantified by determining regions of interest within a chondrified carpal bone (CCB) from the proximal row, the triangular fibrocartilage (TFC), and the pronator quadratus muscle (PQM) and calculating the contrast ratios (CRs) between mean signal intensities of CCB to TFC and CCB to PQM. Results UHF-MRI showed excellent soft-tissue contrast in different musculoskeletal tissues. Increasing storage time in 4% PFA, CRs decreased, resulting in a shift from relatively hyperintense to hypointense identification of the CCB. Storage in 0.2% PFA barely influenced the CRs over time. Lugol’s solution caused an increase in CRs and might have even contributed to the inversion of the CRs. Conclusions UHF-MRI is a feasible technique to image musculoskeletal structures in fetal upper extremities and most successful after short storage in 4% PFA or prolonged storage in 0.2% PFA. The use of Lugol’s solution is not detrimental on soft-tissue MRI contrast and therefore enables effectively combining UHF-MRI with contrast-enhanced micro-computed tomography using a single preparation of the specimen. Relevance statement UHF-MRI can be performed after CE-micro-CT to take advantage of both techniques. Key points • UHF-MRI is feasible to study human fetal cartilaginous and ligamentous anatomy. • Storage in low PFA concentrations (i.e., 0.2%) improves soft-tissue contrast in UHF-MRI. • Limited preservation time in high concentrations of PFA improves soft-tissue contrast in UHF-MRI. • Prior staining with Lugol’s solution does not reduce soft-tissue contrast in UHF-MRI. Graphical Abstract

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