Science and Research

Technical Note: Quantitative dynamic contrast-enhanced MRI of a 3-dimensional artificial capillary network

PURPOSE: Variability across devices, patients, and time still hinders widespread recognition of dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI) as quantitative biomarker. The purpose of this work was to introduce and characterize a dedicated microchannel phantom as a model for quantitative DCE-MRI measurements. METHODS: A perfusable, MR-compatible microchannel network was constructed on the basis of sacrificial melt-spun sugar fibers embedded in a block of epoxy resin. Structural analysis was performed on the basis of light microscopy images before DCE-MRI experiments. During dynamic acquisition the capillary network was perfused with a standard contrast agent injection system. Flow-dependency, as well as inter- and intrascanner reproducibility of the computed DCE parameters were evaluated using a 3.0 T whole-body MRI. RESULTS: Semi-quantitative and quantitative flow-related parameters exhibited the expected proportionality to the set flow rate (mean Pearson correlation coefficient: 0.991, P < 2.5e-5). The volume fraction was approximately independent from changes of the applied flow rate through the phantom. Repeatability and reproducibility experiments yielded maximum intrascanner coefficients of variation (CV) of 4.6% for quantitative parameters. All evaluated parameters were well in the range of known in vivo results for the applied flow rates. CONCLUSION: The constructed phantom enables reproducible, flow-dependent, contrast-enhanced MR measurements with the potential to facilitate standardization and comparability of DCE-MRI examinations.
  • Gaass, T.
  • Schneider, M. J.
  • Dietrich, O.
  • Ingrisch, M.
  • Dinkel, J.

Keywords

  • *Contrast Media
  • Magnetic Resonance Imaging/*instrumentation
  • *Phantoms, Imaging
  • Mri
  • dynamic contrast-enhanced
  • phantom
  • quantitative imaging
Publication details
DOI: 10.1002/mp.12162
Journal: Med Phys
Pages: 1462-1469 
Number: 4
Work Type: Original
Location: CPC-M
Disease Area: LC
Partner / Member: KUM, LMU
Access-Number: 28235128
See publication on PubMed

DZL Engagements

chevron-down