Harmonization of cerebral blood flow measurements by multi-delay 3D gradient and spin echo, and single-delay 2D echo planar imaging

  1. Josiah B. Lewis
  2. Chunwei Ying
  3. Michael M. Binkley
  4. Melanie E. Fields
  5. Igor Dedkov
  6. Slim Fellah
  7. Jingyi Zhang
  8. Amy Mirro
  9. Joshua S. Shimony
  10. Yasheng Chen
  11. Jin-Moo Lee
  12. Andria L. Ford
  13. Hongyu An
  14. Kristin P. Guilliams
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Abstract

Purpose

Cerebral blood flow (CBF) is commonly measured by pseudo-continuous arterial spin labeling (PCASL) in human research, but recent advancements in methodology have limited data reuse. The object of this work is to harmonize two distinct PCASL techniques within a cohort with a wide range of CBF values.

Methods

Participants had two PCASL sequences collected within a single session: a single post-label delay sequence with a 2D echo-planar imaging (EPI) readout, “CBF2D,1PLD”, and a five post-label delay sequence with gradient and spin echo (GRASE) 3D readout, “CBF3D,5PLD”. Linear regression modeling to impute CBF3D,5PLDfrom CBF2D,1PLD, hemoglobin, and age were assessed within gray matter (GM) and white matter (WM) using leave-one-out cross-validation for prediction errors and confidence intervals. Within-subject coefficient of variation (wsCV) and inter-class correlation coefficient (ICC) were calculated using CBF3D,5PLDimputed vs. measured as pseudo test-retest pairs.

Results

Fifty participants, ages 8–45 (median 25) years, had usable CBF3D,5PLDand CBF2D,1PLD, including 17 participants with sickle cell disease (SCD), who were matched by age (p= 0.90) and sex (p= 0.16) to those without SCD. A multiple linear regression model including hemoglobin and age fit GM CBF (R2adj.= 0.82; for WM CBF R2adj.= 0.78). The wsCV for CBF3D,5PLDwas 9.1% for GM, 11.3% for WM. ICC was 0.89 for GM and 0.87 for WM. Models without age or hemoglobin fit slightly worse.

Conclusion

Our study demonstrates feasibility to impute 3D-GRASE multi-PLD CBF from a 2D-EPI single-PLD technique, which promotes data sharing and harmonization.

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