Consensus-based technical recommendations for clinical translation of renal BOLD MRI

Autor/innen

  • O. Bane
  • I.A. Mendichovszky
  • B. Milani
  • I.A. Dekkers
  • J.F. Deux
  • P. Eckerbom
  • N. Grenier
  • M. Hall
  • T. Inoue
  • C. Laustsen
  • L. Lerman
  • C. Liu
  • G. Morrell
  • M. Pedersen
  • M. Pruijm
  • E. Sadowski
  • E. Seeliger
  • K. Sharma
  • H. Thoeny
  • P. Vermathen
  • Z. Wang
  • Z. Serafin
  • J. Zhang
  • S. Francis
  • S. Sourbron
  • A. Pohlmann
  • S. Fain
  • P. Prasad

Journal

  • Magnetic Resonance Materials in Physics Biology and Medicine

Quellenangabe

  • Magn Reson Mat Phys Biol Med 33: 199-215

Zusammenfassung

  • Harmonization of acquisition and analysis protocols is an important step in the validation of BOLD MRI as a renal biomarker. This harmonization initiative provides technical recommendations based on a consensus report with the aim to move towards standardized protocols that facilitate clinical translation and comparison of data across sites. We used a recently published systematic review paper, which included a detailed summary of renal BOLD MRI technical parameters and areas of investigation in its supplementary material, as the starting point in developing the survey questionnaires for seeking consensus. Survey data were collected via the Delphi consensus process from 24 researchers on renal BOLD MRI exam preparation, data acquisition, data analysis, and interpretation. Consensus was defined as ≥ 75% unanimity in response. Among 31 survey questions, 14 achieved consensus resolution, 12 showed clear respondent preference (65-74% agreement), and 5 showed equal (50/50%) split in opinion among respondents. Recommendations for subject preparation, data acquisition, processing and reporting are given based on the survey results and review of the literature. These technical recommendations are aimed towards increased inter-site harmonization, a first step towards standardization of renal BOLD MRI protocols across sites. We expect this to be an iterative process updated dynamically based on progress in the field.


DOI

doi:10.1007/s10334-019-00802-x