Nature Communications (Aug 2021)

Portable, bedside, low-field magnetic resonance imaging for evaluation of intracerebral hemorrhage

  • Mercy H. Mazurek,
  • Bradley A. Cahn,
  • Matthew M. Yuen,
  • Anjali M. Prabhat,
  • Isha R. Chavva,
  • Jill T. Shah,
  • Anna L. Crawford,
  • E. Brian Welch,
  • Jonathan Rothberg,
  • Laura Sacolick,
  • Michael Poole,
  • Charles Wira,
  • Charles C. Matouk,
  • Adrienne Ward,
  • Nona Timario,
  • Audrey Leasure,
  • Rachel Beekman,
  • Teng J. Peng,
  • Jens Witsch,
  • Joseph P. Antonios,
  • Guido J. Falcone,
  • Kevin T. Gobeske,
  • Nils Petersen,
  • Joseph Schindler,
  • Lauren Sansing,
  • Emily J. Gilmore,
  • David Y. Hwang,
  • Jennifer A. Kim,
  • Ajay Malhotra,
  • Gordon Sze,
  • Matthew S. Rosen,
  • W. Taylor Kimberly,
  • Kevin N. Sheth

DOI
https://doi.org/10.1038/s41467-021-25441-6
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 11

Abstract

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Conventional magnetic resonance imaging (MRI) operates at a high magnetic field strength and requires a strict access-controlled environment, making MRI often inaccessible. Here, the authors present a portable low-field MRI device that detects intracerebral hemorrhage with high accuracy.