New Methods of Low-Field Magnetic Resonance Imaging for Application to Traumatic Brain Injury

Abstract

We are developing robust low-magnetic-field implementations of MRI (LFI) focused on brain imaging with two complimentary test scanner systems: electromagnet and permanent magnet based. We have also developing injury-sensitive MRI based on the detection of free radicals associated with injury using the Overhauser effect and subsequently imaging that modified nuclear polarization using low-field MRI (OMRI). We have been optimizing imaging sequences, image reconstruction, and parallel imaging based acceleration in this unique regime. Results include demonstration of an optimized head coil for 3D human brain imaging in the electromagnet LFIat 6.5 mT, preliminary 3D imaging in a 100 lb scanner based on a rotating permanent magnet array, and improved free-radical OMRI both in vitro and in vivo. Application of the suite of techniques and technologies from our work could advise future development of a deployable device with a high diagnostic impact, transforming diagnosis and monitoring of secondary injury prevalent in TBI.

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Document Details

Document Type
Technical Report
Publication Date
Feb 15, 2015
Accession Number
AD1000171

Entities

People

  • Matthew S. Rosen

Organizations

  • Harvard University

Tags

Communities of Interest

  • Advanced Electronics
  • Biomedical

DTIC Thesaurus Topics

  • Arteries
  • Blood
  • Brain Injuries
  • Cardiovascular Diseases
  • Detectors
  • Diseases And Disorders
  • Electrical Engineering
  • Health Services
  • Image Reconstruction
  • Imaging Techniques
  • Magnetic Resonance
  • Magnetic Resonance Imaging
  • Medical Personnel
  • Therapy
  • Three Dimensional
  • Two Dimensional
  • United States

Fields of Study

  • Medicine
  • Physics

Readers

  • Medical Imaging.
  • Neurotrauma and Rehabilitation Medicine.
  • Pulsed Power and Plasma Physics.