In this study, an ultra-small superparamagnetic iron oxide (USPIO) contrast agent, Ferumoxytol, was administered to induce an increase in susceptibility for both arteries and veins to help better reveal the cerebral microvasculature. The purpose of this work was to examine the presence of vascular abnormalities and vascular density in MS lesions using high-resolution susceptibility weighted imaging (SWI).
Quantifying Tissue Properties of the Optic Radiations Using Strategically Acquired Gradient Echo Imaging and Enhancing the Contrast Using Diamagnetic Susceptibility Weighted Imaging
Visualization of the optic radiations is of clinical importance for diagnosing many diseases and depicting their anatomic structures for neurosurgical interventions. In this study, we quantify proton density, T1, T2*, and susceptibility of the optic radiation fiber bundles in a series of 10 healthy control participants using strategically acquired gradient echo imaging.
Quantitative MRI using STrategically Acquired Gradient Echo (STAGE): optimization for 1.5 T scanners and T1 relaxation map validation
The strategically acquired gradient echo (STAGE) protocol, developed for 3T scanners, allows one to derive quantitative maps such as T1, T2*, proton density, and quantitative susceptibility mapping in about 5 min. Our aim was to adapt the STAGE sequences for 1.5T scanners which are still commonly used in clinical practice. Furthermore, the accuracy and repeatability of the STAGE-derived T1 estimate were tested.
Imaging iron and neuromelanin simultaneously using a single 3D gradient echo magnetization transfer sequence: Combining neuromelanin, iron and the nigrosome-1 sign as complementary imaging biomarkers in early stage Parkinson’s disease
Diagnosing early stage Parkinson’s disease (PD) is still a clinical challenge. Our goal in this study was to extract the NM complex volume, iron content and volume representing the entire SN, and the N1 sign as potential complementary imaging biomarkers using a single 3D magnetization transfer contrast (MTC) gradient echo sequence and to evaluate their diagnostic performance and clinical correlations in early stage PD.
Iron Content in Deep Gray Matter as a Function of Age Using Quantitative Susceptibility Mapping: A Multicenter Study
The purpose of this study was to evaluate the effect of resolution on iron content using quantitative susceptibility mapping (QSM); to verify the consistency of QSM across field strengths and manufacturers in evaluating the iron content of deep gray matter (DGM) of the human brain using subjects from multiple sites; and to establish a susceptibility baseline as a function of age for each DGM structure using both a global and regional iron analysis.
Author(s): Yongsheng Chen 1 , Ewart Mark Haacke 1,2 and Evanthia BernitsasJournal: Brain SciencesPublished: 2020Read Full Paper: https://www.mdpi.com/2076-3425/10/11/857 Abstract Spinal cord imaging in multiple sclerosis (MS) plays a significant role in diagnosing and...
Multi-Echo Quantitative Susceptibility Mapping for Strategically Acquired Gradient Echo (STAGE) Imaging
The purpose of this study was to develop a method to reconstruct quantitative susceptibility mapping (QSM) from multi-echo, multi-flip angle data collected using strategically acquired gradient echo (STAGE) imaging.
The purpose of this study was to detect cerebral microhemorrhages in military service members with chronic traumatic brain injury by using susceptibility-weighted magnetic resonance (MR) imaging. The longitudinal evolution of microhemorrhages was monitored in a subset of patients by using quantitative susceptibility mapping.
Author(s): E. Mark Haacke, PhD,1y Ann Christine Duhaime, MD,2 Alisa D. Gean, MD,3 Gerard Riedy, MD,4 Max Wintermark, MD,5 Pratik Mukherjee, MD PhD,5,6 David L. Brody, MD,7 Thomas DeGraba, MD,8 Timothy D. Duncan, MD,9 Elie Elovic, MD,10 Robin Hurley, MD,11 Lawrence...
A comparison of magnetic resonance imaging methods to assess multiple sclerosis lesions: Implications for patient characterization and clinical trials design
Author(s): Ewart Mark Haacke, Ph.D; Evanthia Bernitsas; Karthikeyan subramanian; David Utriainen; Vinay K Palutla; Kiran Yerramsetty; Prashanth Kumar; Sean K Sethi; Yongsheng Chen; Zahid Latif; Pavan Jella; sara Gharabaghi; Ying Wang; Xiaomeng Zhang; Robert A Comley;...
Quantitative susceptibility-weighted imaging may be an accurate method for determining stroke hypoperfusion and hypoxia of penumbra
The objective of this study was to quantitatively evaluate the volume of the ischemic penumbra using susceptibility-weighted imaging and mapping (SWIM) of asymmetrical prominent cortical veins (APCVs) in patients with acute ischemic stroke.
Susceptibility-weighted imaging is an increasingly important adjunct in diagnosing a variety of neurologic diseases and provides a powerful tool to depict and help characterize microbleeds, veins, and other sources of susceptibility. But the term SWI is colloquially used to denote high-spatial-resolution susceptibility-enhanced sequences across different MRI vendors and sequences even when phase information is not used.