Characterizing the spatial distribution of microhemorrhages resulting from Traumatic Brain Injury (TBI)

Li, Ningzhi; Chou, Yi-Yu; Shiee, Navid; Chan, Leighton; Pham, Dzung L.; Butman, John A.

doi:10.1117/12.2043750

SPIE Proceedings

2014

DOI: 10.1117/12.2043750

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Characterizing the spatial distribution of microhemorrhages resulting from Traumatic Brain Injury (TBI)

Ningzhi Li

Yi-Yu Chou

Navid Shiee

et al.

Abstract: This study examines the spatial distribution of microhemorrhages defined using susceptibility weighted images (SWI) in 46 patients with Traumatic Brain Injury (TBI) and applying region of interest (ROI) analysis using a brain atlas. SWI and 3D T1-weighted images were acquired on a 3T clinical Siemens scanner. A neuroradiologist reviewed all SWI images and manually labeled all identified microhemorrhages. To characterize the spatial distribution of microhemorrhages in standard Montreal Neurological Institute (M… Show more

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“…SUSCEPTIBILITY WEIGHTED IMAGING (SWI), allows superior detection of intracranial microhemorrhages . Because microhemorrhages are an imaging hallmark of traumatic brain injury (TBI), SWI is increasingly used to establish a diagnosis of TBI . Microhemorrhages are also identifiable in other pathologies (e.g., amyloid angiopathy) .…”

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Artifactual microhemorrhage generated by susceptibility weighted image processing

Wang

Pham

et al. 2014

Magnetic Resonance Imaging

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Purpose To report that artifactual microhemorrhages are introduced by the 2D homodyne filtering method of generating susceptibility weighted images (SWI) when open-ended fringelines (OEF) are present in phase data. Materials and Methods SWI data from 28 traumatic brain injury (TBI) patients was obtained on a 3T clinical Siemens scanner using both the product 3D gradient echo sequence (GRE) with GRAPPA acceleration and an in-house developed segmented echo planar imaging (sEPI) sequence without GRAPPA acceleration. SWI processing included (1) 2D Homodyne method implemented on the scanner console and (2) a 3D Fourier-based phase unwrapping followed by 3D high pass filtering. Original and enhanced magnitude and phase images were carefully reviewed for sites of type III OEFs and microhemorrhages by a neuroradiologist on a PACS workstation. Results Nineteen of 28 (68%) phase datasets acquired using GRAPPA-accelerated GRE acquisition demonstrated type III OEFs. In SWI images, artifactual microhemorrhages were found on 17 of 19 (89%) cases generated using 2D homodyne processing. Application of a 3D Fourier-based unwrapping method prior HP filtering minimized the appearance of the phase singularities in the enhanced phase, and did not generate microhemorrhage-like artifacts in magnitude images. Conclusion The 2D homodyne filtering method may introduce artifacts mimicking intracranial microhemorrhages in SWI images when type III OEFs are present in phase images. Such artifacts could lead to overestimation of pathology, e.g. TBI. This work demonstrates that 3D phase unwrapping methods minimize this artifact. However, methods to properly combine of phase across coils are needed to eliminate this artifact.

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confidence: 99%

Artifactual microhemorrhage generated by susceptibility weighted image processing

Wang

Pham

et al. 2014

Magnetic Resonance Imaging

Self Cite

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Characterizing the spatial distribution of microhemorrhages resulting from Traumatic Brain Injury (TBI)

Cited by 1 publication

References 12 publications

Artifactual microhemorrhage generated by susceptibility weighted image processing

Artifactual microhemorrhage generated by susceptibility weighted image processing

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