Detecting sub-voxel microvasculature with USPIO-enhanced susceptibility-weighted MRI at 7 T.

BACKGROUND Susceptibility weighted imaging (SWI) combines phase with magnitude information to better image sub-voxel veins. Recently, it has been extended to image very small sub-voxel arteries and veins by injecting intravenously the ultra-small superparamagnetic iron oxide, Ferumoxytol. OBJECTIVE To determine practical experimental imaging parameters for sub-voxel cerebral vessels at 7 T. METHODS Six Wistar-Kyoto rats aged 7-13 weeks were imaged. For a given spatial resolution, SWI was acquired pre- and post- Ferumoxytol with doses of 2, 4, 6 and 8 mg/kg and echo times (TEs) of 5, 10 and 15 ms at each dose. The spatial resolutions of 62.5 × 125 × 250 μm3 (acquisition time of 7.5 min) and 62.5 × 62.5 × 125 μm3 (30 min) were used. Both SWI and quantitative susceptibility mapping (QSM) data were analyzed. Contrast-to-noise ratio (CNR) was measured and used to determine the optimal practical imaging parameters for detection of small cortical penetrating arteries. RESULTS For a given spatial resolution with an aspect ratio (frequency: phase: slice) of 2:4:8 relative to the vessel size, we found the TE-dose index (TE x dose) must be at least 40 ms·mg/kg for both SWI and QSM to reveal the most vessels. The higher the TE-dose index, the better the image quality for both SWI and QSM up to 60 ms·mg/kg. CONCLUSIONS There is an optimal TE-dose index for improved visualization of sub-voxel vessels. Choosing the smallest TE and the largest allowed dose made it possible to run the sequence efficiently. In practice, the aspect ratio of 2:4:8 and the TE-dose index ranging from 40 to 60 ms·mg/kg provided the optimal and most practical solution.

[1]  R. R. Ernst,et al.  Application of Fourier Transform Spectroscopy to Magnetic Resonance , 1966 .

[2]  M D Blaufox,et al.  Blood volume in the rat. , 1985, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[3]  J. Shindoh,et al.  Safety and Efficacy of Portal Vein Embolization Before Planned Major or Extended Hepatectomy: An Institutional Experience of 358 Patients , 2013, Journal of Gastrointestinal Surgery.

[4]  Jun Hatazawa,et al.  Micro‐angiographical studies of the medullary venous system of the cerebral hemisphere , 1999, Neuropathology : official journal of the Japanese Society of Neuropathology.

[5]  Stephen M Smith,et al.  Fast robust automated brain extraction , 2002, Human brain mapping.

[6]  P. Gorelick,et al.  Cerebral Small Vessel Disease: Cerebral small vessel disease: a look to the future , 2014 .

[7]  M. Cambron,et al.  Vascular aspects of multiple sclerosis , 2011, The Lancet Neurology.

[8]  Ferdinand Schweser,et al.  Quantitative imaging of intrinsic magnetic tissue properties using MRI signal phase: An approach to in vivo brain iron metabolism? , 2011, NeuroImage.

[9]  B. Duling,et al.  A study of rat intracerebral arterioles: methods, morphology, and reactivity. , 1982, The American journal of physiology.

[10]  B. Zlokovic Neurovascular pathways to neurodegeneration in Alzheimer's disease and other disorders , 2011, Nature Reviews Neuroscience.

[11]  J. Reichenbach,et al.  Effects of Contrast Agents in Susceptibility Weighted Imaging , 2011 .

[12]  Wieslaw Lucjan Nowinski,et al.  Quantification of the Human Cerebrovasculature: A 7Tesla and 320-Row CT In Vivo Study , 2013, Journal of computer assisted tomography.

[13]  Seong-Gi Kim,et al.  High‐Resolution Venographic BOLD MRI of Animal Brain at 9.4 T: Implications for BOLD fMRI , 2011 .

[14]  Saifeng Liu,et al.  Susceptibility weighted imaging and quantitative susceptibility mapping of the cerebral vasculature using ferumoxytol , 2018, Journal of magnetic resonance imaging : JMRI.

[15]  Yu-Chung N. Cheng,et al.  Limitations of calculating field distributions and magnetic susceptibilities in MRI using a Fourier based method , 2009, Physics in medicine and biology.

[16]  John R. Petrie,et al.  Diabetes, Hypertension, and Cardiovascular Disease: Clinical Insights and Vascular Mechanisms , 2017, The Canadian journal of cardiology.

[17]  Richard Bowtell,et al.  T2* measurements in human brain at 1.5, 3 and 7 T. , 2007, Magnetic resonance imaging.

[18]  K. Uğurbil,et al.  Determination of blood longitudinal relaxation time (T1) at high magnetic field strengths. , 2007, Magnetic resonance imaging.

[19]  S. Sridhar,et al.  Quantitative contrast‐enhanced MRI with superparamagnetic nanoparticles using ultrashort time‐to‐echo pulse sequences , 2015, Magnetic resonance in medicine.

[20]  Francis Lilley,et al.  Fast and robust three-dimensional best path phase unwrapping algorithm. , 2007, Applied optics.

[21]  E. Haacke,et al.  Susceptibility Weighted Imaging in Rodents , 2011 .

[22]  Yu-Chung N. Cheng,et al.  Susceptibility weighted imaging (SWI) , 2004, Zeitschrift fur medizinische Physik.

[23]  Vilmundur Gudnason,et al.  Retinal and Cerebral Microvascular Signs and Diabetes , 2008, Diabetes.

[24]  Andrew J Wheaton,et al.  Non‐contrast enhanced MR angiography: Physical principles , 2012, Journal of magnetic resonance imaging : JMRI.

[25]  Sandeep Bhuta,et al.  Susceptibility‐Weighted Imaging of the Brain: Current Utility and Potential Applications , 2011, Journal of neuroimaging : official journal of the American Society of Neuroimaging.

[26]  R. Deane,et al.  ALS-causing SOD1 mutants generate vascular changes prior to motor neuron degeneration , 2008, Nature Neuroscience.

[27]  Berislav V. Zlokovic,et al.  Neurovascular mechanisms of Alzheimer's neurodegeneration , 2005, Trends in Neurosciences.

[28]  Cheuk Y. Tang,et al.  Social stress induces neurovascular pathology promoting depression , 2017, Nature Neuroscience.

[29]  Yu-Chung N. Cheng,et al.  Magnetic Resonance Imaging: Physical Principles and Sequence Design , 1999 .

[30]  Saifeng Liu,et al.  Determination of detection sensitivity for cerebral microbleeds using susceptibility‐weighted imaging , 2017, NMR in biomedicine.

[31]  Onur Güntürkün,et al.  In vivo measurement of T1 and T2 relaxation times in awake pigeon and rat brains at 7T , 2018, Magnetic resonance in medicine.

[32]  A. Rose,et al.  Vision: human and electronic , 1973 .

[33]  Yingbiao Xu,et al.  The role of voxel aspect ratio in determining apparent vascular phase behavior in susceptibility weighted imaging. , 2006, Magnetic resonance imaging.