Improved visualization of intracranial distal arteries with multiple 2D slice dynamic ASL-MRA and super-resolution convolutional neural network.
Suzuki Y. et al, (2024), Magn Reson Med
Recommendations for quantitative cerebral perfusion MRI using multi‐timepoint arterial spin labeling: Acquisition, quantification, and clinical applications
Woods JG. et al, (2024), Magnetic Resonance in Medicine
ASL lexicon and reporting recommendations: A consensus report from the ISMRM Open Science Initiative for Perfusion Imaging (OSIPI).
Suzuki Y. et al, (2023), Magn Reson Med
The road to the ISMRM OSIPI: A community-led initiative for reproducible perfusion MRI.
Bell LC. et al, (2023), Magn Reson Med
Recent Technical Developments in ASL: A Review of the State of the Art.
Hernandez-Garcia L. et al, (2022), Magn Reson Med
Planning of gamma knife radiosurgery (GKR) for brain arteriovenous malformations using triple magnetic resonance angiography (triple-MRA).
Rojas-Villabona A. et al, (2022), Br J Neurosurg, 36, 217 - 227
Are Dynamic Arterial Spin-Labeling MRA and Time-Resolved Contrast-Enhanced MRA Suited for Confirmation of Obliteration following Gamma Knife Radiosurgery of Brain Arteriovenous Malformations?
Rojas-Villabona A. et al, (2021), AJNR Am J Neuroradiol
Intracranial 3D and 4D MR Angiography Using Arterial Spin Labeling: Technical Considerations.
Suzuki Y. et al, (2020), Magn Reson Med Sci, 19, 294 - 309
Quantification of cerebral perfusion and cerebrovascular reserve using Turbo-QUASAR arterial spin labeling MRI.
Zhao MY. et al, (2020), Magn Reson Med, 83, 731 - 748
Acceleration of vessel-selective dynamic MR Angiography by pseudocontinuous arterial spin labeling in combination with Acquisition of ConTRol and labEled images in the Same Shot (ACTRESS).
Suzuki Y. et al, (2019), Magn Reson Med, 81, 2995 - 3006
Three-dimensional Pseudo-continuous Arterial Spin-labeling Using Turbo-spin Echo with Pseudo-steady State Readout: A Comparison with Other Major Readout Methods.
Aoike S. et al, (2019), Magn Reson Med Sci, 18, 170 - 177
A framework for motion correction of background suppressed arterial spin labeling perfusion images acquired with simultaneous multi-slice EPI.
Suzuki Y. et al, (2019), Magn Reson Med, 81, 1553 - 1565
Optimization of the spatial modulation function of vessel-encoded pseudo-continuous arterial spin labeling and its application to dynamic angiography.
Suzuki Y. et al, (2019), Magn Reson Med, 81, 410 - 423
Arterial spin-labeling is useful for the diagnosis of residual or recurrent meningiomas.
Kikuchi K. et al, (2018), Eur Radiol, 28, 4334 - 4342
Advances in arterial spin labelling MRI methods for measuring perfusion and collateral flow.
van Osch MJ. et al, (2018), J Cereb Blood Flow Metab, 38, 1461 - 1480
Simultaneous acquisition of perfusion image and dynamic MR angiography using time-encoded pseudo-continuous ASL.
Suzuki Y. et al, (2018), Magn Reson Med, 79, 2676 - 2684
Acceleration of ASL-based time-resolved MR angiography by acquisition of control and labeled images in the same shot (ACTRESS).
Suzuki Y. et al, (2018), Magn Reson Med, 79, 224 - 233
Correlation between arterial spin-labeling perfusion and histopathological vascular density of pediatric intracranial tumors.
Kikuchi K. et al, (2017), J Neurooncol, 135, 561 - 569
Fast acceleration of ASL-based time-resolved magnetic resonance angiography by acquisition of control and labeled images in the same shot (fast ACTRESS): An optimization study.
Sugimori H. et al, (2017), Magn Reson Imaging, 43, 136 - 143
Alterations of the optic pathway between unilateral and bilateral optic nerve damage in multiple sclerosis as revealed by the combined use of advanced diffusion kurtosis imaging and visual evoked potentials.
Takemura MY. et al, (2017), Magn Reson Imaging, 39, 24 - 30