Chang-Ki Kang
Orcid: 0000-0002-9573-8432Affiliations:
- Gachon University, Seongnam, South Korea
According to our database1,
Chang-Ki Kang
authored at least 14 papers
between 2008 and 2023.
Collaborative distances:
Collaborative distances:
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Bibliography
2023
Quantitative Thermal Stimulation Using Therapeutic Ultrasound to Improve Cerebral Blood Flow and Reduce Vascular Stiffness.
Sensors, October, 2023
2022
Investigation of Flow Changes in Intracranial Vascular Disease Models Constructed with MRA Images.
Sensors, 2022
MRI-Compatible Microcirculation System Using Ultrasonic Pumps for Microvascular Imaging on 3T MRI.
Sensors, 2022
2021
Novel Technique to Measure Pulse Wave Velocity in Brain Vessels Using a Fast Simultaneous Multi-Slice Excitation Magnetic Resonance Sequence.
Sensors, 2021
2018
IEEE Trans. Pattern Anal. Mach. Intell., 2018
Advances in MR angiography with 7T MRI: From microvascular imaging to functional angiography.
NeuroImage, 2018
2016
Automatic 3D Segmentation and Quantification of Lenticulostriate Arteries from High-Resolution 7 Tesla MRA Images.
IEEE Trans. Image Process., 2016
2014
Micro-vascular imaging experiences of time-of-flight MRA at 7T for cerebrovascular diseases.
Int. J. Imaging Syst. Technol., 2014
2012
Microvascular functional MR angiography with ultra-high-field 7 t MRI: Comparison with BOLD fMRI.
Int. J. Imaging Syst. Technol., 2012
Automatic human brain vessel segmentation from 3D 7 Tesla MRA images using fast marching with anisotropic directional prior.
Proceedings of the 9th IEEE International Symposium on Biomedical Imaging: From Nano to Macro, 2012
2011
Validation of an arterial tortuosity measure with application to hypertension collection of clinical hypertensive patients.
BMC Bioinform., 2011
A generative MRF approach for automatic 3D segmentation of cerebral vasculature from 7 Tesla MRA images.
Proceedings of the 8th IEEE International Symposium on Biomedical Imaging: From Nano to Macro, 2011
2010
NeuroImage, 2010
2008
Functional MR angiography with 7.0 T: Is direct observation of arterial response during neural activity possible?
NeuroImage, 2008