Gilad Liberman
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View article: Concurrent CBF and BOLD fMRI with dual-echo spiral simultaneous multi-slice acquisitions at 7T
Concurrent CBF and BOLD fMRI with dual-echo spiral simultaneous multi-slice acquisitions at 7T Open
View article: Optimized multi-axis spiral projection MR fingerprinting with subspace reconstruction for rapid whole-brain high-isotropic-resolution quantitative imaging
Optimized multi-axis spiral projection MR fingerprinting with subspace reconstruction for rapid whole-brain high-isotropic-resolution quantitative imaging Open
Purpose: To improve image quality and accelerate the acquisition of 3D MRF. Methods: Building on the multi-axis spiral-projection MRF technique, a subspace reconstruction with locally low rank (LLR) constraint and a modified spiral-project…
View article: Simultaneous multi-banding and multi-echo phase encoding for the accelerated acquisition of high-resolution volumetric diffusivity maps by spatiotemporally encoded MRI
Simultaneous multi-banding and multi-echo phase encoding for the accelerated acquisition of high-resolution volumetric diffusivity maps by spatiotemporally encoded MRI Open
View article: Improving MRI's slice selectivity in the presence of strong, metal-derived inhomogeneities
Improving MRI's slice selectivity in the presence of strong, metal-derived inhomogeneities Open
View article: Minimal Linear Networks for Magnetic Resonance Image Reconstruction
Minimal Linear Networks for Magnetic Resonance Image Reconstruction Open
View article: All slices - detail
All slices - detail Open
12 Slices from 4 subjects, scanned in MRI via spiral trajectory , reconstructed with a Minimal Linear Network.
View article: Diffusion MRI measurements in challenging head and brain regions via cross-term spatiotemporally encoding
Diffusion MRI measurements in challenging head and brain regions via cross-term spatiotemporally encoding Open
View article: Diffusion MRI measurements in challenging head and brain regions via\n cross-term spatiotemporally encoding
Diffusion MRI measurements in challenging head and brain regions via\n cross-term spatiotemporally encoding Open
Cross-term spatiotemporal encoding (xSPEN) is a recently introduced imaging\napproach delivering single-scan 2D NMR images with unprecedented resilience to\nfield inhomogeneities. The method relies on performing a pre-acquisition\nencoding…
View article: Multiple‐coil <i>k</i>‐space interpolation enhances resolution in single‐shot spatiotemporal MRI
Multiple‐coil <i>k</i>‐space interpolation enhances resolution in single‐shot spatiotemporal MRI Open
Purpose Spatio‐temporal encoding (SPEN) experiments can deliver single‐scan MR images without folding complications and with robustness to chemical shift and susceptibility artifacts. Further resolution improvements are shown to arise by r…
View article: Classification of High-Grade Glioma into Tumor and Nontumor Components Using Support Vector Machine
Classification of High-Grade Glioma into Tumor and Nontumor Components Using Support Vector Machine Open
This study proposes an automatic classification method: segmented Response Assessment in Neuro-Oncology criteria based on advanced imaging that reliably differentiates tumor and nontumor components in high-grade gliomas. The segmented Resp…
View article: P04.05 Improving treatment response assessment of high grade glioma: classification of lesion area into tumor and non-tumor components
P04.05 Improving treatment response assessment of high grade glioma: classification of lesion area into tumor and non-tumor components Open
Introduction: Current imaging assessment of high grade brain tumors relies on the revised assessment in neuro oncology (RANO) criteria relating to gross volumetric estimations of enhancing and non-enhancing lesions from conventional MRI se…
View article: Optimization of two-compartment-exchange-model analysis for dynamic contrast-enhanced mri incorporating bolus arrival time
Optimization of two-compartment-exchange-model analysis for dynamic contrast-enhanced mri incorporating bolus arrival time Open
1 J. Magn. Reson. Imaging 2017;45:237-249.
View article: Reducing SAR requirements in multislice volumetric single‐shot spatiotemporal MRI by two‐dimensional RF pulses
Reducing SAR requirements in multislice volumetric single‐shot spatiotemporal MRI by two‐dimensional RF pulses Open
Purpose Spatiotemporal encoding (SPEN) can deliver single‐scan MR images without folding complications and with increased robustness to chemical shift and susceptibility artifacts. Yet, it does so at the expense of relatively high specific…
View article: Robust diffusion tensor imaging by spatiotemporal encoding: Principles and in vivo demonstrations
Robust diffusion tensor imaging by spatiotemporal encoding: Principles and in vivo demonstrations Open
Purpose Evaluate the usefulness of single‐shot and of interleaved spatiotemporally encoded (SPEN) methods to perform diffusion tensor imaging (DTI) under various preclinical and clinical settings. Methods A formalism for analyzing SPEN DTI…
View article: Estimate of within population incremental selection through branch imbalance in lineage trees
Estimate of within population incremental selection through branch imbalance in lineage trees Open
Incremental selection within a population, defined as limited fitness changes following mutation, is an important aspect of many evolutionary processes. Strongly advantageous or deleterious mutations are detected using the synonymous to no…