Machine Learning aided k-t SENSE for fast reconstruction of highly accelerated PCMR data

TL;DR

This paper presents a machine learning-enhanced k-t SENSE method for rapid, high-resolution real-time PCMR data reconstruction, achieving comparable accuracy to compressed sensing with significantly faster processing times.

Contribution

The study introduces a novel ML-assisted k-t SENSE reconstruction approach that improves speed and maintains accuracy in high-resolution PCMR imaging.

Findings

ML aided k-t SENSE produces sharper flow curves than CS.

No significant differences in peak velocities and stroke volumes between methods.

Reconstruction speed is approximately 3.6 times faster than CS.

Abstract

Purpose: We implemented the Machine Learning (ML) aided k-t SENSE reconstruction to enable high resolution quantitative real-time phase contrast MR (PCMR). Methods: A residual U-net and our U-net M were used to generate the high resolution x-f space estimate for k-t SENSE regularisation prior. The networks were judged on their ability to generalise to real undersampled data. The in-vivo validation was done on 20 real-time 18x prospectively undersmapled GASperturbed PCMR data. The ML aided k-t SENSE reconstruction results were compared against the free-breathing Cartesian retrospectively gated sequence and the compressed sensing (CS) reconstruction of the same data. Results: In general, the ML aided k-t SENSE generated flow curves that were visually sharper than those produced using CS. In two exceptional cases, U-net M predictions exhibited blurring which propagated to the extracted velocity curves. However, there were no statistical differences in the measured peak velocities and stroke volumes between the tested methods. The ML aided k-t SENSE was estimated to be ~3.6x faster in processing than CS. Conclusion: The ML aided k-t SENSE reconstruction enables artefact suppression on a par with CS with no significant differences in quantitative measures. The timing results suggest the on-line implementation could deliver a substantial increase in clinical throughput.