Generalization of Optimal Control Saturation Pulse Design for Robust and High CEST Contrast
Stilianu C, Huemer M, Zaiß M, Stollberger R (2025)
Publication Type: Journal article
Publication year: 2025
Journal
DOI: 10.1002/mrm.70150
Abstract
Purpose: Optimal control (OC) chemical exchange saturation transfer (CEST) pulse design for singular pulses that can be used flexibly and robustly with high saturation at different duty cycles, saturation durations, and magnetic field strengths. Theory and Methods: An OC framework was developed to design a single-pulse shape that can be flexibly applied for arbitrary pulse train parameters and outperform typically used CEST saturation pulse shapes. The pulse design was developed primarily with a continuous-wave (CW) spectrum as the optimization target, but can be easily adapted to specific scenarios. The generalized OC pulse was evaluated through simulations, a phantom, and in vivo measurements on a 3 T clinical scanner. Performance was assessed in terms of contrast, robustness to field inhomogeneities, and resilience against artifacts such as Rabi oscillations and sidebands, compared to established saturation techniques. Results: Investigations showed that the generalized OC pulse achieved a contrast matching CW saturation and also functioned well under field inhomogeneities. Low-pass filtering of the optimized pulse shape effectively suppressed artifacts outside the initial optimization frequency range, enabling generalization across different field strengths. Phantom experiments consistently showed higher contrast than Gaussian, Fermi, and adiabatic spin-lock (aSL) pulses for various CEST agents covering most clinically relevant regimes. In vivo imaging demonstrated substantially enhanced CEST contrast for both creatine/phosphocreatine in muscle and amide proton transfer (APT) in the brain compared to Gaussian saturation. Conclusion: The generalized OC pulse provides a robust and flexible alternative to conventional CEST saturation strategies. Its integration into the open-source Pulseq-CEST framework supports simple reproducibility and a vendor-independent implementation.
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Austria (AT)How to cite
APA:
Stilianu, C., Huemer, M., Zaiß, M., & Stollberger, R. (2025). Generalization of Optimal Control Saturation Pulse Design for Robust and High CEST Contrast. Magnetic Resonance in Medicine. https://doi.org/10.1002/mrm.70150
MLA:
Stilianu, Clemens, et al. "Generalization of Optimal Control Saturation Pulse Design for Robust and High CEST Contrast." Magnetic Resonance in Medicine (2025).
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