Motivation: Achieving high-quality 3D fast spin echo imaging for biological samples is challenging due to T2-dependent blurring and SAR limitations in ultrahigh field MRI. Goal(s): Tailoring variable flip angle (VFA) schemes that balance signal-to-noise ratio (SNR) and point spread function (PSF) characteristics at 11.7T. Approach: Using an optimization framework with SNR- and PSF cost function components, dedicated VFA schemes were computed and tested across a range of SNR and PSF weightings. Results: SNR-optimized VFA schemes yield strongly enhanced signal magnitudes, while PSF-optimized enhance image sharpness, with marked improvement over conventional FSE, demonstrating adaptability for pre-clinical high-field MRI applications. Impact: This work showcases the benefit of dedicated VFA optimization for pre-clinical ultrahigh field MRI by enabling tailored imaging protocols enhancing SNR or sharpness. Its adaptability holds promise for fast and high throughput imaging of biological samples and plant research applications.
Mayer et al. (Tue,) studied this question.
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