What type of study is this?

This is a Experimental Study study.

September 17, 2025

IDEAL-reconstructed Seiffert Spirals for preclinical 13C metabolic MRSI at 11.7 T

Key Points

Successful metabolite separation suggests that Seiffert Spirals can enhance preclinical 13C-MRSI applications.
The method showed improvements in imaging speed and efficacy, leveraging a lower number of readouts for analysis.
Acquisition of echo-images with IDEAL implementation showcased the effectiveness of the Seiffert Spiral technique.
The findings highlight the potential of combining rapid imaging techniques with hyperpolarized probes for clinical advancements.

Abstract

Motivation: Rapid imaging methods with high temporal resolution and signal-to-noise ratio are required for hyperpolarized 13C-MRSI experiments. Goal(s): Possible application of IDEAL-reconstructed Seiffert Spirals in a preclinical setting with respect to the requirements of hyperpolarization. Approach: Acquisition of echo-images and IDEAL-implementation for Seiffert Spirals used for reconstruction of metabolite images using a phantom containing 13C-labeled reference solutions. Results: Successful separation of phantom metabolites indicates possible application of Seiffert Spirals within preclinical 13C-MRSI. Impact: The reconstructed metabolite images using Seiffert Spirals showed potential for rapid imaging with a lower number of readouts compared to other acquisition techniques in combination with IDEAL, possibly enabling single-shot trajectories to be combined with hyperpolarized probes.

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