Abstract
This pilot comparative study evaluates the usability of the alternative approaches to magnetic resonance (MR) cardiac triggering based on ballistocardiography (BCG): fiber-optic sensor (O-BCG) and pneumatic sensor (P-BCG). The comparison includes both the objective and subjective assessment of the proposed sensors in comparison with a gold standard of ECG-based triggering. The objective evaluation included several image quality assessment (IQA) parameters, whereas the subjective analysis was performed by 10 experts rating the diagnostic quality (scale 1 - 3, 1 corresponding to the best image quality and 3 the worst one). Moreover, for each examination, we provided the examination time and comfort rating (scale 1 - 3). The study was performed on 10 healthy subjects. All data were acquired on a 3 T SIEMENS MAGNETOM Prisma. In image quality analysis, all approaches reached comparable results, with ECG slightly outperforming the BCG-based methods, especially according to the objective metrics. The subjective evaluation proved the best quality of ECG (average score of 1.68) and higher performance of P-BCG (1.97) than O-BCG (2.03). In terms of the comfort rating and total examination time, the ECG method achieved the worst results, i.e. the highest score and the longest examination time: 2.6 and 10:49 s, respectively. The BCG-based alternatives achieved comparable results (P-BCG 1.5 and 8:06 s; OBCG 1.9, 9:08 s). This study confirmed that the proposed BCG-based alternative approaches to MR cardiac triggering offer comparable quality of resulting images with the benefits of reduced examination time and increased patient comfort.
Highlights
Examples of differences in each triggering method (ECG, Pneumatic BCG (P-BCG), and OBCG) on the acquired image are shown in Fig. 5 and 6 for TRUEFISP and Phase Sensitive Inversion Recovery (PSIR) sequences, respectively
The study investigated two novel approaches to MRI cardiac triggering based on BCG signal – pneumatic and optical – and assessed the results in comparison with reference commercially available ECG system
Images achieved by these three triggering methods reached comparable image quality with sharp contours of the left ventricle
Summary
Cardiovascular magnetic resonance imaging (CMRI) is a significant imaging technique for evaluation of heart structure and function. Czech Republic under Project SP2021/123, in part by the European Regional Development Fund in the Research Centre of Advanced Mechatronic Systems Project within the Operational Programme Research, Development and Education under Project CZ.02.1.01/0.0/0.0/16-. 019/0000867, in part by the Grant Programme Support for Science and Research in the Moravia-Silesia Region 2018 under Grant. RRC/10/2018, and in part by the MEYS CR (Czech-BioImaging) for the. Core Facility Multimodal and Functional Imaging Laboratory (MAFIL). Of Central European Institute of Technology (CEITEC) under Grant LM2018129.
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