Dark blood T2-weighted imaging of the human heart with AI-assisted compressed sensing: a patient cohort study

Dark blood T2-weighted (DB-T2W) imaging is widely used to evaluate myocardial edema in myocarditis and inflammatory cardiomyopathy. However, this technique is sensitive to arrhythmia, tachycardia, and cardiac and respiratory motion due to the long scan time with multiple breath-holds. The applicatio...

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Published inQuantitative imaging in medicine and surgery Vol. 13; no. 3; pp. 1699 - 1710
Main Authors Yan, Xianghu, Ran, Lingping, Zou, Lixian, Luo, Yi, Yang, Zhaoxia, Zhang, Shiyu, Zhang, Shuheng, Xu, Jian, Huang, Lu, Xia, Liming
Format Journal Article
LanguageEnglish
Published China AME Publishing Company 01.03.2023
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Summary:Dark blood T2-weighted (DB-T2W) imaging is widely used to evaluate myocardial edema in myocarditis and inflammatory cardiomyopathy. However, this technique is sensitive to arrhythmia, tachycardia, and cardiac and respiratory motion due to the long scan time with multiple breath-holds. The application of artificial intelligence (AI)-assisted compressed sensing (ACS) has facilitated significant progress in accelerating medical imaging. However, the effect of DB-T2W imaging on ACS has not been elucidated. This study aimed to examine the effects of ACS on the image quality of single-shot and multi-shot DB-T2W imaging of edema. Thirty-three patients were included in this study and received DB-T2W imaging with ACS, including single-shot acquisition (SS-ACS) and multi-shot acquisition (MS-ACS). The resulting images were compared with those of the conventional multi-shot DB-T2W imaging with parallel imaging (MS-PI). Quantitative assessments of the signal-to-noise ratio (SNR), tissue contrast ratio (CR), and contrast-to-noise ratio (CNR) were performed. Three radiologists independently evaluated the overall image quality, blood nulling, free wall of the left ventricle, free wall of the right ventricle, and interventricular septum using a 5-point Likert scale. The total scan time of the DB-T2W imaging with ACS was significantly reduced compared to the conventional parallel imaging [number of heartbeats (SS-ACS:MS-ACS:MS-PI) =19:63:99; P<0.001]. The SNR and CNR of MS-ACS and SS-ACS were higher than those of MS-PI (all P values <0.01). Furthermore, the CR of SS-ACS was also higher than that of MS-PI (P<0.01). There were significant differences in overall image quality, blood nulling, left ventricle free wall visibility, and septum visibility between the MS-PI, MS-ACS, and SS-ACS protocols (all P values <0.05). Moreover, blood in the heart was better nulled using SS-ACS (P<0.01). The ACS method shortens the scan time of DB-T2W imaging and achieves comparable or even better image quality compared to the PI method. Moreover, DB-T2W imaging using the ACS method can reduce the number of breath-holds to 1 with single-shot acquisition.
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ORCID: Lu Huang, 0000-0003-0067-9423; Liming Xia, 0000-0001-8481-3380.
Contributions: (I) Conception and design: L Xia, L Huang; (II) Administrative support: L Xia; (III) Provision of study materials or patients: X Yan, L Ran, Shuheng Zhang, J Xu; (IV) Collection and assembly of data: X Yan, L Ran, L Zou, Y Luo; (V) Data analysis and interpretation: X Yan, L Ran, L Zou, Z Yang, Y Luo, L Huang, Shiyu Zhang; (VI) Manuscript writing: All authors; (VII) Final approval of manuscript: All authors.
These authors contributed equally to this work and should be considered as co-first authors.
ISSN:2223-4292
2223-4306
DOI:10.21037/qims-22-607