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Feasibility of late gadolinium enhancement (LGE) in ischemic cardiomyopathy using 2D-multisegment LGE combined with artificial intelligence reconstruction deep learning noise reduction algorithm

Authors :
Muscogiuri, G
Martini, C
Gatti, M
Dell'Aversana, S
Ricci, F
Guglielmo, M
Baggiano, A
Fusini, L
Bracciani, A
Scafuri, S
Andreini, D
Mushtaq, S
Conte, E
Gripari, P
Annoni, A
Formenti, A
Mancini, M
Bonfanti, L
Guaricci, A
Janich, M
Rabbat, M
Pompilio, G
Pepi, M
Pontone, G
Muscogiuri G.
Martini C.
Gatti M.
Dell'Aversana S.
Ricci F.
Guglielmo M.
Baggiano A.
Fusini L.
Bracciani A.
Scafuri S.
Andreini D.
Mushtaq S.
Conte E.
Gripari P.
Annoni A. D.
Formenti A.
Mancini M. E.
Bonfanti L.
Guaricci A. I.
Janich M. A.
Rabbat M. G.
Pompilio G.
Pepi M.
Pontone G.
Muscogiuri, G
Martini, C
Gatti, M
Dell'Aversana, S
Ricci, F
Guglielmo, M
Baggiano, A
Fusini, L
Bracciani, A
Scafuri, S
Andreini, D
Mushtaq, S
Conte, E
Gripari, P
Annoni, A
Formenti, A
Mancini, M
Bonfanti, L
Guaricci, A
Janich, M
Rabbat, M
Pompilio, G
Pepi, M
Pontone, G
Muscogiuri G.
Martini C.
Gatti M.
Dell'Aversana S.
Ricci F.
Guglielmo M.
Baggiano A.
Fusini L.
Bracciani A.
Scafuri S.
Andreini D.
Mushtaq S.
Conte E.
Gripari P.
Annoni A. D.
Formenti A.
Mancini M. E.
Bonfanti L.
Guaricci A. I.
Janich M. A.
Rabbat M. G.
Pompilio G.
Pepi M.
Pontone G.
Publication Year :
2021

Abstract

Background: Despite the low spatial resolution of 2D-multisegment late gadolinium enhancement (2D-MSLGE) sequences, it may be useful in uncooperative patients instead of standard 2D single segmented inversion recovery gradient echo late gadolinium enhancement sequences (2D-SSLGE). The aim of the study is to assess the feasibility and comparison of 2D-MSLGE reconstructed with artificial intelligence reconstruction deep learning noise reduction (NR) algorithm compared to standard 2D-SSLGE in consecutive patients with ischemic cardiomyopathy (ICM). Methods: Fifty-seven patients with known ICM referred for a clinically indicated CMR were enrolled in this study. 2D-MSLGE were reconstructed using a growing level of NR (0%,25%,50%,75%and 100%). Subjective image quality, signal to noise ratio (SNR) and contrast to noise ratio (CNR) were evaluated in each dataset and compared to standard 2D-SSLGE. Moreover, diagnostic accuracy, LGE mass and scan time were compared between 2D-MSLGE with NR and 2D-SSLGE. Results: The application of NR reconstruction ≥50% to 2D-MSLGE provided better subjective image quality, CNR and SNR compared to 2D-SSLGE (p < 0.01). The best compromise in terms of subjective and objective image quality was observed for values of 2D-MSLGE 75%, while no differences were found in terms of LGE quantification between 2D-MSLGE versus 2D-SSLGE, regardless the NR applied. The sensitivity, specificity, negative predictive value, positive predictive value and accuracy of 2D-MSLGE NR 75% were 87.77%,96.27%,96.13%,88.16% and 94.22%, respectively. Time of acquisition of 2D-MSLGE was significantly shorter compared to 2D-SSLGE (p < 0.01). Conclusion: When compared to standard 2D-SSLGE, the application of NR reconstruction to 2D-MSLGE provides superior image quality with similar diagnostic accuracy.

Details

Database :
OAIster
Notes :
STAMPA, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1322052851
Document Type :
Electronic Resource