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Automated selection of myocardial inversion time with a convolutional neural network: Spatial temporal ensemble myocardium inversion network (STEMI-NET). | LitMetric

AI Article Synopsis

  • The study investigates the use of a convolutional neural network (CNN) to automate the selection of inversion times (TI) in cardiac MRI, which is critical for assessing myocardial scar and viability.
  • Researchers analyzed 425 cardiac MRI exams to train a model combining the VGG19 CNN architecture with long short-term memory, comparing its predictions against expert annotations of the optimal TI.
  • Results showed a strong correlation between the CNN's predictions and expert annotations, with 94% of predictions falling within 36 ms of the expert-selected TI, indicating the model's potential for automated TI selection in clinical practice.

Article Abstract

Purpose: Delayed enhancement imaging is an essential component of cardiac MRI, which is used widely for the evaluation of myocardial scar and viability. The selection of an optimal inversion time (TI) or null point (TI ) to suppress the background myocardial signal is required. The purpose of this study was to assess the feasibility of automated selection of TI using a convolutional neural network (CNN). We hypothesized that a CNN may use spatial and temporal imaging characteristics from an inversion-recovery scout to select TI , without the aid of a human observer.

Methods: We retrospectively collected 425 clinically acquired cardiac MRI exams performed at 1.5 T that included inversion-recovery scout acquisitions. We developed a VGG19 classifier ensembled with long short-term memory to identify the TI . We compared the performance of the ensemble CNN in predicting TI against ground truth, using linear regression analysis. Ground truth was defined as the expert physician annotation of the optimal TI. In a backtrack approach, saliency maps were generated to interpret the classification outcome and to increase the model's transparency.

Results: Prediction of TI from our ensemble VGG19 long short-term memory closely matched with expert annotation (ρ = 0.88). Ninety-four percent of the predicted TI were within ±36 ms, and 83% were at or after expert TI selection.

Conclusion: In this study, we show that a CNN is capable of automated prediction of myocardial TI from an inversion-recovery experiment. Merging the spatial and temporal characteristics of the VGG-19 and long short-term-memory CNN structures appears to be sufficient to predict myocardial TI from TI scout.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7962153PMC
http://dx.doi.org/10.1002/mrm.27680DOI Listing

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