Your search keyword '"SURI, J. S."' showing total 2 results

1. Machine learning approach in diagnosing Takotsubo cardiomyopathy: The role of the combined evaluation of atrial and ventricular strain, and parametric mapping

Author

Cau, R, Pisu, F, Porcu, M, Cademartiri, F, Montisci, R, Bassareo, P, Muscogiuri, G, Amadu, A, Sironi, S, Esposito, A, Suri, J, Saba, L, Cau R., Pisu F., Porcu M., Cademartiri F., Montisci R., Bassareo P., Muscogiuri G., Amadu A., Sironi S., Esposito A., Suri J. S., Saba L., Cau, R, Pisu, F, Porcu, M, Cademartiri, F, Montisci, R, Bassareo, P, Muscogiuri, G, Amadu, A, Sironi, S, Esposito, A, Suri, J, Saba, L, Cau R., Pisu F., Porcu M., Cademartiri F., Montisci R., Bassareo P., Muscogiuri G., Amadu A., Sironi S., Esposito A., Suri J. S., and Saba L.

Abstract

Background: Cardiac magnetic resonance (CMR) with late gadolinium enhancement (LGE) is a key diagnostic tool in the differential diagnosis between non-ischemic cause of cardiac chest pain. Some patients are not eligible for a gadolinium contrast-enhanced CMR; in this scenario, the diagnosis remains challenging without invasive examination. Our purpose was to derive a machine learning model integrating some non-contrast CMR parameters and demographic factors to identify Takotsubo cardiomyopathy (TTC) in subjects with cardiac chest pain. Material and methods: Three groups of patients were retrospectively studied: TTC, acute myocarditis, and healthy controls. Global and regional left ventricular longitudinal, circumferential, and radial strain (RS) analysis included were assessed. Reservoir, conduit, and booster bi-atrial functions were evaluated by tissue-tracking. Parametric mapping values were also assessed in all the patients. Five different tree-based ensemble learning algorithms were tested concerning their ability in recognizing TTC in a fully cross-validated framework. Results: The CMR-based machine learning (ML) ensemble model, by using the Extremely Randomized Trees algorithm with Elastic Net feature selection, showed a sensitivity of 92% (95% CI 78–100), specificity of 86% (95% CI 80–92) and area under the ROC of 0.94 (95% CI 0.90–0.99) in diagnosing TTC. Among non-contrast CMR parameters, the Shapley additive explanations analysis revealed that left atrial (LA) strain and strain rate were the top imaging markers in identifying TTC patients. Conclusions: Our study demonstrated that using a tree-based ensemble learning algorithm on non-contrast CMR parameters and demographic factors enables the identification of subjects with TTC with good diagnostic accuracy. Translational outlook: Our results suggest that non-contrast CMR features can be implemented in a ML model to accurately identify TTC subjects. This model could be a valuable tool for aiding in the diag

Published

2023

2. Non-invasive coronary imaging in elderly population

Author

Onnis, C, Muscogiuri, G, Cademartiri, F, Fanni, D, Faa, G, Gerosa, C, Mannelli, L, Suri, J, Sironi, S, Montisci, R, Saba, L, Onnis C., Muscogiuri G., Cademartiri F., Fanni D., Faa G., Gerosa C., Mannelli L., Suri J. S., Sironi S., Montisci R., Saba L., Onnis, C, Muscogiuri, G, Cademartiri, F, Fanni, D, Faa, G, Gerosa, C, Mannelli, L, Suri, J, Sironi, S, Montisci, R, Saba, L, Onnis C., Muscogiuri G., Cademartiri F., Fanni D., Faa G., Gerosa C., Mannelli L., Suri J. S., Sironi S., Montisci R., and Saba L.

Abstract

Age is a non-modifiable cardiovascular risk factor, which leads to development and progression of chronic conditions, such as coronary artery disease, by promoting atherosclerosis. Aging is responsible for morphological structure changes of the coronary arteries and specific atherosclerotic plaque features, which can be studied with non-invasive coronary imaging techniques, particularly coronary CT angiography. The aim of this review is to evaluate current knowledge on this technique applied to the elderly population, and to describe CAD manifestation and plaque features of coronary atherosclerosis in this particular set of patients. We also discuss the clinical implication of frailty assessment and customization of diagnostic strategies in order to shift the approach from disease-centered to patient-centered care.

Published

2023