Affiliation:
1. Department of Biomedical Engineering, Faculty of Engineering Universiti Malaya Kuala Lumpur Malaysia
2. Department of Biomedical Imaging, Faculty of Medicine Universiti Malaya Kuala Lumpur Malaysia
3. University Malaya Research Imaging Centre, Department of Biomedical Imaging, Faculty of Medicine Universiti Malaya Kuala Lumpur Malaysia
4. Department of Medicine, Faculty of Medicine Universiti Malaya Kuala Lumpur Malaysia
5. Department of Mechanical, Materials and Manufacturing Engineering, Faculty of Science and Engineering University of Nottingham Malaysia Semenyih Malaysia
6. Clinical Oncology Unit, Faculty of Medicine Universiti Malaya Kuala Lumpur Malaysia
Abstract
BackgroundIncreased afterload in aortic stenosis (AS) induces left ventricle (LV) remodeling to preserve a normal ejection fraction. This compensatory response can become maladaptive and manifest with motion abnormality. It is a clinical challenge to identify contractile and relaxation dysfunction during early subclinical stage to prevent irreversible deterioration.PurposeTo evaluate the changes of regional wall dynamics in 3D + time domain as remodeling progresses in AS.Study TypeRetrospective.PopulationA total of 31 AS patients with reduced and preserved ejection fraction (14 AS_rEF: 7 male, 66.5 [7.8] years old; 17 AS_pEF: 12 male, 67.0 [6.0] years old) and 15 healthy (6 male, 61.0 [7.0] years old).Field Strength/Sequence1.5 T Magnetic resonance imaging/steady state free precession and late‐gadolinium enhancement sequences.AssessmentIndividual LV models were reconstructed in 3D + time domain and motion metrics including wall thickening (TI), dyssynchrony index (DI), contraction rate (CR), and relaxation rate (RR) were automatically extracted and associated with the presence of scarring and remodeling.Statistical TestsShapiro–Wilk: data normality; Kruskal–Wallis: significant difference (P < 0.05); ICC and CV: variability; Mann–Whitney: effect size.ResultsAS_rEF group shows distinct deterioration of cardiac motions compared to AS_pEF and healthy groups (TIAS_rEF: 0.92 [0.85] mm, TIAS_pEF: 5.13 [1.99] mm, TIhealthy: 3.61 [1.09] mm, ES: 0.48–0.83; DIAS_rEF: 17.11 [7.89]%, DIAS_pEF: 6.39 [4.04]%, DIhealthy: 5.71 [1.87]%, ES: 0.32–0.85; CRAS_rEF: 8.69 [6.11] mm/second, CRAS_pEF: 16.48 [6.70] mm/second, CRhealthy: 10.82 [4.57] mm/second, ES: 0.29–0.60; RRAS_rEF: 8.45 [4.84] mm/second; RRAS_pEF: 13.49 [8.56] mm/second, RRhealthy: 9.31 [2.48] mm/second, ES: 0.14–0.43). The difference in the motion metrics between healthy and AS_pEF groups were insignificant (P‐value = 0.16–0.72). AS_rEF group was dominated by eccentric hypertrophy (47.1%) with concomitant scarring. Conversely, AS_pEF group was dominated by concentric remodeling and hypertrophy (71.4%), which could demonstrate hyperkinesia with slight wall dyssynchrony than healthy. Dysfunction of LV mechanics corresponded to the presence of myocardial scarring (54.9% in AS), which reverted the compensatory mechanisms initiated and performed by LV remodeling.Data ConclusionThe proposed 3D + time modeling technique may distinguish regional motion abnormalities between AS_pEF, AS_rEF, and healthy cohorts, aiding clinical diagnosis and monitoring of AS progression. Subclinical myocardial dysfunction is evident in early AS despite of normal EF.Level of Evidence4Technical EfficacyStage 1
Subject
Radiology, Nuclear Medicine and imaging