Left ventricular global longitudinal strain (LVGLS) has been recommended by current guidelines for diagnosing anthracycline-induced cardiotoxicity. However, little is known about the early changes in left atrial (LA) morphology and function in this population. Our study aimed to evaluate the potential usefulness of LA indices and their incremental value to LVGLS with three-dimensional echocardiography (3DE) in the early detection of subclinical cardiotoxicity in patients with lymphoma receiving anthracycline. A total of 80 patients with diffuse large B-cell lymphoma who received six cycles of anthracycline-based treatment were enrolled. Echocardiography was performed at baseline (T0), after four cycles (T1), and after the completion of six cycles of chemotherapy (T2). Left ventricular ejection fraction (LVEF), LVGLS, LA volumes, LA emptying fraction (LAEF), LA active emptying fraction (LAAEF), and LA reservoir longitudinal strain (LASr) were quantified with 3DE. Left atrioventricular global longitudinal strain (LAVGLS) was calculated as the sum of peak LASr and the absolute value of peak LVGLS (LAVGLS=LASr+|LVGLS|). LV cardiotoxicity was defined as a new LVEF reduction by ≥10 percentage points to an LVEF of ≤50%. Fourteen (17.5%) patients developed LV cardiotoxicity at T2. LA volumes, LAEF, and LAAEF remained stable over time. Impairment of LASr (28.35±5.03vs. 25.04±4.10, p<.001), LVGLS (-22.77±2.45vs. -20.44±2.62, p<.001), and LAVGLS (51.12±5.63vs. 45.61±5.22, p<.001) was observed by the end of the fourth cycle of chemotherapy (T1). Statistically significant declines in LVEF (61.30±4.73vs. 57.08±5.83, p<.001) were only observed at T2. The relative decrease in LASr (ΔLASr), LVGLS (ΔLVGLS), and LAVGLS (ΔLAVGLS) from T0 to T1 were predictors of LV cardiotoxicity. A ΔLASr of>19.75% (sensitivity, 71.4%; specificity, 87.9%; area under the curve (AUC),.842; p<.001), a ΔLVGLS of>13.19% (sensitivity, 78.6%; specificity, 74.2%; AUC,.763; p<.001), and a ΔLAVGLS of>16.80% (sensitivity, 78.6%; specificity, 93.9%; AUC,.905; p<.001) predicted subsequent LV cardiotoxicity at T2, with the AUC of ΔLAVGLS significantly larger than that of ΔLVGLS (.905vs..763, p=.027). Compared to ΔLVGLS, ΔLAVGLS showed improved specificity (93.9%vs. 74.2%, p=.002) and maintained sensitivity in predicting LV cardiotoxicity. LASr could predict anthracycline-induced LV cardiotoxicity with excellent diagnostic performance. Incorporating LASr into LVGLS (LAVGLS) led to a significantly improved specificity and maintained sensitivity in predicting LV cardiotoxicity.
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