BACKGROUND: In patients with aggressive malignancies who are undergoing high-dose chemotherapy, even minimal elevation of troponin I (TnI) is associated with late left ventricular dysfunction. The time course of the subclinical myocardial damage and its impact on the clinical outcome have never been investigated previously. METHODS AND RESULTS: In 703 cancer patients, we measured TnI soon after chemotherapy (early TnI) and 1 month later (late TnI). Troponin was considered positive for values > or =0.08 ng/mL. Clinical and left ventricular ejection fraction evaluation (echocardiography) were performed before chemotherapy, 1, 3, 6, and 12 months after the end of the treatment, and again every 6 months afterward. Three different TnI patterns were identified, and patients were grouped accordingly. In 495 patients, both early and late TnI values were <0.08 ng/mL (TnI-/- group); in 145, there was only an early increase (TnI+/- group); and in 63 patients, both values increased (TnI+/+ group). In the TnI-/- group, no significant reduction in ejection fraction was observed during the follow-up, and there was a very low incidence of cardiac events (1%). In contrast, a greater incidence of cardiac events occurred in TnI-positive patients, particularly in the TnI(+/+) group (84% versus 37% in the TnI+/- group; P<0.001). CONCLUSIONS: TnI release pattern after high-dose chemotherapy identifies patients at different risks of cardiac events in the 3 years thereafter. This stratification allows us to differentiate the monitoring program and to plan, in selected patients, preventive strategies aimed at improving clinical outcome.
BACKGROUND: In patients with aggressive malignancies who are undergoing high-dose chemotherapy, even minimal elevation of troponin I (TnI) is associated with late left ventricular dysfunction. The time course of the subclinical myocardial damage and its impact on the clinical outcome have never been investigated previously. METHODS AND RESULTS: In 703 cancerpatients, we measured TnI soon after chemotherapy (early TnI) and 1 month later (late TnI). Troponin was considered positive for values > or =0.08 ng/mL. Clinical and left ventricular ejection fraction evaluation (echocardiography) were performed before chemotherapy, 1, 3, 6, and 12 months after the end of the treatment, and again every 6 months afterward. Three different TnI patterns were identified, and patients were grouped accordingly. In 495 patients, both early and late TnI values were <0.08 ng/mL (TnI-/- group); in 145, there was only an early increase (TnI+/- group); and in 63 patients, both values increased (TnI+/+ group). In the TnI-/- group, no significant reduction in ejection fraction was observed during the follow-up, and there was a very low incidence of cardiac events (1%). In contrast, a greater incidence of cardiac events occurred in TnI-positive patients, particularly in the TnI(+/+) group (84% versus 37% in the TnI+/- group; P<0.001). CONCLUSIONS: TnI release pattern after high-dose chemotherapy identifies patients at different risks of cardiac events in the 3 years thereafter. This stratification allows us to differentiate the monitoring program and to plan, in selected patients, preventive strategies aimed at improving clinical outcome.
Authors: Alessandro Colombo; Maria T Sandri; Michela Salvatici; Carlo M Cipolla; Daniela Cardinale Journal: Curr Treat Options Cardiovasc Med Date: 2014-06
Authors: Kathleen W Zhang; Brian S Finkelman; Gaurav Gulati; Hari K Narayan; Jenica Upshaw; Vivek Narayan; Ted Plappert; Virginia Englefield; Amanda M Smith; Carina Zhang; W Gregory Hundley; Bonnie Ky Journal: JACC Cardiovasc Imaging Date: 2018-03-14
Authors: Peggy M Kostakou; Nikos T Kouris; Vassilios S Kostopoulos; Dimitrios S Damaskos; Christoforos D Olympios Journal: Heart Fail Rev Date: 2019-01 Impact factor: 4.214