Biomarkers to diagnose ventricular dysfunction in childhood cancer survivors: a systematic review

OBJECTIVE: To systematically review the literature and assess the diagnostic value of biomarkers in detection of late-onset left ventricular (LV) dysfunction in childhood cancer survivors (CCS) treated with anthracyclines. METHODS: We systematically searched the literature for studies that evaluated the use of biomarkers for detection of LV dysfunction in CCS treated with anthracyclines more than 1 year since childhood cancer diagnosis. LV dysfunction definitions were accepted as an ejection fraction <50% or <55% and/or a fractional shortening <28%, <29% or <30%. Contingency tables were created to assess diagnostic accuracies of biomarkers for diagnosing LV dysfunction. RESULTS: Of 1362 original studies screened, eight heterogeneous studies evaluating four different biomarkers in mostly asymptomatic CCS were included. In four studies, an abnormal N-terminal pro-B-type natriuretic peptide (NT-proBNP, cut-off range 63-125 ng/L) had low sensitivity (maximally 22%) and a specificity of up to 97% for detection of LV dysfunction. For troponin levels, in five studies one patient had an abnormal troponin value as well as LV dysfunction, while in total 127 patients had LV dysfunction without troponin elevations above cut-off values (lowest 0.01 ng/mL). Two studies that evaluated brain natriuretic peptide and nitric oxide were underpowered to draw conclusions. CONCLUSIONS: In individual studies, the diagnostic value of NT-proBNP for detection of LV dysfunction in CCS is limited. Troponins have no role in detecting late-onset LV dysfunction with cut-off values as low as 0.01 ng/mL. Further study on optimal NT-proBNP cut-off values for rule out or rule in of LV dysfunction is warranted

Negative autopsy and sudden cardiac death

Forensic medicine defines the unexplained sudden death as a death with a non-conclusive diagnosis after autopsy. Molecular diagnosis is being progressively incorporated in forensics, mainly due to improvement in genetics. New genetic technologies may help to identify the genetic cause of death, despite clinical interpretation of genetic data remains the current challenge. The identification of an inheritable defect responsible for arrhythmogenic syndromes could help to adopt preventive measures in family members, many of them asymptomatic but at risk of sudden death. This multidisciplinary translational research requires a specialized team

Anthracycline-Induced Cardiotoxicity: A Review of Pathophysiology, Diagnosis, and Treatment

Anthracyclines have been widely used in children and adults to treat hematologic malignancies, soft-tissue sarcomas, and solid tumors. However, anthracyclines come with both short- and long-term cardiotoxic effects, ranging from occult changes in myocardial structure and function to severe cardiomyopathy and heart failure that may result in cardiac transplantation or death. Here, we review the progress made over the past two decades in understanding the molecular and genetic basis of anthracycline-induced cardiotoxicity; detecting and monitoring myocardial dysfunction; using adjunct cardioprotectant therapies, such as dexrazoxane; and improving cardioprotection with agents such as liposomal and pegylated doxorubicin. Despite this increased understanding, preventing drug-induced cardiotoxicity while maintaining oncologic efficacy to achieve the highest quality of life over a lifespan remain cornerstones of successful anthracycline chemotherapy during childhood