Cardiac troponins have replaced creatine kinase-MB as the preferred biomarker for establishing the diagnosis of myocardial infarction (MI). Expert recommendations set the diagnostic decision-limit for each assay at the 99th percentile of troponin levels in an apparently healthy reference population, which due to a lack of standardization, will vary depending upon the manufacturer. Among patients presenting with an acute coronary syndrome (ACS), even low-level elevations of cardiac troponin T or I correlate with higher risk of death and recurrent ischemic events compared to patients with levels of troponin below the decision limit. Renal failure does not appear to diminish the prognostic value of troponins among patients with a high clinical probability of ACS. Moreover, patients with elevated levels of troponin derive the most benefit from more intense medical therapy with antithrombin and antiplatelet medications, as well as an early invasive management strategy. Whereas cardiac troponins are extremely specific for myocardial necrosis, they do not discriminate between ischemic and non-ischemic etiologies of myocardial injury. Clinicians must, therefore, determine whether a patient's presenting symptoms are consistent with ACS. Combining troponin with other cardiac biomarkers may offer complimentary information on the underlying pathobiology and prognosis in an individual patient. Future generations of troponin assays may detect specific posttranslational modifications of troponins that may increase the analytic sensitivity for myocardial damage and offer insight into the timing and mechanism of myocardial injury.