Left ventricular systolic dysfunction is a known complication of stem cell transplantation (SCT). There has been minimal research to determine whether subclinical cardiac dysfunction exists in SCT patients using tools other than standard echocardiography, such as maximal and submaximal effort cardiopulmonary exercise testing (CPET) and vascular function studies. The objective of this study was to determine the rate of subclinical cardiac dysfunction in patients with normal ejection fraction after SCT, identified by abnormal values by CPET, tissue-Doppler imaging, and arterial stiffness measurements and to further describe submaximal exercise test measures in this population. A prospective cohort study of SCT survivors who were at least 3 years after SCT without prior anthracycline or radiation exposure and with preserved systolic function (left ventricular ejection fraction > 50%) was performed to evaluate for abnormalities in exercise, vascular function, and diastolic function in an effort to detect subclinical dysfunction in SCT patients. Eleven patients (12.4 ± 3.8 years old) were included in the study. No patients had diastolic dysfunction. All patients completed a maximal effort exercise test, and 73% (8/11) had abnormal peak oxygen consumption (Vo2 peak), which is a measure of aerobic fitness. However, during submaximal effort CPET, 45% (5/11) had an abnormal Vo2 at anaerobic threshold (i.e., the point in exercise where aerobic transitions to anaerobic metabolism and fatigue starts), and 64% (7/11) had an abnormal oxygen uptake efficiency slope (a measure that relates Vo2 peak to total ventilation). Eighty-six percent (6/7) of the patients with an abnormal oxygen uptake efficiency slope ultimately had an abnormal Vo2 peak. There were no vascular function abnormalities. Pediatric survivors of SCT often have abnormal maximal and submaximal exercise capacity without vascular or cardiac dysfunction.