Duchenne Muscular Dystrophy (DMD) is a severe muscle wasting disease caused by the deficiency of dystrophin protein affecting ~1 in 3500 boys. Exercise has been investigated as a potential therapy but has shown conflicting effects on dystrophic muscle. Animal models that have been studied but do not fully mimic the disease and cardiac phenotype. Here, we provide the first known evaluation of exercise in a new DMD mdx rat model that mimics skeletal muscle and cardiac pathology. Having an animal model that better reflects the DMD cardiac phenotype is crucial in establishing physical activity guidelines that minimize potential damage to the heart. In Aim I of this pilot study, DMD mdx rats (n=3) and sibling wildtypes (WT; n=3) were assigned to wheel or treadmill exercise training groups (high intensity or low intensity) or unexercised (sedentary) for 6-weeks. Throughout this 6-week period, I was responsible for executing the rat treadmill exercise training protocol at low-to-moderate intensity (5x/week), and monitored the rat wheel running activity. Physiological measurements were conducted pre- and post- training (wheel running, treadmill testing, grip testing, echocardiography, and hindlimb force testing). Compared to wheel running or unexercised rats, treadmill training produced the greatest gain in treadmill exercise endurance testing and in fatigue-resistance in in-vivo hindlimb force testing for DMD rats. However, the treadmill program was associated with severe cardiac effects in DMD mdx, indicated by significant fibrosis and inflammation and echocardiography (Myocardial Performance Index, % fractional shortening and ejection fraction), a finding which will be investigated in subsequent cohorts.