Introduction: Peripheral factors contribute to exercise limitations in heart failure (HF) with preserved ejection fraction (HFpEF) and may be related to excess regional adiposity. Slowed oxygen uptake (VO 2 ) kinetics are common in HF with reduced ejection fraction (HFrEF) and reflect peripheral O 2 transport impairments and abnormal muscle metabolic control. Differences in VO 2 kinetics between HFpEF and HFrEF may reveal phenotype-specific impairments in peripheral O 2 transport but remain unknown. Hypothesis: We hypothesized that VO 2 kinetics are slower in HFpEF (compared to HFrEF) and associated with greater leg adiposity. Methods: Patients with HFpEF (n=12; 3 women; 66±6 yrs; 29±3 kg/m 2 ; ejection fraction: 59±5%), HFrEF (n=12; 3 women; 62±9 yrs; 28±4 kg/m 2 ; ejection fraction: 37±8%), and controls (n=12; 3 women; 65±5 yrs; 28±3 kg/m 2 ) cycled at 20 W for 5 minutes prior to a maximal exercise test to determine VO 2peak . Age, sex, and BMI were matched by design and were not different among groups (p>0.05). A monoexponential function with a time delay was used to describe the VO 2 transition from rest to 20 W and calculate the O 2 deficit. Leg fat mass was measured via dual energy X-ray absorptiometry. Results: VO 2peak was lower in HFpEF (18.6±6.2 mL/kg/min) and HFrEF (19.0±3.7 mL/kg/min) compared to controls (26.0±3.1; both p<0.05). Amplitude (HFpEF: 507±97 mL/min; HFrEF: 443±91 mL/min; controls: 477±117 mL/min) and time delay (HFpEF: 16±9 s; HFrEF: 11±7 s; controls: 11±6 s) were not different among groups (p>0.05). The time constant was slower in HFrEF compared to controls (45±9 s vs. 32±6 s; p=0.03) and further slowed in HFpEF (66±18 s; p<0.001). The O 2 deficit was significantly greater in HFpEF (895±201 mL) and HFrEF (649±131 mL) compared to controls (590±125 mL; both p<0.05). There were no differences in percent leg fat mass among groups (HFpEF: 33±8%; HFrEF: 31±6%; controls: 34±9%) and no associations were detected between percent leg fat mass and any VO 2 parameters (all p>0.05). Conclusions: Patients with HFpEF exhibited slower VO 2 kinetics compared to HFrEF with no association to leg adiposity. These data suggest differences in peripheral O 2 transport and intramuscular metabolic control abnormalities between HF phenotypes.