The effects of interval- vs. continuous exercise on excess post-exercise oxygen consumption and substrate oxidation rates in subjects with type 2 diabetes.
Study Goal
The researchers aimed to compare the acute effects of interval walking versus continuous walking on post-exercise oxygen consumption, substrate oxidation, and lipid metabolism in individuals with type 2 diabetes.
Results Summary
Interval walking resulted in higher excess post-exercise oxygen consumption (EPOC) compared to continuous walking, but both exercise types similarly increased lipid oxidation rates and lipid metabolism markers during a post-exercise meal test.
Population
Ten subjects with type 2 diabetes (7 male, 3 female; average age 60.3 years; BMI 28.3 kg/m²).
Effective Dosage
60-minute sessions of either continuous walking or interval walking (3 minutes fast, 3 minutes slow).
Duration
Single 60-minute intervention per session.
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
interval-walking (IW) | increase | EPOC | subjects with type 2 diabetes (T2D) | 8.4±1.3l vs 3.7±1.4l | was higher after | #1 |
interval-walking (IW) | increase | lipid oxidation rates | subjects with type 2 diabetes (T2D) | 1.03±0.12mg/kg per min vs 0.73±0.04mg/kg per min | were increased | #2 |
continuous walking (CW) | increase | lipid oxidation rates | subjects with type 2 diabetes (T2D) | 0.87±0.04mg/kg per min vs 0.73±0.04mg/kg per min | were increased | #3 |
interval-walking (IW) and continuous walking (CW) | increase | free fatty acids and glycerol concentrations, and glycerol kinetics | subjects with type 2 diabetes (T2D) | - | were increased comparably | #4 |
interval-walking (IW) and continuous walking (CW) | no change | effects on substrate oxidation and lipid metabolism | subjects with type 2 diabetes (T2D) | - | are comparable | #5 |
BACKGROUND: For unknown reasons, interval training often reduces body weight more than energy-expenditure matched continuous training. We compared the acute effects of time-duration and oxygen-consumption matched interval- vs. continuous exercise on excess post-exercise oxygen consumption (EPOC), substrate oxidation rates and lipid metabolism in the hours following exercise in subjects with type 2 diabetes (T2D). METHODS: Following an overnight fast, ten T2D subjects (M/F: 7/3; age=60.3±2.3years; body mass index (BMI)=28.3±1.1kg/m(2)) completed three 60-min interventions in a counterbalanced, randomized order: 1) control (CON), 2) continuous walking (CW), 3) interval-walking (IW - repeated cycles of 3min of fast and 3min of slow walking). Indirect calorimetry was applied during each intervention and repeatedly for 30min per hour during the following 5h. A liquid mixed meal tolerance test (MMTT, 450kcal) was consumed by the subjects 45min after completion of the intervention with blood samples taken regularly. RESULTS: Exercise interventions were successfully matched for total oxygen consumption (CW=1641±133mL/min; IW=1634±126mL/min, P>0.05). EPOC was higher after IW (8.4±1.3l) compared to CW (3.7±1.4l, P<0.05). Lipid oxidation rates were increased during the MMTT in IW (1.03±0.12mg/kg per min) and CW (0.87±0.04mg/kg per min) compared with CON (0.73±0.04mg/kg per min, P<0.01 and P<0.05, respectively), with no difference between IW and CW. Moreover, free fatty acids and glycerol concentrations, and glycerol kinetics were increased comparably during and after IW and CW compared to CON. CONCLUSIONS: Interval exercise results in greater EPOC than oxygen-consumption matched continuous exercise during a post-exercise MMTT in subjects with T2D, whereas effects on substrate oxidation and lipid metabolism are comparable.