Sitting less elicits metabolic responses similar to exercise and enhances insulin sensitivity in postmenopausal women.
Study Goal
The researchers aimed to compare the metabolic effects of reducing sitting time (by standing and walking) versus structured exercise on insulin sensitivity in overweight women.
Results Summary
Replacing sitting with standing and walking for 4 days improved peripheral insulin sensitivity (~13%), comparable to moderate-to-vigorous exercise (~20%). Muscle metabolome changes from sitting less resembled those from exercise.
Population
12 overweight women
Effective Dosage
Sitting less regimen: standing 4 h/day and walking 3 h/day
Duration
4 days per regimen
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
replacing sitting time by standing and walking | increase | peripheral insulin sensitivity | overweight women | - | resulted in improved | #1 |
moderate-to-vigorous exercise | increase | peripheral insulin sensitivity | overweight women | - | achieved improvement | #2 |
sitting less regimen | increase | peripheral insulin sensitivity | overweight women | ~13% | significant improvement in | #3 |
exercise regimen | increase | peripheral insulin sensitivity | overweight women | ~20% | significant improvement in | #4 |
sitting less | increase | underlying muscle metabolome | overweight women | - | shifted | #5 |
replacing sitting time by standing and walking | increase | metabolic health | overweight women | - | is an attractive alternative to moderate-to-vigorous exercise for improving | #6 |
AIMS/HYPOTHESIS: In our current society sedentary behaviour predominates in most people and is associated with the risk of developing type 2 diabetes. It has been suggested that replacing sitting time by standing and walking could be beneficial for individuals with type 2 diabetes but the underlying mechanisms are unknown and direct comparisons with exercise are lacking. Our objective was to directly compare metabolic responses of either sitting less or exercising, relative to being sedentary. METHODS: We performed a randomised, crossover intervention study in 12 overweight women who performed three well-controlled 4 day activity regimens: (1) sitting regimen (sitting 14 h/day); (2) exercise regimen (sitting 13 h/day, exercise 1 h/day); and (3) sitting less regimen (sitting 9 h/day, standing 4 h/day and walking 3 h/day). The primary outcome was insulin sensitivity measured by a two-step hyperinsulinaemic-euglycaemic clamp. We additionally performed metabolomics on muscle biopsies taken before the clamp to identify changes at the molecular level. RESULTS: Replacing sitting time by standing and walking over 4 days resulted in improved peripheral insulin sensitivity, comparable with the improvement achieved by moderate-to-vigorous exercise. Specifically, we report a significant improvement in peripheral insulin sensitivity in the sitting less (~13%) and the exercise regimen (~20%), compared with the sitting regimen. Furthermore, sitting less shifted the underlying muscle metabolome towards that seen with moderate-to-vigorous exercise, compared with the sitting regimen. CONCLUSIONS/INTERPRETATIONS: Replacing sitting time by standing and walking is an attractive alternative to moderate-to-vigorous exercise for improving metabolic health. TRIAL REGISTRATION: ClinicalTrials.gov NCT03912922.