Improvements in iron status and cognitive function in young women consuming beef or non-beef lunches.
Study Goal
The researchers aimed to determine whether moderate beef consumption improves iron status and cognitive performance in young women compared to non-beef protein.
Results Summary
Beef consumption improved body iron levels, particularly in women with lower baseline iron, and iron status had beneficial effects on cognitive performance. However, beef did not show a significant advantage over non-beef protein in improving cognition or iron status.
Population
Young women (n=43, age 21.1±0.4 years)
Effective Dosage
3 oz (85 g) of beef or non-beef protein, 3 times weekly
Duration
16 weeks
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
iron supplementation | increase | mental function | iron-deficient adults | - | improves | #1 |
moderate beef consumption | neutral | hematologic and cognitive responses | young women | - | measured the hematologic and cognitive responses to | #2 |
beef or non-beef protein lunch | increase | body iron | young women | - | increased | #3 |
- | increase | spatial working memory and planning speed | - | - | had significant beneficial effects on | #4 |
- | increase | planning speed, spatial working memory strategy, and attention | ferritin responders | - | showed significantly greater improvements in | #5 |
beef lunch group | no change | test performance | young women | - | had neither significant interactions with iron status nor consistent main effects on | #6 |
beef over non-beef protein consumption | no change | either measure | young women | - | do not show a particular benefit of | #7 |
Iron status is associated with cognitive performance and intervention trials show that iron supplementation improves mental function in iron-deficient adults. However, no studies have tested the efficacy of naturally iron-rich food in this context. This investigation measured the hematologic and cognitive responses to moderate beef consumption in young women. Participants (n=43; age 21.1±0.4 years) were randomly assigned to a beef or non-beef protein lunch group [3-oz (85 g), 3 times weekly] for 16 weeks. Blood was sampled at baseline, and weeks 8 and 16, and cognitive performance was measured at baseline and week 16. Body iron increased in both lunch groups (p<0.0001), with greater improvement demonstrated in women with lower baseline body iron (p<0.0001). Body iron had significant beneficial effects on spatial working memory and planning speed (p<0.05), and ferritin responders (n=17) vs. non-responders (n=26) showed significantly greater improvements in planning speed, spatial working memory strategy, and attention (p<0.05). Lunch group had neither significant interactions with iron status nor consistent main effects on test performance. These findings support a relationship between iron status and cognition, but do not show a particular benefit of beef over non-beef protein consumption on either measure in young women.