Bioactive Yoghurt Containing Curcumin and Chlorogenic Acid Reduces Inflammation in Postmenopausal Women.
Noha Ahmed NasefRohith N ThotaAnthony N MutukumiraKay Rutherfurd-MarkwickMartin DickensPramod K GopalHarjinder SinghManohar L GargPublished in: Nutrients (2022)
Menopause is marked by a gradual and permanent decrease of estrogen from the ovaries, leading to metabolic and physiological changes in the body. Combined with increased body mass index, postmenopausal women have elevated systemic inflammation and metabolic disturbances leading to increased risk of developing chronic diseases. A bioactive coconut yoghurt containing curcumin and chlorogenic acid was developed with the potential to target inflammatory processes. In this randomized crossover study, healthy postmenopausal women with a BMI of 25-40 were recruited to consume 125 g of either the bioactive or placebo yoghurt. Blood samples were collected at baseline, 30 min, and 1, 2, 3 and 4 h postprandially. Plasma inflammatory markers (TNFα and IL6) and metabolic markers (triglycerides, insulin and glucose) were measured. Participants had significantly lower plasma TNFα C max after consumption of the bioactive yoghurt compared to placebo (mean difference = 0.3 pg/mL; p = 0.04). Additionally, plasma TNFα was significantly lower postprandially compared to baseline after consumption of the bioactive yogurt but not the placebo. No differences were observed in the metabolic markers measured. Conclusions: The bioactive yoghurt fortified with curcumin and chlorogenic acid has the potential to reduce inflammatory mediators; however, a larger and longer-term study is required to confirm these findings.
Keyphrases
- postmenopausal women
- bone mineral density
- body mass index
- double blind
- rheumatoid arthritis
- phase iii
- oxidative stress
- placebo controlled
- type diabetes
- randomized controlled trial
- clinical trial
- open label
- physical activity
- body composition
- adipose tissue
- metabolic syndrome
- risk assessment
- human health
- blood glucose
- preterm infants
- study protocol
- tissue engineering
- insulin resistance
- skeletal muscle
- glycemic control
- climate change
- estrogen receptor
- high density
- preterm birth