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No effect of epigallocatechin-3-gallate with weight loss on adiposity reduction, cardiometabolic risk factors and liver function in pre-menopausal obese women

Published online by Cambridge University Press:  23 September 2014

Tomoyuki Kawada*
Affiliation:
Department of Hygiene and Public Health, Nippon Medical School, 1-1-5 Sendagi, Bunkyo-ku, Tokyo113-8602, Japan, [email protected]
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Abstract

Type
Letter to the Editor
Copyright
Copyright © The Author 2014 

Mielgo-Ayuso et al. ( Reference Mielgo-Ayuso, Barrenechea and Alcorta 1 ) conducted a randomised, double-blind, placebo-controlled clinical trial (randomised controlled trial) to investigate the effect of epigallocatechin-3-gallate (EGCG) associated with weight loss on adiposity, cardiometabolic risk factors and liver function. They concluded that there was no advantage or adverse effect of 300 mg/d intake of EGCG for 12 weeks in relation to weight loss on health in pre-menopausal women. I fundamentally agree with the negative data reported in their study outcome; however, two concerns are presented to verify their study data.

The first concern is why they did not check blood pressure during the study. Blood pressure is the core component of cardiometabolic risk factors; for example, Brown et al. ( Reference Brown, Lane and Coverly 2 ) conducted a randomised controlled trial study in men, aged 40–65 years, and reported that diastolic blood pressure was significantly reduced by the intake of EGCG. Although Mielgo-Ayuso et al. ( Reference Mielgo-Ayuso, Barrenechea and Alcorta 1 ) selected subjects with blood pressure levels ≤ 140/90 mmHg, they conducted a strict weight control trial with an energy-restricted diet. This means that blood pressure should be checked as a potential confounder on the result, although their study was conducted in young or middle-aged subjects with normal blood pressure levels. The authors have checked the net effect of EGCG in their randomised controlled trial, but the effect of EGCG on blood pressure was not clarified due to the lack of its monitoring in their study.

The second concern is that there was no significant effect of EGCG on insulin resistance and lipid levels, which is in agreement with the results reported by Brown et al. ( Reference Brown, Lane and Coverly 2 ), and differences in sex and age did not affect these biomarkers. I recommend that Mielgo-Ayuso et al. ( Reference Mielgo-Ayuso, Barrenechea and Alcorta 1 ) include dietary factors at baseline in their future study as presented by Brown et al. ( Reference Brown, Lane and Coverly 2 ). Lifestyle habits including smoking and alcohol intake differ between men and women, and I speculate that the ethnic difference would partly contribute to the effect of EGCG on health.

Wang et al. ( Reference Wang, Moustaid-Moussa and Chen 3 ) reported the preventive effect of polyphenols, including green tea catechins, especially EGCG, resveratrol and curcumin, on obesity and obesity-related inflammation by overviewing cellular and animal studies. In contrast, limited human studies have shown inconsistent results, probably because of the difference in study designs and follow-up periods, different individual characteristics such as age, sex and ethnicity, different chemical forms of dietary polyphenols used in each study and insufficient adjustment of confounders relating to weight-associated agents.

Concerning liver dysfunction, Xiao et al. ( Reference Xiao, Ho and Liong 4 ) reported that EGCG reduced the severity of liver injury in an experimental model of non-alcoholic fatty liver disease associated with lower concentrations of pro-fibrogenic, oxidative stress and pro-inflammatory mediators partly by modulating the activities of transformation growth factor (TGF)/SMAD, phosphoinositide 3-kinase (PI3K)/Akt/forkhead box protein O1 (FoxO1) and NF-κB pathways. These biomarkers should be checked in human studies if EGCG is useful in the prevention of non-alcoholic fatty liver disease.

Anyway, further randomised controlled trial studies are required to confirm the relationship between EGCG and obesity, cardiometabolic risk factors and liver function.

The author received no financial support for this letter. There is no conflict of interest to declare.

References

1 Mielgo-Ayuso, J, Barrenechea, L, Alcorta, P, et al. (2014) Effects of dietary supplementation with epigallocatechin-3-gallate on weight loss, energy homeostasis, cardiometabolic risk factors and liver function in obese women: randomised, double-blind, placebo-controlled clinical trial. Br J Nutr 111, 12631271.CrossRefGoogle ScholarPubMed
2 Brown, AL, Lane, J, Coverly, J, et al. (2009) Effects of dietary supplementation with the green tea polyphenol epigallocatechin-3-gallate on insulin resistance and associated metabolic risk factors: randomized controlled trial. Br J Nutr 101, 886894.Google Scholar
3 Wang, S, Moustaid-Moussa, N, Chen, L, et al. (2014) Novel insights of dietary polyphenols and obesity. J Nutr Biochem 25, 118.CrossRefGoogle ScholarPubMed
4 Xiao, J, Ho, CT, Liong, EC, et al. (2014) Epigallocatechin gallate attenuates fibrosis, oxidative stress, and inflammation in non-alcoholic fatty liver disease rat model through TGF/SMAD, PI3 K/Akt/FoxO1, and NF-κB pathways. Eur J Nutr 53, 187199.Google Scholar