The effect of 8 plant extracts and combinations on post-prandial blood glucose and insulin responses in healthy adults: a randomized controlled trial

David J Mela; Xiu-Zhen Cao; Rajendra Dobriyal; Mark I Fowler; Li Lin; Manoj Joshi; Theo J P Mulder; Peter G Murray; Harry P F Peters; Mario A Vermeer; Zhang Zhang

doi:10.1186/s12986-020-00471-x

The effect of 8 plant extracts and combinations on post-prandial blood glucose and insulin responses in healthy adults: a randomized controlled trial

Nutr Metab (Lond). 2020 Jul 6:17:51. doi: 10.1186/s12986-020-00471-x. eCollection 2020.

Authors

Affiliations

¹ Unilever R&D, Wageningen, the Netherlands.
² Unilever R&D Shanghai, Shanghai, China.
³ Hindustan Unilever Research Centre, Mumbai, India.
⁴ Unilever R&D, Sharnbrook, UK.
⁵ Unilever R&D, Bangalore, IN India.

Abstract

Background: Lower post-prandial glucose (PPG) and insulin (PPI) responses to foods are associated with reduced diabetes risk and progression. Several plant extracts have been proposed to reduce PPG or PPI by inhibiting enzymes or transporters involved in carbohydrate digestion and uptake. This study evaluates a range of such extracts, consumed with a carbohydrate load, for their effects on PPG, PPI and indicators of (gastrointestinal) tolerance.

Methods: Interventions were extracts of mulberry fruit (MFE, 1.5 g), mulberry leaf (MLE, 1.0 g), white bean (WBE, 3.0 g), apple (AE, 2.0 g), elderberry (EE, 2.0 g), turmeric (TE, 0.18 g), AE + TE, and EE + TE. Each of these 8 individual extracts or combinations were added to a rice porridge containing ~ 50 g available carbohydrate (control). In a within-subject (randomised, balanced incomplete block) design, individual subjects received the control and a subset of 4 of the 8 extracts or combinations. Participants were 72 apparently healthy adults (mean [SD] age 31.2 [5.5] yr, body mass index 22.1 [2.0] kg/m²). The primary outcome was the percentage change in 2-h PPG (positive incremental area under the curve) relative to control. Secondary measures were the 2-h PPI response, 7-h breath hydrogen, measures of gastrointestinal discomfort, and urine glucose.

Results: In the 65 subjects who completed the control and at least one intervention treatment, additions of AE, MFE and MLE produced statistically significant reductions in PPG vs control (p < 0.05; mean effect - 24.1 to - 38.1%). All extracts and combinations except TE and WBE significantly reduced PPI (p < 0.01; mean effect - 17.3% to - 30.4%). Rises in breath hydrogen > 10 ppm were infrequent, but statistically more frequent than control only for MLE (p = 0.02). Scores for gastrointestinal discomfort were extremely low and not different from control for any treatment, and no glucosuria was observed.

Conclusions: Additions of AE, MFE and MLE to rice robustly reduced PPG and PPI. EE significantly reduced only PPI, while TE and WBE showed no significant efficacy for PPG or PPI. Breath hydrogen responses to MLE suggest possible carbohydrate malabsorption at the dose used, but there were no explicit indications of intolerance to any of the extracts.

Trial registration: ClinicalTrials.gov identifier NCT04258501. Registered 6 February 2020 - Retrospectively registered.

Keywords: Breath hydrogen; Dietary intervention; Enzyme inhibitors; Glucose transporters; Glycemic response.

Associated data

ClinicalTrials.gov/NCT04258501