Bioactive Foods and Health, Department of Nutrition, Exercise, and Sports, and.
J Nutr. 2013 Oct;143(10):1579-85. doi: 10.3945/jn.112.173054. Epub 2013 Aug 14.
β-Glucans are known to exhibit hypocholesterolemic effects. Increased intestinal viscosity is thought to be crucial for cholesterol lowering. It is suggested that concentration, molecular mass, and structure, including the ratio of (1→3) to (1→4) glucan bonds in the molecule, are of importance for β-glucan functionality. This study investigated the effects of 3 different β-glucan sources, incorporated into a beverage and yogurt, on blood lipids and fecal endpoints. Fourteen participants completed this randomized, crossover, single-blinded study with four 3-wk periods: control and 3.3 g/d oat, barley, and barley mutant β-glucans of similar molecular mass. Before and after each period, fasting and postprandial blood samples were drawn and 3-d fecal samples were collected. Treatment did not affect changes in total, LDL, and HDL cholesterol compared with control; however, consumption of 3.3 g/d of oat β-glucans for 3 wk resulted in greater decreases in total (-0.29 ± 0.09 mmol/L, P < 0.01), LDL (-0.23 ± 0.07 mmol/L, P < 0.01), and HDL (-0.05 ± 0.03 mmol/L, P < 0.05) cholesterol compared with baseline. Changes in LDL in the β-glucan treatments were not related to β-glucan structure (cellotriosyl:cellotetraosyl). Decreases in fasting triacylglycerol were substantially greater after oat β-glucan treatment compared with control (P = 0.03). Fecal dry and wet weight, stool frequency, fecal pH, and energy excretion were unaffected. The results do not fully support the hypocholesterolemic effects by differently structured oat and barley β-glucans. However, substantial differences compared with baseline suggest a potential for oat β-glucan, presumably due to its higher solubility and viscosity. This underlines the importance of elusive structural β-glucan features for beneficial physiologic effects.
β-葡聚糖具有降低胆固醇的作用。人们认为,增加肠道粘度对于降低胆固醇至关重要。有研究表明,β-葡聚糖的浓度、分子量和结构,包括分子中(1→3)与(1→4)葡聚糖键的比例,对β-葡聚糖的功能很重要。本研究调查了 3 种不同的β-葡聚糖来源,分别添加到饮料和酸奶中,对血脂和粪便终点的影响。14 名参与者完成了这项随机、交叉、单盲研究,共分为 4 个 3 周的周期:对照组和每天 3.3 克燕麦、大麦和大麦突变体β-葡聚糖,它们的分子量相似。每个周期前后均采集空腹和餐后血样,并收集 3 天的粪便样本。与对照组相比,治疗并未影响总胆固醇、LDL 和 HDL 胆固醇的变化;然而,连续 3 周每天摄入 3.3 克燕麦β-葡聚糖可使总胆固醇(-0.29±0.09mmol/L,P<0.01)、LDL 胆固醇(-0.23±0.07mmol/L,P<0.01)和 HDL 胆固醇(-0.05±0.03mmol/L,P<0.05)显著降低。β-葡聚糖处理组 LDL 胆固醇的变化与β-葡聚糖结构(纤维三糖:纤维四糖)无关。与对照组相比,燕麦β-葡聚糖处理后空腹三酰甘油的降低幅度明显更大(P=0.03)。粪便干重和湿重、粪便频率、粪便 pH 值和能量排泄不受影响。研究结果不完全支持结构不同的燕麦和大麦β-葡聚糖具有降胆固醇作用。然而,与基线相比有显著差异,表明燕麦β-葡聚糖具有潜在的作用,可能归因于其较高的溶解度和粘度。这突显了 elusive 结构β-葡聚糖特征对有益生理效应的重要性。
