面食结构影响健康成年人的咀嚼、食团特性以及餐后血糖和胰岛素代谢。

Pasta Structure Affects Mastication, Bolus Properties, and Postprandial Glucose and Insulin Metabolism in Healthy Adults.

机构信息

VTT Technical Research Centre of Finland Ltd, Espoo, Finland.

Department of Food and Drug, University of Parma, Parma, Italy; Department of Animal Science, Food and Nutrition, Università Cattolica del Sacro Cuore, Piacenza, Italy.

出版信息

J Nutr. 2022 Apr;152(4):994-1005. doi: 10.1093/jn/nxab361. Epub 2023 Feb 18.

DOI:10.1093/jn/nxab361

PMID:36967189

Abstract

BACKGROUND

Structure and protein-starch interactions in pasta products can be responsible for lower postprandial glycemic responses compared with other cereal foods.

OBJECTIVES

We tested the effect on postprandial glucose metabolism induced by 2 pasta products, couscous, and bread, through their structural changes during mastication and simulated gastric digestion.

METHODS

Two randomized controlled trials (n = 30/trial) in healthy, normal-weight adults (mean BMI of 23.9 kg/m (study 1) and 23.0 kg/m (study 2)) evaluated postprandial glucose metabolism modulation to portions of durum wheat semolina spaghetti, penne, couscous, and bread each containing 50 g available carbohydrate. A mastication trial involving 26 normal-weight adults was conducted to investigate mastication processes and changes in particle size distribution and microstructure (light microscopy) of boluses after mastication and in vitro gastric digestion.

RESULTS

Both pasta products resulted in lower areas under the 2-h curve for blood glucose (-40% for spaghetti and -22% for penne compared with couscous; -41% for spaghetti and -30% for penne compared with bread), compared with the other grain products (P < 0.05). Pasta products required more chews (spaghetti: 34 ± 18; penne: 38 ± 20; bread: 27 ± 13; couscous: 24 ± 17) and longer oral processing (spaghetti: 21 ± 13 s; penne: 23 ± 14 s; bread: 18 ± 9 s; couscous: 14 ± 10 s) compared with bread or couscous (P < 0.01). Pastas contained more large particles (46-67% of total particle area) compared with bread (0-30%) and couscous (1%) after mastication and in vitro gastric digestion. After in vitro gastric digestion, pasta samples still contained large areas of nonhydrolyzed starch embedded within the protein network; the protein in bread and couscous was almost entirely digested, and the starch was hydrolyzed.

CONCLUSIONS

Preservation of the pasta structure during mastication and gastric digestion explains slower starch hydrolysis and, consequently, lower postprandial glycemia compared with bread or couscous prepared from the same durum wheat semolina flour in healthy adults. The postprandial in vivo trials were registered at clinicaltrials.gov as NCT03098017 and NCT03104686.

摘要

背景

与其他谷物食品相比，面食产品的结构和蛋白质-淀粉相互作用可能导致餐后血糖反应较低。

目的

通过咀嚼和模拟胃消化过程中结构的变化，测试 2 种面食产品（粗麦粉蒸粗麦粉和面包）对餐后葡萄糖代谢的影响。

方法

在健康、体重正常的成年人（平均 BMI 为 23.9 kg/m（研究 1）和 23.0 kg/m（研究 2））中进行了两项随机对照试验（n = 30/试验），评估了每份含有 50 克可利用碳水化合物的硬质小麦粗粒通心粉、笔尖面、粗麦粉蒸粗麦粉和面包对餐后葡萄糖代谢的调节作用。涉及 26 名体重正常成年人的咀嚼试验用于研究咀嚼过程以及咀嚼和体外胃消化后食团的粒径分布和微观结构（光学显微镜）的变化。

结果

与其他谷物产品相比，两种面食产品的餐后 2 小时血糖曲线下面积均降低（与粗麦粉蒸粗麦粉相比，笔尖面降低 40%，与面包相比降低 22%；与笔尖面相比，与面包相比降低 41%）（P < 0.05）。与面包或粗麦粉相比，面食产品需要更多的咀嚼（笔尖面：34 ± 18；通心粉：38 ± 20；面包：27 ± 13；粗麦粉蒸粗麦粉：24 ± 17）和更长的口腔处理时间（笔尖面：21 ± 13 s；通心粉：23 ± 14 s；面包：18 ± 9 s；粗麦粉蒸粗麦粉：14 ± 10 s）（P < 0.01）。与面包（0-30%）和粗麦粉（1%）相比，经过咀嚼和体外胃消化后，面食中含有更多的大颗粒（占总颗粒面积的 46-67%）。经过体外胃消化后，面食样品中仍含有大量未水解的淀粉嵌入在蛋白质网络中；面包和粗麦粉中的蛋白质几乎完全被消化，淀粉被水解。