Can a different pasta making process preserve the starch’s ultrastructure, increasing its digestibility?

IF 0.7 Q4 NUTRITION & DIETETICS

Mediterranean Journal of Nutrition and Metabolism Pub Date : 2021-01-01 DOI:10.3233/MNM-200518

A. Gaddi, M. Savo, F. Capello, Gaetano Castiglione

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引用次数: 0

Abstract

BACKGROUND: Pasta plays an important role in human nutrition, nevertheless its organoleptic, structural and bromatologic properties have not been completely studied. OBJECTIVE: The study aims to compare the ultrastructure pasta cross-sections produced with reduced mechanic stress and low heat exposure technique (Pietro Massi Technology ™) to common samples obtained with traditional technology in order to assess if a different process can alter the ultrastructure of starch and then, its digestibility. METHODS: A comparative study was performed on the ultrastructure of pasta using scanning electron microscopy (S.E.M). 55 were pasta cross-sections made with Pietro Massi technology, 33 were samples from different pasta factory produced using traditional process, for a total of 88 samples analysed. RESULTS: According to an Index based on what it was observed at one slide at S.E.M we classified samples and compared the number of grains, caves and canals visible, their dimensions in μm and average size of grains. The number of grains in group 1 (9.06±5.01) in group 2 (5.71±5.77), in group 3 (5.93±7.65) resulted significative more elevated compared to group 4 (0.73±2.58); in group 1 and group 2 the number of caves observed was higher than group 4. The size in μm of canals resulted significantly more elevated in group 1 than group 3 (p = 0.008), group 2(p = 0.013), and group 4 (p = 0.02). CONCLUSION: The analysis of average size of caves and canals in μm, the number of caves and grains demonstrated in samples obtained with Massi technology elevated values compared to samples obtained with traditional technique. The number of caves, grains and canals visible in the starch surface demonstrate the high quality of this pasta because they likely ensure penetration of water during cooking, facilitating at the same time the penetration of pancreatic amylases during digestion, suggesting a better digestibility in pasta produced according to this methodology.

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不同的面食制作工艺能否保留淀粉的超微结构，提高其消化率?

背景:面食在人类营养中扮演着重要的角色，然而其感官、结构和色谱特性尚未被完全研究。目的:本研究旨在比较用降低机械应力和低热暴露技术(Pietro Massi Technology™)生产的意大利面横截面的超微结构与用传统技术获得的普通样品，以评估不同的工艺是否可以改变淀粉的超微结构，进而改变其消化率。方法:采用扫描电镜对面食的超微结构进行对比研究。55个是用Pietro Massi技术制作的意大利面横截面，33个是来自不同意大利面工厂使用传统工艺生产的样品，总共分析了88个样品。结果:根据sem上一张载玻片所观察到的指数对样品进行了分类，并比较了可见的颗粒、洞洞和沟渠的数量、μm尺寸和颗粒的平均尺寸。1组(9.06±5.01)、2组(5.71±5.77)、3组(5.93±7.65)粒数显著高于4组(0.73±2.58)粒数;1、2组观察到的溶洞数量均高于4组。1组的根管直径(μm)明显高于3组(p = 0.008)、2组(p = 0.013)和4组(p = 0.02)。结论:与传统方法相比，Massi技术获得的样品中洞洞和孔道的平均尺寸(μm)、洞洞和颗粒的数量均有所增加。淀粉表面可见的洞穴、谷物和沟渠的数量证明了这种面食的高质量，因为它们可能确保了水在烹饪过程中的渗透，同时促进了胰淀粉酶在消化过程中的渗透，这表明根据这种方法生产的面食具有更好的消化率。

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来源期刊

Mediterranean Journal of Nutrition and Metabolism NUTRITION & DIETETICS-

CiteScore

1.70

自引率

9.10%

发文量

期刊介绍： The Mediterranean Journal of Nutrition and Metabolism publishes original scientific papers on metabolism, including diabesity and eating disorders; nutrition (epidemiological, basic, clinical and artificial); dietary and nutritional practices and management and their impact on health from prevention to treatment. The journal hosts the proceedings of relevant congresses and presents shorter notices focused on the original character of the Mediterranean nutritional civilisation. In addition, this journal is intended as a platform for scientific debate and knowledge-sharing among students and clinical practitioners, and between them and the broader scientific community, and finally as a tool for promoting and enhancing scientific cooperation.