一项随机人体研究中咀嚼对杏仁脂质生物可及性的影响及其对消化动力学、可代谢能量和餐后血脂的影响。

Effect of mastication on lipid bioaccessibility of almonds in a randomized human study and its implications for digestion kinetics, metabolizable energy, and postprandial lipemia.

作者信息

Grundy Myriam M L, Grassby Terri, Mandalari Giuseppina, Waldron Keith W, Butterworth Peter J, Berry Sarah E E, Ellis Peter R

机构信息

From the Biopolymers Group, Diabetes and Nutritional Sciences Division, King's College London, United Kingdom (MMLG, TG, PJB, SEEB, and PRE); the Institute of Food Research, Norwich Research Park, United Kingdom (GM and KWW); and the Department of Drug Science and Products for Health, University of Messina, Italy (GM).

出版信息

Am J Clin Nutr. 2015 Jan;101(1):25-33. doi: 10.3945/ajcn.114.088328. Epub 2014 Nov 12.

DOI:10.3945/ajcn.114.088328

PMID:25527747

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4266890/

Abstract

BACKGROUND

The particle size and structure of masticated almonds have a significant impact on nutrient release (bioaccessibility) and digestion kinetics.

OBJECTIVES

The goals of this study were to quantify the effects of mastication on the bioaccessibility of intracellular lipid of almond tissue and examine microstructural characteristics of masticated almonds.

DESIGN

In a randomized, subject-blind, crossover trial, 17 healthy subjects chewed natural almonds (NAs) or roasted almonds (RAs) in 4 separate mastication sessions. Particle size distributions (PSDs) of the expectorated boluses were measured by using mechanical sieving and laser diffraction (primary outcome). The microstructure of masticated almonds, including the structural integrity of the cell walls (i.e., dietary fiber), was examined with microscopy. Lipid bioaccessibility was predicted by using a theoretical model, based on almond particle size and cell dimensions, and then compared with empirically derived release data.

RESULTS

Intersubject variations (n = 15; 2 subjects withdrew) in PSDs of both NA and RA samples were small (e.g., laser diffraction; CV: 12% and 9%, respectively). Significant differences in PSDs were found between these 2 almond forms (P < 0.05). A small proportion of lipid was released from ruptured cells on fractured surfaces of masticated particles, as predicted by using the mathematical model (8.5% and 11.3% for NAs and RAs, respectively). This low percentage of lipid bioaccessibility is attributable to the high proportion (35-40%) of large particles (>500 μm) in masticated almonds. Microstructural examination of the almonds indicated that most intracellular lipid remained undisturbed in intact cells after mastication. No adverse events were recorded.

CONCLUSIONS

Following mastication, most of the almond cells remained intact with lipid encapsulated by cell walls. Thus, most of the lipid in masticated almonds is not immediately bioaccessible and remains unavailable for early stages of digestion. The lipid encapsulation mechanism provides a convincing explanation for why almonds have a low metabolizable energy content and an attenuated impact on postprandial lipemia.

摘要

背景

咀嚼后的杏仁的粒径和结构对营养物质释放（生物可及性）和消化动力学有显著影响。

目的

本研究的目的是量化咀嚼对杏仁组织细胞内脂质生物可及性的影响，并研究咀嚼后杏仁的微观结构特征。

设计

在一项随机、受试者盲法、交叉试验中，17名健康受试者在4个独立的咀嚼阶段咀嚼天然杏仁（NA）或烤杏仁（RA）。通过机械筛分和激光衍射测量咳出食团的粒径分布（PSD）（主要结果）。用显微镜检查咀嚼后杏仁的微观结构，包括细胞壁（即膳食纤维）的结构完整性。基于杏仁粒径和细胞尺寸，使用理论模型预测脂质生物可及性，然后与经验得出的释放数据进行比较。

结果

NA和RA样品的PSD的受试者间差异（n = 15；2名受试者退出）较小（例如，激光衍射；CV分别为12%和9%）。发现这两种杏仁形式的PSD存在显著差异（P < 0.05）。如数学模型所预测，一小部分脂质从咀嚼颗粒破裂表面的破裂细胞中释放出来（NA和RA分别为8.5%和11.3%）。这种低百分比的脂质生物可及性归因于咀嚼后杏仁中大颗粒（>500μm）的比例较高（35 - 40%）。杏仁的微观结构检查表明，咀嚼后大多数细胞内脂质在完整细胞中保持未受干扰。未记录到不良事件。

结论

咀嚼后，大多数杏仁细胞保持完整，脂质被细胞壁包裹。因此，咀嚼后杏仁中的大多数脂质不能立即被生物利用，在消化早期仍无法利用。脂质包裹机制为杏仁代谢能量含量低以及对餐后血脂影响减弱提供了一个有说服力的解释。

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一项随机人体研究中咀嚼对杏仁脂质生物可及性的影响及其对消化动力学、可代谢能量和餐后血脂的影响。

Effect of mastication on lipid bioaccessibility of almonds in a randomized human study and its implications for digestion kinetics, metabolizable energy, and postprandial lipemia.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVES

DESIGN

RESULTS

CONCLUSIONS

背景

目的

设计

结果

结论

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