Effect of mastication on lipid bioaccessibility of almonds in a randomized human study and its implications for digestion kinetics, metabolizable energy, and postprandial lipemia1234
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 a...
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Published in: | The American journal of clinical nutrition Vol. 101; no. 1; pp. 25 - 33 |
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Main Authors: | , , , , , , |
Format: | Journal Article |
Language: | English |
Published: |
American Society for Nutrition
12-11-2014
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Subjects: | |
Online Access: | Get full text |
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Summary: | 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. This trial was registered at
isrctn.org
as ISRCTN58438021. |
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Bibliography: | Supplemental Table 1 is available from the “Supplemental data” link in the online posting of the article and from the same link in the online table of contents at http://ajcn.nutrition.org. Supported by a grant from the Biotechnology and Biological Sciences Research Council DRINC scheme, H004866/H004866/1 (King's College London) and BB/H004866/1 [Institute of Food Research (IFR)]. The almonds were kindly provided by the Almond Board of California. This is an open access article distributed under the CC-BY license (http://creativecommons.org/licenses/by/3.0/). |
ISSN: | 0002-9165 1938-3207 |
DOI: | 10.3945/ajcn.114.088328 |