Grundy Myriam Marie-Louise, Lapsley Karen, Ellis Peter Rory
Diabetes and Nutritional Sciences King's College London Franklin-Wilkins Building, 150 Stamford Street London SE1 9NH UK.
Almond Board of California 1150 Ninth Street Ste.1500 Modesto CA 95354 USA.
Int J Food Sci Technol. 2016 Sep;51(9):1937-1946. doi: 10.1111/ijfs.13192. Epub 2016 Jul 31.
Almond kernels contain phytochemicals and nutrients that potentially have positive health benefits in relation to heart disease, diabetes and obesity. One important mechanism associated with these benefits is an imposed limit on bioaccessibility (release) of nutrients, such as lipids, from almond tissue during mastication and digestion. Recent studies have demonstrated the importance of food structure during the digestion of plant foods. In particular, in the almond kernel, depending on its structure and degree of processing, the amount of lipid released from the almond tissue matrix and the fatty acids produced from lipolysis has been found to vary substantially. This review aims at discussing the commercial methods of almond processing and the different almond forms produced for human consumption, mainly with respect to their impact on nutrient composition, digestion and metabolism.
杏仁含有植物化学物质和营养成分,可能对心脏病、糖尿病和肥胖症具有积极的健康益处。与这些益处相关的一个重要机制是,在咀嚼和消化过程中,杏仁组织中营养物质(如脂质)的生物可及性(释放)受到限制。最近的研究表明了植物性食物消化过程中食物结构的重要性。特别是在杏仁中,根据其结构和加工程度,从杏仁组织基质中释放的脂质数量以及脂解产生的脂肪酸已被发现有很大差异。本综述旨在讨论杏仁的商业加工方法以及为人类消费而生产的不同杏仁形式,主要涉及其对营养成分、消化和代谢的影响。