VTT Technical Research Center of Finland, Espoo, Finland.
Institute of Agrochemistry and Food Technology (IATA-CISC), Paterna (Valencia), Spain.
Am J Clin Nutr. 2018 Sep 1;108(3):437-444. doi: 10.1093/ajcn/nqy095.
Dietary fiber (DF) comprises a wide range of naturally occurring and modified materials with substantial variations in physical and chemical properties and potential physiologic effects. Although nutrition studies testing the effects of DF usually provide extensive detail on the physiologic responses, many still fail to adequately report the type and properties of the DF itself. This weakens the ability to directly replicate and compare studies and to establish structure-function relations. We outline the factors that affect DF functionality and provide 4 overarching recommendations for the characterization and reporting of DF preparations and DF-containing foods in nutrition research. These relate to 1) undertaking characterization methods that reflect the study hypothesis; 2) adequate reporting of DF source, quantity, and composition; 3) measurement of DF rheological properties; and 4) estimation of the DF fermentation rate and extent. Importantly, the food matrix of the test products should also be considered, because this can influence DF functionality and hence the apparent DF efficacy for health-relevant outcomes. Finally, we point out differences in DF functionality to be considered in acute and longer-term trials, the need to design the control treatment according to the research question, and the importance of reporting the amount and type of DF in the background diet.
膳食纤维(DF)包括广泛的天然和改性材料,具有显著的物理化学性质和潜在的生理效应差异。尽管测试膳食纤维影响的营养研究通常提供了大量关于生理反应的详细信息,但许多研究仍未能充分报告膳食纤维本身的类型和特性。这削弱了直接复制和比较研究以及建立结构-功能关系的能力。我们概述了影响膳食纤维功能的因素,并为营养研究中膳食纤维制剂和含膳食纤维食品的特性描述和报告提供了 4 项总体建议。这些建议涉及:1)采用反映研究假设的特性描述方法;2)充分报告膳食纤维的来源、数量和组成;3)测量膳食纤维流变学特性;4)估计膳食纤维发酵速度和程度。重要的是,还应考虑测试产品的食品基质,因为这会影响膳食纤维的功能,从而影响膳食纤维对健康相关结果的实际效果。最后,我们指出了在急性和长期试验中要考虑的膳食纤维功能差异,根据研究问题设计对照处理的必要性,以及报告背景饮食中膳食纤维的数量和类型的重要性。
