Department of Agricultural Chemistry and Food Science, Faculty of Science, C/Francisco Tomás y Valiente, 7. Universidad Autónoma de Madrid, 28049, Madrid, Spain.
Institute of Food Science Research (CIAL, UAM-CSIC), C/Nicolás Cabrera, 9. Universidad Autónoma de Madrid, 28049, Madrid, Spain.
Food Funct. 2021 Feb 15;12(3):1097-1110. doi: 10.1039/d0fo02295k.
The dietary fibre and phenolic contents and the functional properties of extruded coffee parchment flour were studied to evaluate its possible use as an ingredient rich in dietary fibre (DF) with potential antioxidant, hypoglycaemic and hypolipidemic properties in extruded products. Coffee parchment flour treated at 160-175 °C and 25% moisture feed showed higher DF (84.3%) and phenolic contents (6.5 mg GAE per g) and antioxidant capacity (32.2 mg TE per g). The extrusion process favoured the release of phenolic compounds from the fibre matrix. Phytochemicals liberated during in vitro simulated digestion exhibited enhanced antioxidant capacity and attenuated reactive oxygen species in intestinal cells (IEC-6). However, the physicochemical and techno-functional properties were just affected by extrusion at high temperature, although extruded coffee parchment flours exhibited lower bulk density and higher swelling capacity than non-extruded ones. Extruded coffee parchment preserved the glucose adsorption capacity and enhanced the α-amylase in vitro inhibitory capacity (up to 81%). Moreover, extruded coffee parchment maintained the ability to delay glucose diffusion and exhibited improved capacity to retard starch digestion in the gastrointestinal tract. The extrusion of coffee parchment flours preserved the cholesterol-binding ability and augmented the capacity of this ingredient to bind bile salts, favouring the inhibition of pancreatic lipase by coffee parchment. These discoveries generate knowledge of the valorisation of coffee parchment as a food dietary fibre ingredient with antioxidant, hypoglycaemic, and hypolipidemic properties that are enhanced by the release of phenolic compounds from the fibre matrix through the production of extruded products.
对膨化咖啡羊皮粉的膳食纤维和酚类含量以及功能特性进行了研究,以评估其作为富含膳食纤维(DF)的成分在膨化产品中的潜在应用,具有潜在的抗氧化、降血糖和降血脂特性。在 160-175°C 和 25%水分进料条件下处理的咖啡羊皮粉显示出更高的膳食纤维(84.3%)和酚类含量(每克 6.5 毫克 GAE)和抗氧化能力(每克 32.2 毫克 TE)。挤压过程有利于酚类化合物从纤维基质中释放。体外模拟消化过程中释放的植物化学物质表现出增强的抗氧化能力和降低肠细胞(IEC-6)中的活性氧。然而,仅在高温下挤压会影响物理化学和技术功能特性,尽管膨化咖啡羊皮粉的堆密度较低,溶胀能力较高,但与未膨化的咖啡羊皮粉相比。膨化咖啡羊皮粉保留了葡萄糖吸附能力,并增强了体外α-淀粉酶抑制能力(高达 81%)。此外,膨化咖啡羊皮粉保持了延迟葡萄糖扩散的能力,并表现出改善的在胃肠道中延缓淀粉消化的能力。咖啡羊皮粉的挤压保留了胆固醇结合能力,并增强了该成分结合胆汁盐的能力,有利于咖啡羊皮粉对胰脂肪酶的抑制。这些发现为咖啡羊皮作为具有抗氧化、降血糖和降血脂特性的食品膳食纤维成分的增值提供了知识,通过生产膨化产品从纤维基质中释放酚类化合物来增强这些特性。
