开发最先进的吉士粉配方:流变、理化、感官和体外消化特性研究

Starch Pub Date : 2024-08-03 DOI:10.1002/star.202400107
Razieh Kashi, Seyed Mohammad Ali Razavi
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引用次数: 0

摘要

稳定以淀粉为基础的乳制品甜点是一项挑战,吸引研究人员关注的是如何找到一种无相分离的配方,并保护其质地和感官特性。本研究旨在探讨使用高静水压(HHP)处理过的蜡质玉米淀粉(HWCS)代替原生玉米淀粉,用木糖醇(1:0、1:1、0:1)代替蔗糖,以及脂肪减少水平(2.67% 和 0.1%)对吉士甜点的流变学、质地、感官特性、α-淀粉酶敏感性、仪器和感官参数相关性的影响。背面挤压试验结果表明,与对照组相比,使用 HWCS、减少脂肪含量并用木糖醇(HXL)替代后,稠度(27.20 mJ)和粘合力(6.20 mJ)增加,硬度(5.13 N)和粘合力(2.57 N)降低(2.与对照组相比(分别为 2.16 mJ、0.79 mJ、13.55 N 和 3.45 N),在 4 °C 下贮存 5 天后,可防止酸败,最大限度地提高奶油稳定性指数和持水能力。此外,木糖醇和 HWCS 的存在降低了吉士蛋糕的酶敏感性和葡萄糖释放,增强了其奶油感和顺滑感。值得注意的是,虽然在 50 s-1 的恒定剪切速率(6 °C)下,HWCS 降低了粘度和时间依赖性,但低脂样品的粘度高于对照组。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of a State‐of‐Art Custard Formulation: Investigating the Rheological, Physicochemical, Sensory, and In‐Vitro Digestibility Properties
Stabilizing starch‐based dairy desserts is a challenge, attracting researchers’ attention to finding a phase separation‐free formulation with protected textural and sensory properties. The present study aims to investigate the effect of using high hydrostatic pressure (HHP) treated waxy corn starch (HWCS) instead of native corn starch, substituting sucrose with xylitol (1:0, 1:1, 0:1) and fat reduction level (2.67% and 0.1%) on the rheological, textural, sensory properties, α‐amylase sensitivity, and instrumental and sensory parameters of custard desserts’ correlation. The results of the back extrusion test demonstrate an increase in consistency (27.20 mJ) and adhesiveness (6.20 mJ) and a decrease in hardness (5.13 N) and adhesive force (2.57 N) by applying HWCS, diminishing fat content and substituting xylitol (HXL) compared to control (2.16 mJ, 0.79 mJ, 13.55 N and 3.45 N, respectively) that is in line with preventing syneresis, maximizing creamy stability index, and water holding capacity after 5 days of storage at 4 °C. Also, the presence of xylitol and HWCS decreases custards’ enzyme sensitivity and glucose release, amplifying its creaminess and smoothness perception. It is worth noting that although HWCS reduces viscosity and time dependency at the constant shear rate of 50 s−1 (6 °C), low‐fat samples have a higher viscosity than control.
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