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热加工对由木薯淀粉、磷酸化二淀粉磷酸酯(E-1442)和黄原胶配制的增稠流体基质的流动特性和稳定性的影响及其与吞咽友好潜力的关联

Effect of Thermal Processing on Flow Properties and Stability of Thickened Fluid Matrices Formulated by Tapioca Starch, Hydroxyl Distarch Phosphate (E-1442), and Xanthan Gum Associating Dysphagia-Friendly Potential.

作者信息

Yang Huaiwen, Lin Yuhsien

机构信息

Department of Food Science, National Chiayi University, Chiayi City 60004, Taiwan.

出版信息

Polymers (Basel). 2021 Jan 4;13(1):162. doi: 10.3390/polym13010162.

DOI:10.3390/polym13010162
PMID:33406799
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7795945/
Abstract

The flow behavior of the administrated fluid matrices demands careful assessments for stability when consumed by individuals with dysphagia. In the present study, we incorporated tapioca starch (TS), hydroxypropyl distarch phosphate (HDP), and xanthan gum (XG) as thickeners into different nectars (300 ± 20 mPa.s) undergoing thermal processing and evaluated their stability. The thickened nectars presented better water holding and oil binding capacities at 25 °C than 4 °C, and the nectars with TS provided the best results for both capacities as well as the highest solubility index and swelling power ( < 0.05). All prepared nectars appeared to be shear-thinning fluids with yield stress closely fitting the power law and Casson models. XG-containing nectars presented a higher yield stress and consistency index. Matrices thickened by HDP exhibited a higher viscoelastic property compared to those thickened by TS during thermal processing. TS nectars presented viscous behavior, whereas HDP and XG nectars presented elastic behavior at 80 °C processing. The 3 min thermal processing HDP nectars remained stable and met dysphagia-friendly requirements under 4 °C storage for 28 days, regardless of the type of fluid base (distilled water, sport drink, or orange juice). The employed thickeners present adequate physicochemical properties to be potentially utilized for producing dysphagia-friendly formulations.

摘要

对于吞咽困难者食用时,所使用的流体基质的流动行为需要进行仔细的稳定性评估。在本研究中,我们将木薯淀粉(TS)、羟丙基二淀粉磷酸酯(HDP)和黄原胶(XG)作为增稠剂添加到不同的花蜜(300±20 mPa·s)中进行热加工,并评估它们的稳定性。增稠后的花蜜在25℃时比4℃时具有更好的持水和结合油的能力,含有TS的花蜜在这两种能力以及最高的溶解度指数和膨胀力方面都提供了最佳结果(P<0.05)。所有制备的花蜜似乎都是剪切变稀流体,其屈服应力与幂律模型和卡森模型拟合良好。含XG的花蜜表现出更高的屈服应力和稠度指数。在热加工过程中,与由TS增稠的基质相比,由HDP增稠的基质表现出更高的粘弹性。TS花蜜呈现粘性行为,而HDP和XG花蜜在80℃加工时呈现弹性行为。无论流体基质类型(蒸馏水、运动饮料或橙汁)如何,经过3分钟热加工的HDP花蜜在4℃储存28天期间保持稳定并符合吞咽困难友好型要求。所使用的增稠剂具有足够的物理化学性质,有可能用于生产吞咽困难友好型制剂。

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EFSA J. 2017 Oct 5;15(10):e04911. doi: 10.2903/j.efsa.2017.4911. eCollection 2017 Oct.
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