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中国精品科技期刊2020
孙媛媛,秦志良,梁世濠,等. 基于不同分子结构的OSA淀粉构建Pickering乳液及其释放特性研究[J]. 华体会体育,2024,45(24):72−78. doi: 10.13386/j.issn1002-0306.2024010060.
引用本文: 孙媛媛,秦志良,梁世濠,等. 基于不同分子结构的OSA淀粉构建Pickering乳液及其释放特性研究[J]. 华体会体育,2024,45(24):72−78. doi: 10.13386/j.issn1002-0306.2024010060.
SUN Yuanyuan, QIN Zhiliang, LIANG Shihao, et al. Pickering Emulsion by OSA-modified Starch with Different Molecular Structures and Its Releasing Property[J]. Science and Technology of Food Industry, 2024, 45(24): 72−78. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2024010060.
Citation: SUN Yuanyuan, QIN Zhiliang, LIANG Shihao, et al. Pickering Emulsion by OSA-modified Starch with Different Molecular Structures and Its Releasing Property[J]. Science and Technology of Food Industry, 2024, 45(24): 72−78. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2024010060.

基于不同分子结构的OSA淀粉构建Pickering乳液及其释放特性研究

Pickering Emulsion by OSA-modified Starch with Different Molecular Structures and Its Releasing Property

  • 摘要: 淀粉作为Pickering乳液的常用载体材料,在生物活性物质输送中有较广泛的应用。针对淀粉链结构对其Pickering乳液的影响,本研究以普通玉米淀粉(Corn)和蜡质玉米淀粉(Waxy)为原料,先经辛烯基琥珀酸(OSA)改性后,再分别经酸降解(Acid Degradation,AD)或酸热复合降解(Acid-heat Composite Degradation,AH)获得4种具有不同分子结构的淀粉基材料,并制备相应的Pickering乳液。通过傅里叶红外光谱、X-射线衍射分析、排阻色谱法对材料结构进行表征,并对相应的Pickering乳液的粒径、ζ-电位及释放特性等进行研究。结果表明,酸降解得到的辛烯基琥珀酸玉米淀粉酯(OSA-AD-Corn)具有一定的有序结构,且短链分子数量约为90.7%±0.02%,链长分布更为均匀。受链结构影响,OSA-AD-Corn Pickering乳液具有较小的尺寸和较大的表面电位。在后续的模拟消化实验中,该乳液在模拟小肠部位释放的游离脂肪酸达42.86%±0.54%。在功能因子控释方面,OSA-AD-Corn Pickering乳液可稳定递送姜黄素,在模拟胃液和小肠液中的释放率分别为52.48%±0.42%和27.98%±0.22%,相较于其他淀粉基载体材料,能控制更多的功能因子递送在小肠部位。本研究结果为活性功能因子的生物高效利用提供合适的载体材料。

     

    Abstract: As a carrier material, starch has a wider application in the delivery of bioactive compounds. Targeting the effects of starch chain structure on the characteristics of Pickering emulsion, this study used normal corn starch (Corn) and waxy corn starch (Waxy) as raw materials, and octenyl succinic acid (OSA) modification was applied to obtain OSA modified starch. These modified starches were then subjected to acid degradation (AD) or acid-heat composite degradation (AH) to obtain four starch-based materials with different molecular structures, which were then used to prepare Pickering emulsions respectively. The structure of the prepared starch materials were characterized using fourier transform infrared spectroscopy, X-ray diffraction, and size exclusion chromatography, and particle size, ζ-potential, and releasing property corresponding Pickering emulsions were also investigated. The results showed that after acid hydrolysis, the OSA corn starch subjected to acid degradation (OSA-AD-Corn) remained some ordered structure, while its chain length distribution was more was uniformly distributed with a proportion of short chains being 90.7%±0.02%. Related with the chain structure, the OSA-AD-Corn Pickering emulsion had smaller particle sizes and a higher ζ-potential. The following in vivo digestion results showed that this Pickering emulsion had 42.86%±0.54% free fatty acid releasing in small intestine. And in terms of the release of functional components, the OSA-AD-Corn Pickering emulsion provided stable delivery of curcumin, which the releasing rate in simulated gastric fluid and small intestinal fluid being 52.48%±0.42% and 27.98%±0.22%, respectively. Compared with other starch-based materials, the OSA-AD-Corn starch sample could deliver more bioactive ingredients to the small intestinal. These results would provide information for producing appropriate carrier materials for the efficient utilization of functional compounds.

     

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