首页|期刊导航|食品科学技术学报|口腔加工过程高内相乳液中Na+的释放与咸味感知研究

口腔加工过程高内相乳液中Na+的释放与咸味感知研究OA

Study on Na+Release and Saltiness Perception in High Internal Phase Emulsions During Oral Processing

中文摘要英文摘要

高内相乳液(high internal phase emulsions,HIPEs)是指分散相体积分数为 74%以上的乳液,常被用来调控食品质构、递送活性物质等.为研究口腔加工过程食品中Na+的释放与咸味感知过程,并达到减脂和减盐的目的,使用聚甘油蓖麻油醇酸酯(polyglycerol polyricinoleate,PGPR)作为乳化剂,制备水相体积分数为 80%的油包水(W/O)HIPEs,并在模拟口腔加工的条件下对其进行了研究.研究表明,Na+在W/O乳液中处于类自由离子的状态,其释放速率受分散介质和咀嚼时间的显著影响.在唾液介质中,唾液蛋白初期限制Na+释放,但随咀嚼时间增加释放量逐渐提升,且与去离子水相比唾液显著加快了Na+释放速率.PGPR和NaCl浓度的增加可延长乳液在猪舌表面的保留时间,而水相体积分数较低的乳液更易被唾液润湿,黏附性降低.Na+在黏蛋白层的扩散主要受到乳液结构本身性质以及乳液与黏蛋白的相互作用影响.W/O乳液含有较为滑腻的油脂风味,其咸味感知更容易受到NaCl浓度的影响,乳液的质地也一定程度上影响了咸味感知和总体接受度.研究结果表明,通过调控 PGPR 质量分数(4%~8%)、水相体积分数(30%~80%)及NaCl浓度(10~200 mmol/L),可优化W/O HIPEs的Na+释放行为与口腔黏附特性,实现减盐而不减咸.该体系作为黄油替代物兼具减脂与增强咸味感知的双重优势,希望可为新型健康食品开发提供理论依据与技术指导.

High internal phase emulsions(HIPEs),defined as emulsions with a dispersed phase volume fraction exceeding 74%,are widely employed for modulating food texture and delivering bioactive compounds.To investigate the release kinetics of Na+and saltiness perception in food systems,while achieving fat and salt reduction objectives,polyglycerol polyricinoleate(PGPR)was used as an emulsifier to prepare water-in-oil(W/O)HIPEs with an 80%aqueous phase volume fraction,and their behavior under simulated oral processing conditions was subsequently examined.Regarding matrix release,Na+existed in a quasi-free ionic state within W/O emulsions,with its release rate significantly influenced by the dispersing medium and mastication duration.In salivary medium,salivary proteins initially restricted Na+release.However,release progressively increased with prolonged mastication,and saliva markedly accelerated Na+release compared to deionized water.Concerning oral transfer,elevated PGPR and NaCl concentrations prolonged emulsion retention on porcine tongue surfaces,whereas emulsions with lower aqueous phase volume fractions exhibited enhanced wettability by saliva and reduced mucoadhesion.Na+diffusion through the mucin layer was primarily governed by the intrinsic structural properties of the emulsion and emulsion-mucin interactions.In terms of saltiness perception,W/O emulsions presented a relatively smooth,oily flavor profile,with saltiness perception being more susceptible to NaCl concentration.Emulsion texture also exerted a moderate influence on saltiness perception and overall acceptability.These findings demonstrated that modulation of PGPR concentration(4%-8%),aqueous phase volume fraction(30%-80%),and NaCl concentration(10-200 mmol/L)can optimize Na+release behavior and oral mucoadhesion properties of W/O HIPEs,enabling sodium reduction without compromising saltiness.As a potential butter replacer,this system offered dual advantages of fat reduction and enhanced saltiness perception,providing theoretical foundations and technical guidance for the development of novel health-oriented food products.

卫姣;尚靖雯;曾庆宏;袁芳;毛立科

四川成都中农大现代农业产业研究院,四川 成都 611430||中国农业大学 食品科学与营养工程学院,北京 100083四川成都中农大现代农业产业研究院,四川 成都 611430||中国农业大学 食品科学与营养工程学院,北京 100083四川成都中农大现代农业产业研究院,四川 成都 611430||中国农业大学 食品科学与营养工程学院,北京 100083中国农业大学 食品科学与营养工程学院,北京 100083四川成都中农大现代农业产业研究院,四川 成都 611430||中国农业大学 食品科学与营养工程学院,北京 100083

轻工纺织

高内相乳液口腔加工Na+释放咸味感知减盐策略

high internal phase emulsionsoral processingNa+releasesaltiness perceptionsalt reduction strategies

《食品科学技术学报》 2026 (2)

93-109,17

四川省自然科学基金资助项目(2024NSFSC0369). Natural Science Foundation of Sichuan Province(2024NSFSC0369).

10.12301/spxb202500487

评论