共查询到17条相似文献,搜索用时 77 毫秒
1.
2.
3.
肉和肉制品在加工、贮藏和运输的过程中容易发生脂质氧化,影响肉制品的品质。脂质适度氧化可以促进肉制品的风味,但是脂质过度氧化还可能产生有毒有害物质,增加食用风险。脂质氧化反应产生的初级产物及次级产物化学性质不稳定,容易与肉中的其他成分(蛋白质、血红素、抗氧化添加剂等)发生反应从而影响肉制品的品质。因此,调控脂质氧化对肉及肉制品来说非常重要。本文主要综述了脂质的酶促氧化、自动氧化、脂质氧化与蛋白质氧化之间的关系。大量研究表明,脂质氧化过程复杂且受诸多因素和条件的影响,研究氧化过程及氧化机制对调控脂质氧化和提高食品品质的稳定性具有重要意义。 相似文献
4.
5.
烧烤肉制品加工中多环芳烃和杂环胺形成途径及其防控方法研究进展 总被引:1,自引:0,他引:1
烧烤肉制品因具有独特的色泽、香气和口感受到消费者的喜爱,但传统烤制通常是在高温条件下进行,肉制品在高温下会发生脂肪裂解、美拉德反应等生成多环芳烃、杂环胺等有害物质。该文综述了烧烤肉制品中多环芳烃、杂环胺等有害物质形成途径、影响因素、抑制方法的研究进展,主要阐述了烧烤肉制品通过HAVA机理和Diels-Alder机理形成多环芳烃,通过自由基途径及美拉德反应形成杂环胺,并为此提出合理控制烤制温度和烤制时间,合理选择烤制技术,添加外源物质抑制有害物质的生成等防控方法,为优化烧烤肉制品加工工艺,促进肉制品行业的绿色安全发展提供理论基础。 相似文献
6.
7.
旨在为炸制鱼饼中晚期糖基化终末产物(AGEs)含量的控制提供理论依据和参考,以冷冻鲢鱼糜为原料制作鱼饼,通过分析连续炸制过程中(每3 h炸制1次)鱼饼中AGEs的生成与其理化指标和油脂氧化程度之间的相关性,探讨炸制过程中油脂氧化对鱼饼中AGEs生成的影响。结果表明:鱼饼外层AGEs含量显著高于内层,炸制9~18 h,鱼饼AGEs含量显著高于其他阶段(p<0.05);鱼饼中AGEs含量与水分含量呈极显著负相关,与脂肪含量和丙二醛含量呈极显著正相关,说明水分散失、油脂吸收以及油脂氧化促进了AGEs的生成。综上,在连续炸制过程的中期,鱼饼中水分含量较低,油脂氧化较为严重,AGEs含量较高。 相似文献
8.
9.
10.
11.
Daniel Demeyer Stefaan De Smet Michèle Ulens 《Critical reviews in food science and nutrition》2016,56(16):2747-2766
Colorectal cancer (CRC) is the third most commonly diagnosed cancer in the world. The vast majority of CRC cases have been linked to environmental causes rather than to heritable genetic changes. Over the last decades, epidemiological evidence linking the consumption of red and, more convincingly, of processed red meat to CRC has accumulated. In parallel, hypotheses on carcinogenic mechanisms underlying an association between CRC and the intake of red and processed red meat have been proposed and investigated in biological studies. The hypotheses that have received most attention until now include (1) the presence of polycyclic aromatic hydrocarbons and heterocyclic aromatic amines, two groups of compounds recognized as carcinogenic, (2) the enhancing effect of (nitrosyl)heme on the formation of carcinogenic N-nitroso compounds and lipid peroxidation. However, none of these hypotheses completely explains the link between red and processed red meat intake and the CRC risk. Consequently, scientists have proposed additional mechanisms or refined their hypotheses. This review first briefly summarizes the development of CRC followed by an in-depth overview and critical discussion of the different potential carcinogenic mechanisms underlying the increased CRC risk associated with the consumption of red and processed red meat. 相似文献
12.
杂环胺是一类极易在烧烤类肉制品加工过程中产生的物质,过量摄入具有致癌或致突变风险。本文综述了肉制品加工过程中杂环胺类物质(包括氨基-咪唑-氮杂芳烃和氨基-咔啉类)的形成机制;分析了影响肉制品加工过程中杂环胺类物质形成因素,包括加工条件(温度与时间)、烹饪方法、前体物质含量和原料肉中水分含量;重点综述了杂环胺类物质的控制技术,如改善加工方式(微波加热预处理、包裹隔热食品辅料、酒类腌制)、添加外源抑制物如植物性天然抗氧化物(香辛料、茶叶提取物、果蔬及果蔬提取物)、保水性物质(纤维素、壳聚糖、淀粉)等,为加工肉制品中杂环胺的控制技术研发与应用提供理论指导与方法参考。 相似文献
13.
14.
Sun Jin Hur Yohan Yoon Cheorun Jo Jong Youn Jeong Keun Taik Lee 《Comprehensive Reviews in Food Science and Food Safety》2019,18(6):1812-1824
Heme iron overload has been implicated as the main cause of the increased risk of cancer due to the consumption of red meat. However, fish and shellfish, teas, and spices contain up to five times more iron than red meat. There is insufficient evidence that iron intake in dietary red meat is the primary causal factor for colorectal cancer. In addition, harmful substances produced during the preparation of red meat, including heterocyclic amines (HCAs), polycyclic aromatic hydrocarbons (PAHs), N‐nitroso compounds, and acrylamide, are extrinsic factors that increase carcinogenicity. HCAs are produced during the cooking of red meat, poultry meat, and fish. PAHs may also be produced during the cooking of diverse food groups, such as dairy products, fruits, vegetables, and cereals. The average daily intake of red meat among Korean individuals is 62 g; the amount of PAHs entering the body via red meat is less than the average amount of PAHs the body is exposed to in the air. Therefore, it is difficult to conclude that dietary red meat is the main cause of colorectal cancer. Rather, there may be an intricate influence of multiple factors, including fruit and vegetable intake, alcohol consumption, smoking, overweight, obesity, and stress. 相似文献
15.
热加工过程对食品的风味、色泽以及危害物的形成具有重要影响。在肉类加工过程中,美拉德反应、脂质氧化和其他前体物质的降解以及它们之间的相互作用为主要的风味形成途径,赋予肉制品特征肉香味和色泽,但往往会同时衍生出杂环胺(heterocyclic amines, HAs)、晚期糖基化末端终产物(advanced glycation end products, AGEs)、丙烯酰胺(acrylamide, AA)等多种危害物,增加人们罹患癌症和心血管疾病等的风险。美拉德反应和脂质氧化是肉类加工过程中占主导地位的2类反应,在风味和危害物的形成中都发挥了重要作用,这2类反应的复杂性和相互作用使风味和危害物的形成存在着一定程度的相关性,往往同时形成并消耗同种或同类前体物,彼此相互影响。本研究综述了肉及肉制品中风味的形成机制、肉制品中常见的化学危害物(HAs、AGEs及AA)及其与风味化合物形成之间的关联,以期为肉及肉制品风味的改善及危害物的减控提供理论参考。 相似文献
16.