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Migration and Distribution of PAH4 in Oil to French Fries Traced Using a Stable Isotope during Frying

Mengyu Shen, Xiaofang Liu, Xiangxin Xu, Xiangxin Xu, Yinyin Wu, Jixian Zhang, Li Liang, Chaoting Wen, Xudong He, Xin Xu, Xin Xu, Guoyan Liu

2022Journal of Agricultural and Food Chemistry18 citationsDOI

Abstract

Isotope-labeled four polycyclic aromatic hydrocarbons (PAH4-d12) were applied to study the migration and distribution of PAH4 in oil to French fries during frying. The results showed that the mobilities of PAH4-d12 showed a downtrend within 0-6 h and then an uptrend, and PAH4-d12 were mainly distributed in the crust of the French fries, especially five-ring PAHs-d12. The correlation analysis showed that PAH4-d12 migration was mainly caused by oil absorption of French fries. The low fluidity of the oil slowed down the PAH4-d12 migration, which was accelerated as the total polar component increased (higher than 15-20%). Additionally, higher frying temperature enhanced the crust ratio and porous structure of French fries, which explained the abundant five-ring PAHs-d12 distributed in the crust. This study provided references for optimizing the frying parameters: the exposure of PAH4 in French fries to humans can be reduced by controlling the oil quality and weakening the crust of the French fries.

Topics & Concepts

French friesCrustChemistryIsotopeAbsorption (acoustics)MineralogyEnvironmental chemistryFood scienceGeologyGeochemistryMaterials sciencePhysicsQuantum mechanicsComposite materialEdible Oils Quality and AnalysisAdvanced Chemical Sensor TechnologiesIsotope Analysis in Ecology
Migration and Distribution of PAH4 in Oil to French Fries Traced Using a Stable Isotope during Frying | Litcius