Comparative study on the use of rosemary bioactive for enhancing the oxidative stability of blended perilla seed oil: A multivariant kinetic approach

•Rosemary extract (RE) and rosemary oil (RO) were added in blended perilla seed oil (BPSO) to improve the oxidative stability.•Kinetics of oxidation in various oil sample were estimated using rancimat.•BPSORE1500 had higher induction period at 110 °C compared to BPSO and PSO.•RE showed better oxidat...

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Bibliographic Details
Published in:Food chemistry advances 2023-12, Vol.3, p.100447, Article 100447
Main Authors: Singh, Priyanka Kumari, Chopra, Rajni, Garg, Meenakshi
Format: Article
Language:English
Subjects:
Oxidation kinetics
Oxidative stability
Perilla seed oil
Rancimat
Rosemary extract
Rosemary oil
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Summary:•Rosemary extract (RE) and rosemary oil (RO) were added in blended perilla seed oil (BPSO) to improve the oxidative stability.•Kinetics of oxidation in various oil sample were estimated using rancimat.•BPSORE1500 had higher induction period at 110 °C compared to BPSO and PSO.•RE showed better oxidative stability than RO in blended perilla seed oil. Vegetable oils rich in polyunsaturated fatty acids (PUFA) are susceptible to lipid oxidation, which results in oxidative rancidity which can be prevented using natural antioxidant. This study investigated the oxidative stability and kinetics of blended perilla seed oil (BPSO) with different levels of rosemary bioactive as rosemary extract (RE) and rosemary oil (RO) under accelerated temperature using the rancimat method. The preliminary evaluation of perilla seed oil (PSO) exhibited higher peroxide value, acid value, p-anisidine and TOTOX value compared to palmolein (PO) and BPSO. The analysis of fatty acid composition revealed that blending of PSO with PO resulted in decrease in PUFA content of BPSO leading to balancing of its fatty acid composition. The kinetic parameters were estimated and results ranged from 85.38 to 109.17 kJ/mol for activation energies (Ea), 82.24–106.77 kJ/mol for activation enthalpies (∆H++), and -50.92 to 28.20 J/mol K for entropies (∆S++). Among all the oil sample, BPSORE1500 exhibited highest total phenolic content (3.12 mg GAE/100 g) and DPPH % inhibition (41.03 %). Multivariant analysis was conducted to classify blended oil samples on the basis of oxidative stability and kinetic parameters. The principal component analysis (PCA) and hierarchal cluster analysis (HCA) effectively screened the BPSO with RE (1500 mg/kg), exhibited better oxidative stability (IP110, shelf life at 25 °C) with a slower kinetic rate and can be used as functional oil with a desirable level of PUFA (omega-3).
ISSN:2772-753X
2772-753X
DOI:10.1016/j.focha.2023.100447