Effects of Cuminum cyminum L. essential oil and its nanoemulsion on oxidative stability and microbial growth in mayonnaise during storage

doi:10.1002/fsn3.3457

. 2023 May 22;11(8):4781-4793.

doi: 10.1002/fsn3.3457. eCollection 2023 Aug.

Effects of Cuminum cyminum L. essential oil and its nanoemulsion on oxidative stability and microbial growth in mayonnaise during storage

Asma Moradi¹, Nafiseh Davati¹, Aryou Emamifar¹

Affiliations

PMID: 37576044
PMCID: PMC10420787
DOI: 10.1002/fsn3.3457

Effects of Cuminum cyminum L. essential oil and its nanoemulsion on oxidative stability and microbial growth in mayonnaise during storage

Asma Moradi et al. Food Sci Nutr. 2023.

. 2023 May 22;11(8):4781-4793.

doi: 10.1002/fsn3.3457. eCollection 2023 Aug.

Authors

Asma Moradi¹, Nafiseh Davati¹, Aryou Emamifar¹

Affiliation

¹ Department of Food Science and Technology, College of Food Industry Bu-Ali Sina University Hamedan Iran.

PMID: 37576044
PMCID: PMC10420787
DOI: 10.1002/fsn3.3457

Abstract

The present study aimed to investigate the effects of Cuminum cyminum L. essential oil (CEO) and its nanoemulsion (CEON) on oxidative stability and microbial growth of mayonnaise during storage. The GC analysis indicated that Cuminaldehyde (27.99%), o-Cymene (17.31%), γ-Terpinen (16.67%), and β-Pinene (9.35%) were the major components of CEO, respectively. The assessments of minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) showed that Escherichia coli ATCC 25922 (MBC_CEO = 12 and MBC_CEON = 6 mg/mL) was the most resistant bacteria, and in contrast, Staphylococcus aureus ATCC 29213 (MBC_CEO = 6 and MBC_CEON = 3 mg/mL) was the most sensitive bacteria. In the radical-scavenging assay, CEON (IC⁵⁰ = 5 ± 0.07 μg/mL) exhibited a higher antioxidant activity than CEO (IC⁵⁰ = 10 ± 0.13 μg/mL). The results showed that applying the MBC of CEO and CEON in mayonnaise led to a significant decrease (p < .05) in acidity, peroxide value, number of acid-resistant bacteria and fungi, and total microbial count compared with the control sample. In conclusion, this study demonstrated that using CEON resulted in oxidative stability, microbial growth control, and desirable sensorial attributes in mayonnaise compared with CEO and control samples.

Keywords: Cuminum cyminum L.; essential oil; mayonnaise; nanoemulsion.

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Conflict of interest statement

The authors declare that they do not have any conflict of interest.

Figures

**FIGURE 1**
Scanning electron microscope (SEM) of *Cuminum cyminum L*. essential oil nanoemulsion prepared at 26,000× magnification.

**FIGURE 2**
The growth curves of *E. coli* (a) and *S. aureus* (b) affected by CEO and CEON at ½ MIC in comparison with the control. CEO, *Cuminum cyminum L*. essential oil; CEON, *Cuminum cyminum L*. essential oil nanoemulsion; MIC, Minimum inhibitory concentration.

**FIGURE 3**
Effect of CEON and CEO on PV (meq O₂/kg oil) of mayonnaise during 90 days of storage. Vertical bars represent the standard deviation (n = 3). Different letters indicate statistically significant differences (p < .05). CEO, *Cuminum cyminum L*. essential oil; CEON, *Cuminum cyminum L*. essential oil nanoemulsion.

**FIGURE 4**
Effect of CEON and CEO on AV of mayonnaise during 90 days of storage. Vertical bars represent the standard deviation (n = 3). Different letters indicate statistically significant differences (p < .05). CEO, *Cuminum cyminum L*. essential oil; CEON, *Cuminum cyminum L*. essential oil nanoemulsion.

**FIGURE 5**
Effect of CEON and CEO on the microbial growth in mayonnaise samples during 90 days of storage. Vertical bars represent the standard deviation (n = 3). Different letters indicate statistically significant differences (p < .05); Purple letters: acid‐resistant bacteria, green letters: mold, blue letters: yeast, red letters: total bacterial count. CEO, *Cuminum cyminum L*. essential oil; CEON, *Cuminum cyminum L*. essential oil nanoemulsion.

**FIGURE 6**
Consumer acceptability scores on a 5‐point scale for mayonnaise samples in the third month. CEO, *Cuminum cyminum L*. essential oil; CEON, *Cuminum cyminum L*. essential oil nanoemulsion.

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References

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[1] Akrami, F. , Rodríguez‐Lafuente, A. , Bentayeb, K. , Pezo, D. , Ghalebi, S. , & Nerín, C. (2015). Antioxidant and antimicrobial active paper based on Zataria (Zataria multiflora) and two cumin cultivars (Cuminum cyminum). LWT – Food Science and Technology, 60(2), 929–933.

[2] Akrami, F. , Rodríguez‐Lafuente, A. , Bentayeb, K. , Pezo, D. , Ghalebi, S. , & Nerín, C. (2015). Antioxidant and antimicrobial active paper based on Zataria (Zataria multiflora) and two cumin cultivars (Cuminum cyminum). LWT – Food Science and Technology, 60(2), 929–933.

[3] Alizadeh, L. , Abdolmaleki, K. , Nayebzadeh, K. , & Shahin, R. (2019). Effects of tocopherol, rosemary essential oil and Ferulago angulata extract on oxidative stability of mayonnaise during its shelf life: A comparative study. Food Chemistry, 285, 46–52. 10.1016/j.foodchem.2019.01.028 - DOI - PubMed

[4] Alizadeh, L. , Abdolmaleki, K. , Nayebzadeh, K. , & Shahin, R. (2019). Effects of tocopherol, rosemary essential oil and Ferulago angulata extract on oxidative stability of mayonnaise during its shelf life: A comparative study. Food Chemistry, 285, 46–52. 10.1016/j.foodchem.2019.01.028 - DOI - PubMed

[5] Allahghadri, T. , Rasooli, I. , Owlia, P. , Nadooshan, M. J. , Ghazanfari, T. , Taghizadeh, M. , & Astaneh, S. D. (2010). Antimicrobial property, antioxidant capacity, and cytotoxicity of essential oil from cumin produced in Iran. Journal of Food Science, 75(2), H54–H61. 10.1111/j.1750-3841.2009.01467.x - DOI - PubMed

[6] Allahghadri, T. , Rasooli, I. , Owlia, P. , Nadooshan, M. J. , Ghazanfari, T. , Taghizadeh, M. , & Astaneh, S. D. (2010). Antimicrobial property, antioxidant capacity, and cytotoxicity of essential oil from cumin produced in Iran. Journal of Food Science, 75(2), H54–H61. 10.1111/j.1750-3841.2009.01467.x - DOI - PubMed

[7] Andres, A. , Cava, R. , Martin, D. , Ventanas, J. , & Ruiz, J. (2005). Lipolysis in dry‐cured ham: Influence of salt content and processing conditions. Food Chemistry, 90(4), 523–533.

[8] Andres, A. , Cava, R. , Martin, D. , Ventanas, J. , & Ruiz, J. (2005). Lipolysis in dry‐cured ham: Influence of salt content and processing conditions. Food Chemistry, 90(4), 523–533.

[9] AOCS . (1997). AOCS official method Cd 3d‐63: Acid value. Official Methods and Recommended Practices of American Oil Chemist' s Society.

[10] AOCS . (1997). AOCS official method Cd 3d‐63: Acid value. Official Methods and Recommended Practices of American Oil Chemist' s Society.

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Effects of Cuminum cyminum L. essential oil and its nanoemulsion on oxidative stability and microbial growth in mayonnaise during storage

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Effects of Cuminum cyminum L. essential oil and its nanoemulsion on oxidative stability and microbial growth in mayonnaise during storage

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Affiliation

Abstract

Conflict of interest statement

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