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Review
. 2025 Feb 18;14(4):698.
doi: 10.3390/foods14040698.

Lactic Acid Bacteria in Vinegar Fermentation: Diversity, Functionality and Health Benefits

Elahesadat Hosseini  1   2 Zenebe Tadesse Tsegay  3 Slim Smaoui  4 Theodoros Varzakas  5
Affiliations
Review

Lactic Acid Bacteria in Vinegar Fermentation: Diversity, Functionality and Health Benefits

Elahesadat Hosseini et al. Foods. .

Abstract

Vinegar, frequently distilled by solid fermentation or liquid processes, was generated through the synergistic effect of a microbial community in open or semi-open environments. Based on the studied raw materials, researchers distributed the vinegar into three classes: grain, fruit and animal, with lactic acid bacteria (LAB) playing a pivotal role in their fermentation and contributing significantly to their functional and sensory qualities. Typically, the natural maturation of fresh vinegar necessitates a long period and vast space, engendering a reduced efficiency. To accelerate the vinegar aging process, some physical methods, viz. micro-oxygenation, ozone, ultrasound, microwave, gamma rays, infrared, electric fields and high pressure, have been developed. Produced or enriched by LAB, key bioactive vinegar components are organic acids, phenolic compounds, melanoidins, and tetramethylpyrazine. These active compounds have antibacterial, antioxidant, anti-inflammatory functions; aid in the regulation of liver protection metabolism and glucose control; and have blood pressure, anti-tumor, anti-fatigue and metabolic regulatory effects. The review explores advancements in vinegar production, including modernized fermentation processes and optimized aging techniques, which enhance these beneficial compounds and ensure product consistency and safety. By examining the LAB variety strains and the bioactive profiles of different vinegar types, this study highlights vinegar's value beyond a culinary product, as a potential therapeutic agent in human nutrition and health. The findings underscore vinegar's relevance not only in dietary and preventive healthcare but also as a potential functional food ingredient. Further research is needed to explore the mechanisms of action through which LAB contribute to the development of several new healthy vinegars.

Keywords: bioactive compounds; diversity; fermentation; functional food; lactic acid bacteria; vinegar production.

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Conflict of interest statement

The authors declare no conflicts of interest.

Figures

Figure 1
Figure 1
Raw materials and fermentation methods of vinegar production (reproduced from Xia et al. [56] with permission from Journal of Functional Foods, copyright 2020).
Figure 2
Figure 2
Mechanisms of vinegar fermentation and their Impact on final product quality. (A) Fermentation process of traditional Chinese vinegar production (reproduced from Zhang et al. [140] with permission from Food Chemistry, copyright 2024). (B) Biochemical pathways influencing core microbial reactions and vinegar quality during fermentation (reproduced from Shi et al. [130] with permission from LWT, copyright 2022).
Figure 2
Figure 2
Mechanisms of vinegar fermentation and their Impact on final product quality. (A) Fermentation process of traditional Chinese vinegar production (reproduced from Zhang et al. [140] with permission from Food Chemistry, copyright 2024). (B) Biochemical pathways influencing core microbial reactions and vinegar quality during fermentation (reproduced from Shi et al. [130] with permission from LWT, copyright 2022).
Figure 3
Figure 3
Functional qualities and health benefits of vinegar for human consumption.
See this image and copyright information in PMC

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