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Detection, Identification, and Inactivation of Histamine-forming Bacteria in Seafood: A Mini-review

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JOURNAL OF FOOD PROTECTION
卷 86, 期 3, 页码 -

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ELSEVIER
DOI: 10.1016/j.jfp.2023.100049

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Food irradiation; High hydrostatic pressure; Histamine; Histidine; Histidine decarboxylase; Scombroid fish poisoning

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Seafood is an important source of nutrients, but it can be contaminated and cause foodborne illnesses such as scombroid fish poisoning. Histamine-forming bacteria (HFB) in fish muscles and tissues can produce histamine, with Gram-negative HFB being the major contributor to histamine accumulation in seafood. Various methods are available to detect and identify HFB and histamine metabolites, including rapid test kits for early detection. High hydrostatic pressure and irradiation treatment can prevent HFB proliferation and deactivate histidine decarboxylase (HDC) activity, with some sustainable methods like enzymatic degradation and electrolyzed oxidizing water being studied. Further research is needed due to different reactions of HFB to these treatments.
Seafood is one of the essential sources of nutrients for the human diet. However, they can be subject to contamination and can cause foodborne illnesses, including scombroid fish poisoning caused by histamine. Many microorganisms can produce enzymes that eventually decompose endogenous histidine to histamine in postmortem fish muscles and tissues. One of these is histamine-forming bacteria (HFB), primarily found in the gills, gut, and skin of fishes. Previous studies linked a plethora of Gram-negative HFB including Morganella spp. and Photobacterium spp. to scombroid fish poisoning from many types of seafood, especially the Scombridae family. These bacteria possess the hdc gene to produce histidine decarboxylase enzyme. It was reported that Gram-negative HFB produced 6345 ppm in tuna and 1223 ppm in Spanish mackerel. Interestingly, Gram-positive HFB have been isolated in the seafood samples with lower histamine levels. It suggests that Gram-negative HFB are the major contributor to the accumulation of histamine in seafood. Several analytical methods are available to detect and identify HFB and their histamine metabolites from seafood substrates. Rapid test kits can be used in food production settings for early detection of histamine to avoid food intoxication. Furthermore, high hydrostatic pressure and irradiation treatment could prevent the proliferation of HFB and inactivate the existing histidine decarboxylase (HDC) activity. As demonstrated in different seafood model systems, the HDC activity was deactivated at a maximum high hydrostatic pressure level of 400 MPa. The complete inactivation of HFB was achieved by gamma irradiation at a dose of 4.0 kGy. Other postharvest treatments, like enzymatic degradation and electrolyzed oxidizing water, were studied as sustainable methods for bacterial growth prevention and enzyme inactivation. However, other HFB react differently to these treatment conditions, and further studies are recommended.

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