2015 journal article
Control of Histamine-Producing Bacteria and Histamine Formation in Fish Muscle by Trisodium Phosphate
JOURNAL OF FOOD SCIENCE, 80(6), M1253–M1258.
author keywords: bacteria; barrier; fish; histamine; histidine decarboxylase; pH
MeSH headings : Animals; Bacteria / drug effects; Bacteria / growth & development; Bacteria / metabolism; Food Contamination / analysis; Food Handling / methods; Foodborne Diseases / microbiology; Histamine / metabolism; Marine Toxins / metabolism; Marine Toxins / poisoning; Muscles / metabolism; Perciformes / microbiology; Phosphates / pharmacology; Seafood / analysis; Seafood / microbiology; Tuna / microbiology
TL;DR:
It is revealed that phosphate treatment of mahi-mahi and tuna fish muscle resulted in significantly lower histamine production over 4 d of storage at 10 °C, which may serve as a secondary barrier in addition to FDA recommended time and temperature controls for reducing public health concerns of scombrotoxin fish poisoning.
(via Semantic Scholar)
UN Sustainable Development Goal Categories
14. Life Below Water
(OpenAlex)
Source: Web Of Science
Added: August 6, 2018
AbstractScombrotoxin fish poisoning remains the primary cause of seafood poisoning outbreaks despite preventive guidelines. The purpose of this study was to investigate the use of pH for the control of growth and histamine formation by histamine‐producing bacteria in fish muscle. We examined pH effects on growth and histamine formation in tuna fish infusion broth and in inoculated tuna and mahi‐mahi fish muscle. Histamine production was significantly less for all bacterial strains at pH 8.5 compared to pH 5.5 in tuna fish infusion broth with no significant difference in growth. Elevated pH due to phosphate treatment of fish muscle tissues significantly reduced histamine formation with no effect on the growth of histamine‐producing bacteria. This study revealed that phosphate treatment of mahi‐mahi and tuna fish muscle resulted in significantly lower histamine production over 4 d of storage at 10 °C. Phosphate treatment of fish muscle may serve as a secondary barrier in addition to FDA recommended time and temperature controls for reducing public health concerns of scombrotoxin fish poisoning.