Ronald A. Benner

Effects of on-board and dockside handling on the formation of biogenic amines in mahimahi (Coryphaena hippurus), skipjack tuna (Katsuwonus pelamis), and yellowfin tuna (Thunnus albacares).

Consumer illnesses by scombroid poisonings have been a continuing problem for many years. The intoxications follow the ingestion of fish such as tuna and mahimahi that have undergone bacterial decomposition, leading to the formation of biogenic amines. Research studies have concluded that histamine is one of the indicators of scombrotoxic fish and that other amines, such as cadaverine, could be involved in the illnesses. Guidance for the handling of fish on board fishing vessels to prevent the production of scombrotoxic fish has been limited by a lack of data addressing changes that occur in fish from the water to delivery at dockside. In this study, the changes in selected biogenic amines were determined in mahimahi and tuna, which were captured and held in seawater at 25 to 35 degrees C for incubation times up to 18 h. The fillets from the treated fish were sectioned by transverse cuts and analyzed for histamine, cadaverine, and putrescine. Results showed that at 26 degrees C, more than 12 h of incubation were required before a histamine concentration of 50 ppm was reached in mahimahi. At 35 degrees C, 50 ppm histamine formed within 9 h. Similar results were found for skipjack and yellowfin tuna. Histamine concentrations exceeded 500 ppm within an additional 3 h of incubation in mahimahi. At both temperatures, an increase in the concentration of cadaverine preceded an increase in histamine levels. Changes in putrescine concentrations in the fish were less pronounced. The study also demonstrated that histidine decarboxylase activity was retained in some frozen samples of fish and could result in further increases in histamine on thawing.

An Updated Review of Ciguatera Fish Poisoning: Clinical, Epidemiological, Environmental, and Public Health Management

Ciguatera Fish Poisoning (CFP) is the most frequently reported seafood-toxin illness in the world. It causes substantial human health, social, and economic impacts. The illness produces a complex array of gastrointestinal, neurological and neuropsychological, and cardiovascular symptoms, which may last days, weeks, or months. This paper is a general review of CFP including the human health effects of exposure to ciguatoxins (CTXs), diagnosis, human pathophysiology of CFP, treatment, detection of CTXs in fish, epidemiology of the illness, global dimensions, prevention, future directions, and recommendations for clinicians and patients. It updates and expands upon the previous review of CFP published by Friedman et al. (2008) and addresses new insights and relevant emerging global themes such as climate and environmental change, international market issues, and socioeconomic impacts of CFP. It also provides a proposed universal case definition for CFP designed to account for the variability in symptom presentation across different geographic regions. Information that is important but unchanged since the previous review has been reiterated. This article is intended for a broad audience, including resource and fishery managers, commercial and recreational fishers, public health officials, medical professionals, and other interested parties.

Toxigenic Vibrio cholerae O1 in Water and Seafood, Haiti

During the 2010 cholera outbreak in Haiti, water and seafood samples were collected to detect Vibrio cholerae. The outbreak strain of toxigenic V. cholerae O1 serotype Ogawa was isolated from freshwater and seafood samples. The cholera toxin gene was detected in harbor water samples.

Development of a real-time PCR assay with an internal amplification control for detection of Gram-negative histamine-producing bacteria in fish

Prompt detection of bacteria that contribute to scombrotoxin (histamine) fish poisoning can aid in the detection of potentially toxic fish products and prevent the occurrence of illness. We report development of the first real-time PCR method for rapid detection of Gram-negative histamine-producing bacteria (HPB) in fish. The real-time PCR assay was 100% inclusive for detecting high-histamine producing isolates and did not detect any of the low- or non-histamine producing isolates. The efficiency of the assay with/without internal amplification control ranged from 96-104% and in the presence of background flora and inhibitory matrices was 92/100% and 73-96%, respectively. This assay was used to detect HPB from naturally contaminated yellowfin tuna, bluefish, and false albacore samples. Photobacterium damselae (8), Plesiomonas shigelloides (2), Shewanella sp. (1), and Morganella morganii (1) were subsequently isolated from the real-time PCR positive fish samples. These results indicate that the real-time PCR assay developed in this study is a rapid and sensitive method for detecting high-HPB. The assay may be adapted for quantification of HPB, either directly or with an MPN-PCR method.

Prevalence and Characterization of High Histamine-Producing Bacteria in Gulf of Mexico Fish Species.

Recent developments in detection and enumeration of histamine-producing bacteria (HPB) have created powerful molecular-based tools to better understand the presence of spoilage bacteria and conditions, resulting in increased risk of scombrotoxin fish poisoning. We examined 235 scombrotoxin-forming fish from the Gulf of Mexico for the presence of high HPB. Photobacterium damselae subsp. damselae was the most prevalent HPB (49%), followed by Morganella morganii (14%), Enterobacter aerogenes (4%), and Raoultella planticola (3%). The growth characteristics and histamine production capabilities of the two most prevalent HPB were further examined. M. morganii and P. damselae had optimum growth at 35°C and 30 to 35°C and 0 to 2% and 1 to 3% NaCl, respectively. P. damselae produced significantly (P < 0.001) higher histamine than M. morganii in inoculated mahimahi and Spanish mackerel incubated at 30°C for 24 h, but histamine production was not significantly different between the two HPB in inoculated tuna, possibly due to differences in muscle composition and salt content. Results in this study showed that P. damselae was the most prevalent high HPB in Gulf of Mexico fish. In addition, previously reported results using the traditional Nivens method may underreport the prevalence of P. damselae. Molecular-based methods should be used in addition to culture-based methods to enhance detection and enumeration of HPB.

Draft Genome Sequences of Histamine-Producing Photobacterium kishitanii and Photobacterium angustum, Isolated from Albacore (Thunnus alalunga) and Yellowfin (Thunnus albacares) Tuna

ABSTRACT Histamine-producing bacteria are responsible for scombrotoxin (histamine) fish poisoning, a leading cause of fish poisoning in the United States. We report here the draft genome sequences of four histamine-producing (HP) Photobacterium kishitanii strains and nine HP Photobacterium angustum strains isolated from tuna.

Storage Time and Temperature Effects on Histamine Production in Tuna Salad Preparations

Scombrotoxin fish poisoning (SFP), also known as histamine (Hst) poisoning, has been associated with consumption of scombroid-type fish, including tuna and tuna fish products. Preparation of commercial tuna salad contaminated with Hstproducing bacteria (HPB), combined with time-temperature abuse, can present a food safety hazard. A potential source of HPB is raw ingredients, such as celery and onions. The objectives of this study were to determine whether raw ingredients can be a source of HPB and to ascertain the effects of storage time (up to 4 days or 4 weeks) and temperature (4, 10, 18, 25, 30°C) on growth and Hst production by high-HPB (>1,000 ppm of Hst) in tuna salad preparations. Pantoea-Erwinia, Erwinia persicinus, Erwinia spp., and Enterobacter pyrinus isolated from celery in this study were used to inoculate tuna salad and tuna salad with celery or onion. HPB numbers were 0.7 to 4.3 log most probable number per g higher in the presence of celery or onion versus plain tuna salad (3:1 tuna:mayonnaise). E. pyrinus-inoculated plain tuna salad and tuna salad with celery and onion had >500 ppm of Hst after 2 days at 30°C and 4 days at 25°C. E. pyrinus-inoculated salad with celery and onion had >500 ppm of Hst after 4 days at 18°C and 2 weeks at 10°C. Raw celery can introduce HPB into tuna salad, which can cause SFP if the product is time-temperature abused. Tuna salad products must be refrigerated at ≤4°C to prevent growth and Hst production by the HPB used in this study, to protect consumers from potential SFP.

Importance of Histamine-Producing Clostridium perfringens in Scombrotoxin-Forming Fish

It has been suggested that anaerobic histamine-producing bacteria (HPB) are important contributors to scombrotoxin fish poisoning (SFP). In order to assess the role of Clostridium perfringens in SFP, we developed a real-time PCR method for rapid detection of histamine-producing (HP) C. perfringens. The real-time PCR assay was 100% inclusive for detecting 23 HP C. perfringens and did not detect any of the other 116 HP or non-HP isolates examined. The efficiency of the assay with or without internal amplification control DNA was 102%; in the presence of background flora and inhibitory matrices, it was 90 to 99%. To investigate the importance of HP C. perfringens in SFP, we examined histamine production by C. perfringens in inoculated fish samples incubated under anaerobic conditions. C. perfringens produced low histamine levels in tuna (19 ppm) and Spanish mackerel (3 ppm), whereas gram-negative HPB produced high histamine levels (6,345 ppm in tuna; 1,223 ppm in Spanish mackerel) under the same conditions. When one bonito, two bigeye tuna, nine mahi-mahi, and five yellowfin tuna were examined for the presence of HPB, none (0 of 17) of the samples contained HP C. perfringens or other gram-positive HPB, whereas 86% of the samples contained gram-negative HPB. Our study indicates that histamine production by C. perfringens in scombrotoxin-forming fish was minimal compared with that by gram-negative HPB and that C. perfringens may not be an important bacterial species associated with SFP.

Analysis of Chloramphenicol and Two Metabolites in Crab and Shrimp Following Waterborne Exposure

The use of chloramphenicol (CAP) in aquaculture products is banned in many countries, including the United States, due to human health issues. Very few depletion and metabolism studies of CAP in seafood have been performed. Current detection methods for CAP residues in food are directed toward the parent drug molecule, but rapid elimination following treatment suggests the need for an alternative marker residue. We identified, characterized, and determined the persistence of two CAP metabolites, CAP-base (CAP-B) and CAP-alcohol (CAP-OH), in crab and shrimp. Interday recoveries of CAP, CAP-B, and CAP-OH in muscle fortified ( n = 9) at levels of 0.15 to 0.60 ng/g ranged from 95 to 127% and 101 to 119% for crab and shrimp, respectively, with repeatability ranging from 4 to 19%. The limit of detection for CAP and metabolites in crab and shrimp ranged from 0.05 to 0.11 ng/g. We also monitored the depletion of CAP, CAP-B, and CAP-OH in crab following waterborne exposures. To our knowledge, we present the first CAP depletion and metabolite study following waterborne exposure in crabs, with the aim of identifying alternative marker residues.

Heat Resistance of Histidine Decarboxylase from Gram-Negative Histamine-Producing Bacteria in Seafood

Precooking of tuna is a potential critical control point (CCP) in the commercial manufacturing of canned tuna. To assess the efficacy of precooking as a CCP, an understanding of the thermal properties of histamine-producing bacteria (HPB) and their histidine decarboxylase (HDC) enzymes is required. The thermal properties of many HPB have been determined, but the thermal resistances of the HDC enzymes are unknown. The purpose of this study was to determine the D- and z-values of selected HDC enzymes to evaluate the CCP of precooking during the canning process and provide scientific data to support U.S. Food and Drug Administration guidelines. HDC (hdc) genes from three strains each of Morganella morganii, Enterobacter aerogenes, Raoultella planticola, and Photobacterium damselae were cloned, expressed, and purified using the Champion pET Directional TOPO Expression System, pET100 cloning vector, and HisPur Cobalt resin. The heat resistances of all enzymes were compared at 50°C, and the D- and z-values from one strain of each HPB were determined at 50 to 60°C. To evaluate the heat inactivation of HDC enzymes during canned tuna processing, tuna tissue was inoculated with HDCs and heated to 60°C in a water bath set at 65 and 100°C. The D-values for the HDC enzymes from M. morganii, E. aerogenes, R. planticola, and P. damselae ranged from 1.6 to 4.1, 1.6 to 6.3, 1.9 to 4.3, and 1.6 to 2.9 min, respectively, at 50 to 60°C. The z-values for M. morganii, E. aerogenes, R. planticola, and P. damselae were 19.2, 18.0, 22.0, and 13.3°C, respectively. The HDCs from all HPB except E. aerogenes showed no significant activity after being heated to 60°C. The data generated in this study will help refine current guidelines for the thermal destruction of the HDC enzymes.