John C. Bowers scite author profile

Recent Vibrio parahaemolyticus outbreaks associated with consumption of raw shellfish in the United States focused attention on the occurrence of this organism in shellfish. From March 1999 through September 2000, paired oyster samples were collected biweekly from two shellfish-growing areas in Mobile Bay, Ala. The presence and densities of V. parahaemolyticus were determined by using DNA probes targeting the thermolabile hemolysin (tlh) and thermostable direct hemolysin (tdh) genes for confirmation of total and pathogenic V. parahaemolyticus, respectively. V. parahaemolyticus was detected in all samples with densities ranging from <10 to 12,000 g ؊1 . Higher V. parahaemolyticus densities were associated with higher water temperatures. Pathogenic strains were detected in 34 (21.8%) of 156 samples by direct plating or enrichment. Forty-six of 6,018 and 31 of 6,992 V. parahaemolyticus isolates from enrichments and direct plates, respectively, hybridized with the tdh probe. There was an apparent inverse relationship between water temperature and the prevalence of pathogenic strains. Pathogenic strains were of diverse serotypes, and 97% produced urease and possessed a tdh-related hemolysin (trh) gene. The O3:K6 serotype associated with pandemic spread and recent outbreaks in the United States was not detected. The efficient screening of numerous isolates by colony lift and DNA probe procedures may account for the higher prevalence of samples with tdh ؉ V. parahaemolyticus than previously reported.Vibrio parahaemolyticus is a gram-negative, halophilic bacterium that occurs naturally in estuarine environments worldwide (21). Its densities in the environment and seafoods vary greatly by season, location, sample type, fecal pollution, and analytical methodology (5, 8-10, 14, 21, 22, 36). Pathogenic V. parahaemolyticus generally produces a thermostable direct hemolysin (TDH), the product of the tdh gene (20). More than 90% of clinical V. parahaemolyticus isolates but fewer than 1% of food or environmental strains produce TDH or possess tdh (9,10,14,22,26,31,35). The frequency of TDH or tdh detection in environmental samples and seafoods ranges from 0 to 6% (5,14,22,26,31,34). Quantitative data for tdh ϩ V. parahaemolyticus have been reported in only one study and are based on one or two isolates from each of four oyster samples (10).A series of oyster-associated outbreaks of V. parahaemolyticus (3, 4, 6, 7) in 1997 (Washington State) and 1998 (Texas, New York and Connecticut, and Washington State) prompted the development of nonradioactive DNA probes (28, 29) and direct-plating methods for rapid and efficient determination of the abundance of total and pathogenic V. parahaemolyticus in oysters. The Food and Drug Administration (FDA) initiated a surveillance program using these new methods in Alabama in March 1999. The objective of this study was to correlate quantitative data on the abundance of total and pathogenic V. parahaemolyticus with each other and with environmental parameters such as water temperature and salini...

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Ecology of Vibrio parahaemolyticus and Vibrio vulnificus in the Coastal and Estuarine Waters of Louisiana, Maryland, Mississippi, and Washington (United States)

Johnson

Bowers

Griffitt

et al. 2012

Appl Environ Microbiol

191

183

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f Vibrio parahaemolyticus and Vibrio vulnificus, which are native to estuaries globally, are agents of seafood-borne or wound infections, both potentially fatal. Like all vibrios autochthonous to coastal regions, their abundance varies with changes in environmental parameters. Sea surface temperature (SST), sea surface height (SSH), and chlorophyll have been shown to be predictors of zooplankton and thus factors linked to vibrio populations. The contribution of salinity, conductivity, turbidity, and dissolved organic carbon to the incidence and distribution of Vibrio spp. has also been reported. Here, a multicoastal, 21-month study was conducted to determine relationships between environmental parameters and V. parahaemolyticus and V. vulnificus populations in water, oysters, and sediment in three coastal areas of the United States. Because ecologically unique sites were included in the study, it was possible to analyze individual parameters over wide ranges. Molecular methods were used to detect genes for thermolabile hemolysin (tlh), thermostable direct hemolysin (tdh), and tdh-related hemolysin (trh) as indicators of V. parahaemolyticus and the hemolysin gene vvhA for V. vulnificus. SST and suspended particulate matter were found to be strong predictors of total and potentially pathogenic V. parahaemolyticus and V. vulnificus. Other predictors included chlorophyll a, salinity, and dissolved organic carbon. For the ecologically unique sites included in the study, SST was confirmed as an effective predictor of annual variation in vibrio abundance, with other parameters explaining a portion of the variation not attributable to SST.

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Environmental Investigations of Vibrio parahaemolyticus in Oysters after Outbreaks in Washington, Texas, and New York (1997 and 1998)

DePaola

Kaysner

Bowers

et al. 2000

Appl Environ Microbiol

266

186

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Total Vibrio parahaemolyticus densities and the occurrence of pathogenic strains in shellfish were determined following outbreaks in Washington, Texas, and New York. Recently developed nonradioactive DNA probes were utilized for the first time for direct enumeration of V. parahaemolyticus in environmental shellfish samples. V. parahaemolyticus was prevalent in oysters from Puget Sound, Wash.; Galveston Bay, Tex.; and Long Island Sound, N.Y., in the weeks following shellfish-associated outbreaks linked to these areas. However, only two samples (one each from Washington and Texas) were found to harbor total V. parahaemolyticus densities exceeding the level of concern of 10,000 g ؊1 . Pathogenic strains, defined as those hybridizing with tdh and/or trh probes, were detected in a few samples, mostly Puget Sound oysters, and at low densities (usually <10 g ؊1 ). Intensive sampling in Galveston Bay demonstrated relatively constant water temperature (27.8 to 31.7°C) and V. parahaemolyticus levels (100 to 1,000 g ؊1 ) during the summer. Salinity varied from 14.9 to 29.3 ppt. A slight but significant (P < 0.05) negative correlation (؊0.25) was observed between V. parahaemolyticus density and salinity. Based on our data, findings of more than 10,000 g ؊1 total V. parahaemolyticus or >10 g ؊1 tdh-and/or trh-positive V. parahaemolyticus in environmental oysters should be considered extraordinary.

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Relationships between Environmental Factors and Pathogenic Vibrios in the Northern Gulf of Mexico

Johnson

Flowers

Noriea

et al. 2010

Appl Environ Microbiol

197

171

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Although autochthonous vibrio densities are known to be influenced by water temperature and salinity, little is understood about other environmental factors associated with their abundance and distribution. Densities of culturable Vibrio vulnificus containing vvh (V. vulnificus hemolysin gene) and V. parahaemolyticus containing tlh (thermolabile hemolysin gene, ubiquitous in V. parahaemolyticus), tdh (thermostable direct hemolysin gene, V. parahaemolyticus pathogenicity factor), and trh (tdh-related hemolysin gene, V. parahaemolyticus pathogenicity factor) were measured in coastal waters of Mississippi and Alabama. Over a 19-month sampling period, vibrio densities in water, oysters, and sediment varied significantly with sea surface temperature (SST). On average, tdh-to-tlh ratios were significantly higher than trh-to-tlh ratios in water and oysters but not in sediment. Although tlh densities were lower than vvh densities in water and in oysters, the opposite was true in sediment. Regression analysis indicated that SST had a significant association with vvh and tlh densities in water and oysters, while salinity was significantly related to vibrio densities in the water column. Chlorophyll a levels in the water were correlated significantly with vvh in sediment and oysters and with pathogenic V. parahaemolyticus (tdh and trh) in the water column. Furthermore, turbidity was a significant predictor of V. parahaemolyticus density in all sample types (water, oyster, and sediment), and its role in predicting the risk of V. parahaemolyticus illness may be more important than previously realized. This study identified (i) culturable vibrios in winter sediment samples, (ii) niche-based differences in the abundance of vibrios, and (iii) predictive signatures resulting from correlations between environmental parameters and vibrio densities.Vibrio spp. occur naturally in estuarine and marine environments, and two species of this genus, V. vulnificus and V. parahaemolyticus, are responsible for the majority of reported vibrio illnesses in the United States (2). V. vulnificus infections are most commonly associated with the Gulf of Mexico, either via consumption of raw oysters harvested from these waters or wound infections following exposure to seawater. On average, about 50 cases of V. vulnificus septicemia are reported in the United States each year, with a case fatality rate of approximately 50% (31), the highest of any food-borne pathogen. In contrast, V. parahaemolyticus is the most common cause of seafood-associated bacterial gastroenteritis in the United States, with an estimated annual rate of 4,500 cases per year according to the Centers for Disease Control and Prevention. V. parahaemolyticus also causes wound infections, though these are less frequent and less severe compared to those caused by V. vulnificus (5). Primary septicemia can occur following V. parahaemolyticus infection, but it is relatively rare for this pathogen. In the United States, V. parahaemolyticus illness most often results from consumption of r...

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Seasonal distribution of total and pathogenic Vibrio parahaemolyticus in Chesapeake Bay oysters and waters

Parveen

Hettiarachchi

Bowers

et al. 2008

International Journal of Food Microbiology

169

137

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John C. Bowers

Seasonal Abundance of Total and Pathogenic Vibrio parahaemolyticus in Alabama Oysters

Ecology of Vibrio parahaemolyticus and Vibrio vulnificus in the Coastal and Estuarine Waters of Louisiana, Maryland, Mississippi, and Washington (United States)

Environmental Investigations of Vibrio parahaemolyticus in Oysters after Outbreaks in Washington, Texas, and New York (1997 and 1998)

Relationships between Environmental Factors and Pathogenic Vibrios in the Northern Gulf of Mexico

Seasonal distribution of total and pathogenic Vibrio parahaemolyticus in Chesapeake Bay oysters and waters

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