Your search keyword '"Shellfish Poisoning epidemiology"' showing total 60 results

1. Biogeochemical conditions controlling the intensity of paralytic shellfish poisoning (PSP) outbreak caused by Alexandrium blooms: Results from 6-year field observations in Jinhae-Masan Bay, Korea.

Author

Lee H, Kim G, Baek C, Yeo BH, Park J, Son M, Park TG, Youn SH, Lim WA, and Kwon HK

Subjects

Republic of Korea epidemiology, Harmful Algal Bloom, Disease Outbreaks, Nitrogen analysis, Marine Toxins analysis, Dinoflagellida, Shellfish Poisoning epidemiology, Bays, Environmental Monitoring

Abstract

Previous field observations from 2018 to 2019 revealed that paralytic shellfish poisoning (PSP) caused by the blooms of toxic dinoflagellate Alexandrium species occurred under low concentrations of dissolved inorganic nitrogen (DIN) and high concentrations of dissolved organic nitrogen (DON) and humic-like fluorescent dissolved organic matter (FDOM H ) in Jinhae-Masan Bay, Korea. In this study, we obtained more data for DIN, DON, FDOM H , and Alexandrium cell density from 2020 to 2023 to further validate environmental conditions for the PSP outbreak. We also measured total hydrolyzed amino acids (THAA) to determine the bioavailability of DON fueling the PSP outbreak. Over the 6-year observations, there was a consistent pattern of low DIN concentrations and high DON and FDOM H concentrations during the PSP outbreak periods. The Alexandrium cell densities, together with the PSP toxin concentrations, increased rapidly under this environmental condition. The PSP outbreak occurs when a large amount of DIN originating from the stream waters near the upstream sites is transformed into DON by biological production before entering the PSP outbreak area. The produced DON is characterized by high bioavailability based on the various AA-derived indices (enantiomeric ratio, degradation index, non-protein AA mole%, and nitrogen-normalized AA yield). In addition, the intensities of PSP outbreaks are mainly dependent on the conversion stage of DIN to DON and enhanced FDOM H . We found that the strong PSP outbreak occurred consistently under a low level of DIN (<1.0 μM) and high levels of DON (>9.0 μM) and FDOM H (>1.5 R.U.). Thus, our results suggest that the monitoring data of environmental conditions can be used to predict the PSP outbreak in the coastal oceans., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

2. Vibrio parahaemolyticus Foodborne Illness Associated with Oysters, Australia, 2021-2022.

Author

Fearnley E, Leong LEX, Centofanti A, Dowsett P, Combs BG, Draper ADK, Hocking H, Howden B, Horan K, Wilmot M, Levy A, Cooley LA, Kennedy KJ, Wang Q, Arnott A, Graham RMA, Sinchenko V, Jennison AV, Kane S, and Wright R

Subjects

Humans, Animals, Australia epidemiology, Male, Adult, Female, Middle Aged, Adolescent, Young Adult, Aged, Child, Child, Preschool, Shellfish microbiology, Infant, Shellfish Poisoning epidemiology, Food Microbiology, Vibrio parahaemolyticus classification, Vibrio parahaemolyticus isolation & purification, Ostreidae microbiology, Vibrio Infections epidemiology, Vibrio Infections microbiology, Foodborne Diseases epidemiology, Foodborne Diseases microbiology, Disease Outbreaks

Abstract

The bacterium Vibrio parahaemolyticus is ubiquitous in tropical and temperate waters throughout the world and causes infections in humans resulting from water exposure and from ingestion of contaminated raw or undercooked seafood, such as oysters. We describe a nationwide outbreak of enteric infections caused by Vibrio parahaemolyticus in Australia during September 2021-January 2022. A total of 268 persons were linked with the outbreak, 97% of whom reported consuming Australia-grown oysters. Cases were reported from all states and territories of Australia. The outbreak comprised 2 distinct strains of V. parahaemolyticus, sequence types 417 and 50. We traced oysters with V. parahaemolyticus proliferation back to a common growing region within the state of South Australia. The outbreak prompted a national recall of oysters and subsequent improvements in postharvest processing of the shellfish.

Published

2024

3. An Occurrence and Exposure Assessment of Paralytic Shellfish Toxins from Shellfish in Zhejiang Province, China.

Author

Weng Q, Zhang R, Wu P, Chen J, Pan X, Zhao D, Wang J, Zhang H, Qi X, Wu X, Han J, and Zhou B

Subjects

Animals, Child, Humans, Child, Preschool, Shellfish analysis, Seafood, Saxitoxin analysis, Marine Toxins toxicity, China, Shellfish Poisoning epidemiology, Bivalvia

Abstract

The intake of paralytic shellfish toxins (PSTs) may adversely affect human health. Therefore, this study aimed to show the prevalence of PSTs from commercially available shellfish in Zhejiang Province, China, during the period of frequent red tides, investigate the factors affecting the distribution of PSTs, and assess the risk of PST intake following the consumption of bivalve shellfish among the Zhejiang population. A total of 546 shellfish samples were collected, 7.0% of which had detectable PSTs at concentrations below the regulatory limit. Temporal, spatial, and interspecific variations in the occurrence of PSTs were observed in some cases. The dietary exposure to PSTs among the general population of consumers only was low. However, young children in the extreme scenario (the 95th percentile of daily shellfish consumption combined with the maximum PST concentration), defined as 89-194% of the recommended acute reference doses, were possibly at risk of exposure. Notably, Arcidae and mussels were the major sources of exposure to toxins. From the public health perspective, PSTs from commercially available shellfish do not pose a serious health risk; however, more attention should be paid to acute health risks, especially for young children, during periods of frequent red tides.

Published

2023

4. SoundToxins: A Research and Monitoring Partnership for Harmful Phytoplankton in Washington State.

Author

Trainer VL and King TL

Subjects

Humans, Phytoplankton, Washington, Shellfish analysis, Seafood analysis, Harmful Algal Bloom, Shellfish Poisoning epidemiology, Shellfish Poisoning etiology, Dinoflagellida

Abstract

The more frequent occurrence of marine harmful algal blooms (HABs) and recent problems with newly-described toxins in Puget Sound have increased the risk for illness and have negatively impacted sustainable access to shellfish in Washington State. Marine toxins that affect safe shellfish harvest because of their impact on human health are the saxitoxins that cause paralytic shellfish poisoning (PSP), domoic acid that causes amnesic shellfish poisoning (ASP), diarrhetic shellfish toxins that cause diarrhetic shellfish poisoning (DSP) and the recent measurement of azaspiracids, known to cause azaspiracid poisoning (AZP), at low concentrations in Puget Sound shellfish. The flagellate, Heterosigma akashiwo , impacts the health and harvestability of aquacultured and wild salmon in Puget Sound. The more recently described flagellates that cause the illness or death of cultivated and wild shellfish, include Protoceratium reticulatum , known to produce yessotoxins, Akashiwo sanguinea and Phaeocystis globosa . This increased incidence of HABs, especially dinoflagellate HABs that are expected in increase with enhanced stratification linked to climate change, has necessitated the partnership of state regulatory programs with SoundToxins, the research, monitoring and early warning program for HABs in Puget Sound, that allows shellfish growers, Native tribes, environmental learning centers and citizens, to be the "eyes on the coast". This partnership enables safe harvest of wholesome seafood for consumption in the region and helps to describe unusual events that impact the health of oceans, wildlife and humans.

Published

2023

5. Twenty-Five Years of PSP Toxicity in Galician (NW Spain) Bivalves: Spatial, Temporal, and Interspecific Variations.

Author

Blanco J, Moroño Á, Arévalo F, Correa J, Salgado C, Pazos Y, Calvo S, and Rossignoli AE

Subjects

Animals, Shellfish Poisoning epidemiology, Shellfish Poisoning etiology, Spain epidemiology, Bivalvia parasitology, Dinoflagellida chemistry, Dinoflagellida physiology

Abstract

Twenty-five years of paralytic shellfish poisoning (PSP) toxicity in Galician bivalves have been studied. PSP was detected in 4785 out of 73,740 samples of the commercially important bivalve species analyzed from 1995 to 2020. Its general prevalence in the area was 6.5%. Only 1.6% of all samples tested were over the regulatory limit (incidence). The maximum level of PSP in the area, 40,800 µg STX 2HCl-eq kg -1 , was recorded in raft mussels from Bueu (PON-II, Pontevedra) in December 2005. The highest maximum PSP values were found in mussels, which were mostly affected by Gymnodinium catenatum , but not those of prevalence and incidence which were recorded in clams, mostly affected by Alexandrium . Average levels in mussels were higher than in any other studied species. Spatially, in general, the prevalence, incidence, maximum, and average PSP toxicity during episodes tend to decrease from south to northeast, but some hot points with high levels can be identified. PCA analysis separates the southern rías, associated to G. catenatum blooms, from the middle and northern ones, associated to Alexandrium blooms. Along the year, two main peaks of the four variables are observed, the first one in late autumn-winter and the other in summer, the summer peak being much more important for the infaunal species than for raft mussels. In the seasonal pattern obtained by time series analysis of the average PSP toxicity, the autumn-winter peak was only maintained (and very reduced) in the southern rías, indicating that this peak is seasonally much less important than the summer peak. The observed seasonality is expected based on the timing of the blooms of the two PSP-producing phytoplankton groups present in the area. Over the 25 years of monitoring, large differences in PSP toxicity have been observed. Apart from some special years, an ascending trend in prevalence and incidence seems to be present from 2011 to 2020. No trend seems to exist during the same period for average or maximum toxicity.

Published

2022

6. Human poisonings by neurotoxic phycotoxins related to the consumption of shellfish: study of cases registered by the French Poison Control Centres from 2012 to 2019.

Author

Sinno-Tellier S, Abadie E, de Haro L, Paret N, Langrand J, Le Roux G, Labadie M, Boels D, Bloch J, and Delcourt N

Subjects

Animals, Humans, Marine Toxins analysis, Poison Control Centers, Retrospective Studies, Shellfish analysis, Bivalvia, Shellfish Poisoning diagnosis, Shellfish Poisoning epidemiology

Abstract

Context: In June 2019, a paralytic shellfish poisoning (PSP) case related to the consumption of mussels contaminated by saxitoxins at a concentration below the regulatory threshold came to the attention of the French Agency for Food, Environmental and Occupational Health and Safety (ANSES). This pointed to probable undetected human cases of poisoning by neurotoxic phycotoxins., Methods: We conducted a retrospective study of poisoning cases by bivalve shellfish (oysters, mussels and scallops) recorded by the French Poison Control Centres (PCC) from 2012 to 2019. All medical records were reviewed by a toxicologist.Cases that could be related to neurotoxic phycotoxins were selected and described. Diagnosis was based on symptoms compatible with ingestion of contaminated shellfish and on contamination data for the shellfish production area (analysed by the French Research Institute for Exploitation of the Sea, Ifremer), or notifications to the European Rapid Alert System for Food and Feed when the origin of the shellfish was known., Results: Among the 619 shellfish poisoning cases recorded by the PCCs from 2012 to 2019, 22% ( n  = 134) had reported at least one neurological symptom (headache, dizziness or paraesthesia). Review of medical records for the 134 patients led to suspicion of 14 cases of PSP and one case of amnesic shellfish poisoning. Five patients experienced persistent neurological symptoms. Marine toxins were not tested for in the blood or urine of these patients., Conclusion: This retrospective identification of cases strongly suspected of being related to neurotoxic phycotoxins led ANSES, PCCs and Ifremer to develop a specific questionnaire and to recommend actions to take when neurological symptoms related to shellfish consumption are reported to a PCC. Daily monitoring of shellfish poisoning cases registered in the national PCCs database was also implemented in order to rapidly detect any suspicious cases, alert the competent authorities, and warn the general population.

Published

2022

7. Current Situation of Palytoxins and Cyclic Imines in Asia-Pacific Countries: Causative Phytoplankton Species and Seafood Poisoning.

Author

Kim YS, An HJ, Kim J, and Jeon YJ

Subjects

Humans, Imines, Marine Toxins, Phytoplankton, Seafood, Shellfish analysis, Foodborne Diseases epidemiology, Shellfish Poisoning epidemiology

Abstract

Among marine biotoxins, palytoxins (PlTXs) and cyclic imines (CIs), including spirolides, pinnatoxins, pteriatoxins, and gymnodimines, are not managed in many countries, such as the USA, European nations, and South Korea, because there are not enough poisoning cases or data for the limits on these biotoxins. In this article, we review unregulated marine biotoxins (e.g., PlTXs and CIs), their toxicity, causative phytoplankton species, and toxin extraction and detection protocols. Due to global warming, the habitat of the causative phytoplankton has expanded to the Asia-Pacific region. When ingested by humans, shellfish that accumulated toxins can cause various symptoms (muscle pain or diarrhea) and even death. There are no systematic reports on the occurrence of these toxins; however, it is important to continuously monitor causative phytoplankton and poisoning of accumulating shellfish by PlTXs and CI toxins because of the high risk of toxicity in human consumers.

Published

2022

8. Changing Trends in Paralytic Shellfish Poisonings Reflect Increasing Sea Surface Temperatures and Practices of Indigenous and Recreational Harvesters in British Columbia, Canada.

Author

McIntyre L, Miller A, and Kosatsky T

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Animals, British Columbia epidemiology, Child, Female, Humans, Male, Marine Toxins adverse effects, Middle Aged, Occupational Diseases etiology, Oceans and Seas, Recreation, Shellfish Poisoning etiology, Temperature, Young Adult, Occupational Diseases epidemiology, Shellfish, Shellfish Poisoning epidemiology

Abstract

Paralytic shellfish poisoning (PSP) occurs when shellfish contaminated with saxitoxin or equivalent paralytic shellfish toxins (PSTs) are ingested. In British Columbia, Canada, documented poisonings are increasing in frequency based on 62 investigations identified from 1941-2020. Two PSP investigations were reported between 1941 and 1960 compared to 31 since 2001 ( p < 0.0001) coincident with rising global temperatures ( r 2 = 0.76, p < 0.006). The majority of PSP investigations (71%) and cases (69%) were linked to self-harvested shellfish. Far more investigations involved harvests by indigenous communities (24%) than by commercial and recreational groups. Single-case-exposure investigations increased by more than 3.5 times in the decade 2011-2020 compared to previous periods. Clams (47%); mussels (26%); oysters (14%); scallops (6%); and, in more recent years, crabs (4%) were linked to illnesses. To guide understanding of self-harvesting consumption risks, we recommend collecting data to determine when PST-producing algae are present in high concentrations, improving the quality of data in online shellfish harvest maps to include dates of last testing; biotoxin testing results; and a description of bivalve species tested. Over reliance on toxin results in biomonitored species may not address actual consumption risks for unmonitored species harvested from the same area. We further recommend introducing phytoplankton monitoring in remote indigenous communities where self-harvesting is common and toxin testing is unavailable, as well as continuing participatory education about biotoxin risks in seafoods.

Published

2021

9. An occurrence of neurotoxic shellfish poisoning by consumption of gastropods contaminated with brevetoxins.

Author

Abraham A, Flewelling LJ, El Said KR, Odom W, Geiger SP, Granholm AA, Jackson JT, and Bodager D

Subjects

Animals, Biological Assay, Bivalvia, Chromatography, Liquid, Dinoflagellida, Enzyme-Linked Immunosorbent Assay, Florida epidemiology, Gastropoda, Humans, Shellfish, Tandem Mass Spectrometry, Marine Toxins urine, Oxocins urine, Shellfish Poisoning epidemiology

Abstract

Brevetoxins were confirmed in urine specimens from patients diagnosed with neurotoxic shellfish poisoning (NSP) after consumption of gastropods that were recreationally harvested from an area previously affected by a Karenia brevis bloom. Several species of gastropods (Triplofusus giganteus, Sinistrofulgur sinistrum, Cinctura hunteria, Strombus alatus, Fulguropsis spirata) and one clam (Macrocallista nimbosa) from the NSP implicated gastropod collection area (Jewfish Key, Sarasota Bay, Florida) were examined for brevetoxins using liquid chromatography-tandem mass spectrometry (LC-MS/MS) and enzyme-linked immunosorbent assay (ELISA). All gastropods and the clam were contaminated with brevetoxins. Composite B-type toxin concentrations in gastropods ranged from 1.1 to 198 μg BTX-3 equiv./g by ELISA, levels likely capable of causing NSP in consumers. Several brevetoxin metabolites previously characterized in molluscan shellfish were identified in these gastropods. Brevetoxin analog profiles by ELISA were similar in the gastropod species examined. This work documents the occurrence of NSP through consumption of a type of seafood not typically monitored in Florida to protect human health, demonstrating the need to better assess and communicate the risk of NSP to gastropod harvesters in Karenia brevis endemic areas., (Published by Elsevier Ltd.)

Published

2021

10. Shellfish poisoning outbreaks in Cuddalore District, Tamil Nadu, India.

Author

Velayudhan A, Nayak J, Murhekar MV, Dikid T, and Sodha SV

Subjects

Case-Control Studies, Disease Outbreaks, Humans, Incidence, India epidemiology, Shellfish Poisoning epidemiology

Abstract

Background: Two suspected shellfish poisoning events were reported in Cuddalore District in Tamil Nadu, India, between January and April 2015., Objectives: The study was conducted to confirm the outbreaks and to identify the source and risk factors., Methods: For both outbreaks, a case was defined as a person with nausea, vomiting, or dizziness. Sociodemographic details and symptoms were noted down. Data were also collected in a standard 3-day food frequency questionnaire, along with a collection of clam samples. A case-control study was initiated in the April outbreak. Stool samples were collected from cases, and clam vendors were interviewed., Results: In an outbreak that happened in January, all the twenty people reported to be consumed clams were diagnosed as cases (100% attack rate, 100% exposure rate). In the April outbreak, we identified 199 cases (95% attack rate). In both outbreaks, the clams were identified as genus Meretrix meretrix. The most common reported symptoms were dizziness and vomiting. The clams heated and consumed within 30-60 min. No heavy metals or chemicals were detected in the clams, but assays for testing shellfish toxins were unavailable. All 64 selected cases reported clam consumption (100% exposure rate) as did 11 controls (17% exposure rate). Illness was associated with a history of eating of clams (odds ratio = 314, 95% confidence interval = 39-512). Of the six stool samples tested, all were culture negative for Salmonella, Shigella, and Vibrio cholerae. The water at both sites was contaminated with garbage and sewage., Conclusion: Coordinated and timely efforts by a multidisciplinary team of epidemiologists, marine biologists, and food safety officers led to the outbreaks' containment., Competing Interests: None

Published

2021

11. Paralytic shellfish toxins - Call for uniform reporting units.

Author

Turnbull AR, Harwood DT, Boundy MJ, Holland PT, Hallegraeff G, Malhi N, and Quilliam MA

Subjects

Animals, Humans, Marine Toxins, Saxitoxin, Shellfish, Mandatory Reporting, Shellfish Poisoning epidemiology

Abstract

Competing Interests: Declaration of competing interest ☒ The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Published

2020

12. Outbreak of diarrhetic shellfish poisoning associated with consumption of mussels, United Kingdom, May to June 2019.

Author

Young N, Robin C, Kwiatkowska R, Beck C, Mellon D, Edwards P, Turner J, Nicholls P, Fearby G, Lewis D, Hallett D, Bishop T, Smith T, Hyndford R, Coates L, and Turner A

Subjects

Abdominal Pain etiology, Adult, Aged, Animals, Dinoflagellida chemistry, Dinoflagellida isolation & purification, Disease Outbreaks, Female, Fever etiology, Food Contamination, Humans, Male, Marine Toxins chemistry, Middle Aged, Nausea etiology, Okadaic Acid chemistry, Shellfish Poisoning epidemiology, United Kingdom epidemiology, Vomiting etiology, Bivalvia chemistry, Diarrhea epidemiology, Environmental Monitoring methods, Marine Toxins analysis, Okadaic Acid analysis, Okadaic Acid poisoning, Seafood analysis, Shellfish Poisoning prevention & control

Abstract

We report on six cases of diarrhetic shellfish poisoning following consumption of mussels harvested in the United Kingdom. Dinophysis spp. in the water column was found to have increased rapidly at the production site resulting in high levels of okadaic acid-group lipophilic toxins in the flesh of consumed mussels. Clinicians and public health professionals should remain aware of algal-derived toxins being a potential cause of illness following seafood consumption.

Published

2019

13. HABscope: A tool for use by citizen scientists to facilitate early warning of respiratory irritation caused by toxic blooms of Karenia brevis.

Author

Hardison DR, Holland WC, Currier RD, Kirkpatrick B, Stumpf R, Fanara T, Burris D, Reich A, Kirkpatrick GJ, and Litaker RW

Subjects

Aerosols adverse effects, Asthma epidemiology, Dinoflagellida, Florida epidemiology, Gulf of Mexico epidemiology, Humans, Microalgae growth & development, Microalgae pathogenicity, Shellfish Poisoning prevention & control, Texas epidemiology, Asthma prevention & control, Harmful Algal Bloom, Marine Toxins adverse effects, Oxocins adverse effects, Shellfish Poisoning epidemiology

Abstract

Blooms of the toxic microalga Karenia brevis occur seasonally in Florida, Texas and other portions of the Gulf of Mexico. Brevetoxins produced during Karenia blooms can cause neurotoxic shellfish poisoning in humans, massive fish kills, and the death of marine mammals and birds. Brevetoxin-containing aerosols are an additional problem, having a severe impact on beachgoers, triggering coughing, eye and throat irritation in healthy individuals, and more serious respiratory distress in those with asthma or other breathing disorders. The blooms and associated aerosol impacts are patchy in nature, often affecting one beach but having no impact on an adjacent beach. To provide timely information to visitors about which beaches are low-risk, we developed HABscope; a low cost (~$400) microscope system that can be used in the field by citizen scientists with cell phones to enumerate K. brevis cell concentrations in the water along each beach. The HABscope system operates by capturing short videos of collected water samples and uploading them to a central server for rapid enumeration of K. brevis cells using calibrated recognition software. The HABscope has a detection threshold of about 100,000 cells, which is the point when respiratory risk becomes evident. Higher concentrations are reliably estimated up to 10 million cells L-1. When deployed by volunteer citizen scientists, the HABscope consistently distinguished low, medium, and high concentrations of cells in the water. The volunteers were able to collect data on most days during a severe bloom. This indicates that the HABscope can provide an effective capability to significantly increase the sampling coverage during Karenia brevis blooms., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

14. Outbreak of Haff disease caused by consumption of crayfish (Procambarus clarkii) in nanjing, China.

Author

Guo B, Xie G, Li X, Jiang Y, Jin D, Zhou Y, Dai Y, Zhen S, and Sun G

Subjects

Adolescent, Adult, Aged, Alcohol Drinking adverse effects, Alcohol Drinking epidemiology, Animals, Child, Child, Preschool, China epidemiology, Female, Humans, Incidence, Male, Middle Aged, Portion Size, Rhabdomyolysis diagnosis, Risk Assessment, Risk Factors, Shellfish Poisoning diagnosis, Time Factors, Young Adult, Astacoidea, Disease Outbreaks, Food Contamination, Rhabdomyolysis epidemiology, Seafood adverse effects, Shellfish Poisoning epidemiology

Abstract

Context: This paper reports a detailed epidemiological investigation of a large Haff disease outbreak in Nanjing, China, including laboratory analysis of water, river sediment, and fish., Methods: Structured questionnaires were administered to all case-patients. An unmatched case-control study was conducted to identify the factors affecting the incidence of Haff disease. Thirteen samples of crayfish, together with four samples of water and four samples of sediment were collected and sent for laboratory analysis., Results: The disease onset of 494 patients occurred between 2 am on 30 June 2016 and 3 am on 29 August 2016. The median incubation time for onset of symptoms after crayfish ingestion was 7.1 hours (range: 1-20 hours). All patients presented with or developed local or diffuse myalgia. However, no kidney injury was observed. Serum creatinine kinase was elevated in all patients (mean: 4614 U/L, median: 2000 U/L, range: 81-55200 U/L). The average number of crayfish consumed by patients on the day of illness was 20 (2-80). The case-control study revealed that eating a large quantity of crayfish, drinking alcohol, and eating the crayfish head and/or intestines were associated with an increased risk of disease. Chemical analysis of crayfish, river water and sediment did not identify known or novel toxins including anticoccidiosis drugs, niclosamide, organophosphorus pesticides, and microcystins., Conclusion: An outbreak of Haff Disease was associated with consumption of crayfish from the Yangtze River and its surrounding water system. Eating a large quantity of crayfish, eating the head and/or intestines, and consuming alcohol with the crayfish were associated with the development of Haff Disease.

Published

2019

15. The accumulation dynamics, elimination and risk assessment of paralytic shellfish toxins in fish from a water supply reservoir.

Author

Calado SLM, Santos GS, Wojciechowski J, Magalhães VF, and Silva de Assis HC

Subjects

Cyanobacteria, Humans, Phytoplankton, Risk Assessment, Marine Toxins analysis, Shellfish Poisoning epidemiology, Water Pollutants, Chemical analysis, Water Pollution statistics & numerical data, Water Supply statistics & numerical data

Abstract

Paralytic shellfish Toxins (PSTs) or saxitoxins are neurotoxins that block the neural transmission by binding to the voltage-gated sodium channels in the nerve cells. There are >50 analogues described, which could be biotransformed into a molecular form of greater or lesser toxicity. The Alagados Reservoir is used for water supply, and persistent cyanobacterial blooms as well as PSTs concentrations have been found in this water body since 2002. The aims of this study were to quantify the concentrations of PSTs in the water and fish samples from the Alagados Reservoir. In addition, we evaluated the elimination of PSTs for 90 days in fish and estimated the potential risk to human health. Water and fish samples were collected from the reservoir. For the water samples the phytoplankton and chemical analyses were carried out. Fish were divided into two sample times: Field Samples (FS) and Elimination Experiment Samples (EES), which were maintained for 90 days in filtered and dechlorinated water. For chemical analysis, the muscles of FS were collected on the fish sampling day and the muscles and feces of EES were collected at 7, 15, 30, 45, 60, 75 and 90 days. PSTs concentrations were present in water and fish samples, and they were estimated as a potential risk to humans; mainly for children. In addition, toxins were accumulated, biotransformed to other analogues and excreted by the fish. However, after 90 days, the toxins were still present in the water and fish muscle. Therefore, PSTs can remain for a long period in water, and fish can be a carrier of these neurotoxins. New approaches of monitoring and management are necessary in the actual global context of cyanobacteria and cyanotoxins., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2019

16. Spatial and seasonal variation of diarrheic shellfish poisoning (DSP) toxins in bivalve mollusks from some coastal regions of Vietnam and assessment of potential health risks.

Author

Tong TTV, Le THH, Tu BM, and Le DC

Subjects

Animals, Chromatography, High Pressure Liquid, Humans, Marine Toxins toxicity, Okadaic Acid analysis, Okadaic Acid toxicity, Seasons, Shellfish Poisoning epidemiology, Spatial Analysis, Tandem Mass Spectrometry, Vietnam epidemiology, Bivalvia chemistry, Marine Toxins chemistry, Shellfish Poisoning etiology

Abstract

The occurrence of okadaic acid (OA) group toxins in bivalve mollusk collected from Vietnamese coastal areas was investigated from April 2016 to April 2017. OA group toxins were detected in mollusk by UPLC-MS/MS with the highest level of 11.3 ng/g and detection frequency of 11.8%. Toxins were detected more frequently in dry season (14.4% of analyzed samples) than in wet season (7.9%). Toxins were also detected more frequently at sampling locations in the northern parts (≥10.4%) than in the southern part (≤8.3%) of Vietnamese coastline. Results of this study were similar to those obtained in long-term studies in regions geographically close to Vietnam, confirming decisive influence of geographic location on the accumulation of toxins in mollusks. Within the scope of the study, toxin levels in all contaminated samples were below the regulation limit (160 ng/g), but the presence of OA group toxins in bivalve mollusk suggests the need of a more stringent control of toxins in bivalve mollusk in Vietnam., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

17. Phycotoxins in Marine Shellfish: Origin, Occurrence and Effects on Humans.

Author

Farabegoli F, Blanco L, Rodríguez LP, Vieites JM, and Cabado AG

Subjects

Animals, Bivalvia parasitology, Food Chain, Harmful Algal Bloom, Humans, Ostreidae parasitology, Seawater, Shellfish Poisoning epidemiology, Shellfish Poisoning prevention & control, Marine Toxins toxicity, Phytoplankton chemistry, Shellfish toxicity, Shellfish Poisoning etiology

Abstract

Massive phytoplankton proliferation, and the consequent release of toxic metabolites, can be responsible for seafood poisoning outbreaks: filter-feeding mollusks, such as shellfish, mussels, oysters or clams, can accumulate these toxins throughout the food chain and present a threat for consumers' health. Particular environmental and climatic conditions favor this natural phenomenon, called harmful algal blooms (HABs); the phytoplankton species mostly involved in these toxic events are dinoflagellates or diatoms belonging to the genera Alexandrium , Gymnodinium , Dinophysis , and Pseudo-nitzschia . Substantial economic losses ensue after HABs occurrence: the sectors mainly affected include commercial fisheries, tourism, recreational activities, and public health monitoring and management. A wide range of symptoms, from digestive to nervous, are associated to human intoxication by biotoxins, characterizing different and specific syndromes, called paralytic shellfish poisoning, amnesic shellfish poisoning, diarrhetic shellfish poisoning, and neurotoxic shellfish poisoning. This review provides a complete and updated survey of phycotoxins usually found in marine invertebrate organisms and their relevant properties, gathering information about the origin, the species where they were found, as well as their mechanism of action and main effects on humans.

Published

2018

18. Investigating a paralytic shellfish poisoning in Gando Village, Wete District, Tanzania, July 2015.

Author

Urio LJ, Frimpong JA, Semali I, Kishimba RS, Mghamba JM, Abade A, Sembuche S, Lema N, and Ussi AK

Subjects

Disease Outbreaks, Humans, Professional Competence, Tanzania epidemiology, Epidemiology education, Foodborne Diseases epidemiology, Public Health education, Shellfish Poisoning epidemiology

Abstract

The investigation of foodborne outbreaks requires a multi-disciplinary set of skills. Frequently, foodborne-related outbreaks are poorly investigated due to lack of all required skills on the part of the investigators. This case study, based on a shellfish poisoning outbreak investigation conducted in Wete, Zanzibar in July 2015 by the Tanzania Field Epidemiology Training Program (TFETP), seeks to reinforce principles and skills in foodborne outbreak investigation. It is primarily intended for training public health practitioners in a classroom setting. Facilitating this case study should take approximately 3 hours.

Published

2018

19. Repeated Dietary Exposure to Low Levels of Domoic Acid and Problems with Everyday Memory: Research to Public Health Outreach.

Author

Grattan LM, Boushey CJ, Liang Y, Lefebvre KA, Castellon LJ, Roberts KA, Toben AC, and Morris JG

Subjects

Adolescent, Adult, Aged, Animals, Dietary Exposure prevention & control, Female, Food Contamination, Humans, Kainic Acid toxicity, Male, Middle Aged, Public Health, Research, Shellfish Poisoning etiology, Young Adult, Bivalvia, Dietary Exposure adverse effects, Kainic Acid analogs & derivatives, Marine Toxins toxicity, Memory drug effects, Neurotoxins toxicity, Shellfish Poisoning epidemiology

Abstract

Domoic Acid (DA) is a marine-based neurotoxin. Dietary exposure to high levels of DA via shellfish consumption has been associated with Amnesic Shellfish Poisoning, with milder memory decrements found in Native Americans (NAs) with repetitive, lower level exposures. Despite its importance for protective action, the clinical relevance of these milder memory problems remains unknown. The purpose of this study was to determine whether repeated, lower-level exposures to DA impact everyday memory (EM), i.e., the frequency of memory failures in everyday life. A cross-sectional sample of 60 NA men and women from the Pacific NW was studied with measures of dietary exposure to DA via razor clam (RC) consumption and EM. Findings indicated an association between problems with EM and elevated consumption of RCs with low levels of DA throughout the previous week and past year after controlling for age, sex, and education. NAs who eat a lot of RCs with presumably safe levels of DA are at risk for clinically significant memory problems. Public health outreach to minimize repetitive exposures are now in place and were facilitated by the use of community-based participatory research methods, with active involvement of state regulatory agencies, tribe leaders, and local physicians., Competing Interests: The authors declare no conflict of interest.

Published

2018

20. Tectus niloticus (Tegulidae, Gastropod) as a Novel Vector of Ciguatera Poisoning: Clinical Characterization and Follow-Up of a Mass Poisoning Event in Nuku Hiva Island (French Polynesia).

Author

Gatti CMI, Lonati D, Darius HT, Zancan A, Roué M, Schicchi A, Locatelli CA, and Chinain M

Subjects

Adult, Aged, Animals, Ciguatoxins analysis, Disease Outbreaks, Female, Food Contamination analysis, Humans, Male, Middle Aged, Polynesia epidemiology, Ciguatera Poisoning epidemiology, Gastropoda chemistry, Shellfish Poisoning epidemiology

Abstract

Ciguatera fish poisoning (CFP) is the most prevalent non-bacterial food-borne form of poisoning in French Polynesia, which results from the consumption of coral reef fish naturally contaminated with ciguatoxins produced by dinoflagellates in the genus Gambierdiscus . Since the early 2000s, this French territory has also witnessed the emergence of atypical forms of ciguatera, known as ciguatera shellfish poisoning (CSP), associated with the consumption of marine invertebrates. In June 2014, nine tourists simultaneously developed a major and persistent poisoning syndrome following the consumption of the gastropod Tectus niloticus collected in Anaho, a secluded bay of Nuku Hiva Island (Marquesas Archipelago, French Polynesia). The unusual nature and severity of this event prompted a multidisciplinary investigation in order to characterize the etiology and document the short/long-term health consequences of this mass-poisoning event. This paper presents the results of clinical investigations based on hospital medical records, medical follow-up conducted six and 20 months post-poisoning, including a case description. This study is the first to describe the medical signature of T. niloticus poisoning in French Polynesia and contributed to alerting local authorities about the potential health hazards associated with the consumption of this gastropod, which is highly prized by local communities in Pacific island countries and territories., Competing Interests: All authors certify that their freedom to design, conduct, interpret, and publish this study is not compromised by any controlling sponsor. None of the authors declare actual or potential competing financial and nonfinancial interests. The manuscript has not been submitted to any other journal while it is under consideration by Toxins.

Published

2018

21. Which species, Alexandrium catenella (Group I) or A. pacificum (Group IV), is really responsible for past paralytic shellfish poisoning outbreaks in Jinhae-Masan Bay, Korea?

Author

Shin HH, Li Z, Kim ES, Park JW, and Lim WA

Subjects

Dinoflagellida ultrastructure, Geography, Humans, Likelihood Functions, Phylogeny, Republic of Korea epidemiology, Seasons, Species Specificity, Temperature, Dinoflagellida physiology, Disease Outbreaks, Paralysis epidemiology, Shellfish Poisoning epidemiology

Abstract

Paralytic shellfish poisoning (PSP) caused the deaths of four people in coastal area of Korea, mainly Jinhae-Masan Bay and adjacent areas, in April 1986 and in 1996. The PSP outbreaks were caused by the consumption of mussels, Mytilus edulis. The organism that caused PSP was identified, from morphological data only, as Alexandrium tamarense which is recently renamed as A. catenella, however recent studies have shown that the morphological diagnostic characteristics used to identify Alexandrium species have uncertainties and molecular tools and other criteria should be considered as well. The organism that caused past PSP outbreaks and incidents in Korea therefore need to be carefully reconsidered. The aim of this study was to re-evaluate the species really responsible for past outbreaks of PSP in Jinhae-Masan Bay, Korea. The temporal production and fluxes of the resting cysts of Alexandrium species were investigated for one year (from March 2011 to February 2012) using a sediment trap, and the morphology and phylogeny of vegetative cells germinated from the resting cysts were analysed. The production of Alexandrium species peaked in August and November, when temporal discrepancies were found in the water temperature (22.4 and 22.7°C in August, 19.1 and 19.6°C in November) and salinity (29.5 and 26.1 psu in August, 30.5 and 31.8 psu in November). The morphological data revealed that Alexandrium species germinated from resting cysts collected in August have a ventral pore on the 1' plate, whereas the 1' plate in Alexandrium species germinated from resting cysts collected in November lacks a ventral pore. Molecular phylogenetic data for the vegetative cells from the germination experiments allowed the August and November peaks to be assigned to Alexandrium catenella (Group I) and A. pacificum (Group IV), respectively. This indicates that the production of resting cysts of A. catenella can be enhanced by relatively high water temperature. This result is not consistent with those of previous studies that A. catenella responsible for PSP outbreaks was found at relatively low water temperature. In addition, large subunit ribosomal sequences data revealed that A. pacificum isolates from Korea were closely related to those from Australia, Japan and New Zealand where the PSP toxicity of shellfish and blooms occurred in the 1990s, indicating that the introduction of toxic dinoflagellates were related to ballast water from bulk-cargo shipping. Based on these results, we concluded that past PSP outbreaks in Jinhae-Masan Bay of Korea could have been caused by A. pacificum rather than by A. catenella., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

22. Communities advancing the studies of Tribal nations across their lifespan: Design, methods, and baseline of the CoASTAL cohort.

Author

Tracy K, Boushey CJ, Roberts SM, Morris JG Jr, and Grattan LM

Subjects

Adolescent, Adult, Aged, Animals, Bivalvia, Child, Ciguatera Poisoning epidemiology, Cohort Studies, Female, Humans, Kainic Acid analogs & derivatives, Kainic Acid analysis, Longitudinal Studies, Male, Middle Aged, Northwestern United States, Prospective Studies, Seawater chemistry, Shellfish Poisoning epidemiology, Water Pollutants, Chemical, Diet, Environmental Exposure, Indians, North American statistics & numerical data

Abstract

The CoASTAL cohort represents the first community cohort assembled to study a HAB-related illness. It is comprised of three Native American tribes in the Pacific NW for the purpose of studying the health impacts of chronic, low level domoic acid (DA) exposure through razor clam consumption. This cohort is at risk of DA toxicity by virtue of their geographic location (access to beaches with a history of elevated DA levels in razor clams) and the cultural and traditional significance of razor clams in their diet. In this prospective, longitudinal study, Wave 1 of the cohort was comprised of 678 members across the human lifespan, with both sexes represented within child, adult, and geriatric age groups. All participants were followed annually with standard measures of medical and social history; neuropsychological functions, psychological status, and dietary exposure. DA concentrations were measured at both public and reservation beaches where razor clams are acquired. Multiple metrics were piloted to further determine exposure. Baseline data indicated that all cognitive and psychological functions were within normal limits. In addition, there was considerable variability in razor clam exposure. Therefore, the CoASTAL cohort offers a unique opportunity to investigate the potential health effects of chronic, low level exposure to DA over time., (Copyright © 2016. Published by Elsevier B.V.)

Published

2016

23. A norovirus oyster-related outbreak in a nursing home in France, January 2012.

Author

Loury P, Le Guyader FS, Le Saux JC, Ambert-Balay K, Parrot P, and Hubert B

Subjects

Adult, Aged, 80 and over, Animals, Caliciviridae Infections transmission, France epidemiology, Gastroenteritis virology, Humans, Infectious Disease Transmission, Patient-to-Professional, Middle Aged, Nursing Homes, Retrospective Studies, Shellfish Poisoning virology, Caliciviridae Infections epidemiology, Disease Outbreaks, Gastroenteritis epidemiology, Health Personnel, Norovirus, Ostreidae virology, Shellfish Poisoning epidemiology

Abstract

The presence of norovirus in shellfish is a public health concern in Europe. Here, we report the results of an investigation into a norovirus gastroenteritis outbreak following a festive lunch which affected 84 (57%) residents and staff members of a nursing home in January 2012 in France. Individuals who had eaten oysters had a significantly higher risk of developing symptoms in the following 2·5 days than those who had not, the risk increasing with the amount eaten [relative risk 2·2 (1·0-4·6) and 3·3 (1·6-6·6) for 3-4 and 5-12 oysters, respectively]. In healthy individuals during those days, 29 (32%) subsequently became ill, most of whom were staff members performing activities in close contact with residents. Genogroup II noroviruses were detected in faecal samples, in a sample of uneaten oysters and in oysters from the production area. Identifying a norovirus's infectious dose may facilitate the health-related management of contaminated shellfish.

Published

2015

24. Association between the Hygiene Index Values of Live Fresh Aquatic Products and Food-Borne Diarrhea in the Population of the Ningbo Area in China.

Author

Zhang L, Lu L, Shu L, Chen J, Zou B, Zhou Q, Gu Y, Zhao J, and Lin X

Subjects

China epidemiology, Cities, Diarrhea etiology, Humans, Shellfish Poisoning etiology, Diarrhea epidemiology, Food Contamination analysis, Seafood analysis, Shellfish Poisoning epidemiology

Abstract

To investigate the association of the hygiene index values of live fresh aquatic products and food-borne diarrhea in the population of the Ningbo area in China. Volatile basic nitrogen (VBN), histamine (HIS), indole, tetrodotoxin (TTX), and paralytic, neurotoxic, amnesic and diarrhetic shellfish poisons (PSP, NSP, ASP, and DSP, respectively) in the samples of live fresh aquatic products and food-borne diarrhea cases in six studied districts were analyzed. Results indicate that the incidence rate of food-borne diarrhea is related to the hygiene index values. Aside from VBN, the main risk factors related to food-borne diarrhea in edible aquatic products include DSP (in marine fish, shrimp, and other shellfishes), NSP, and ASP (in marine shrimp and crab). Hygiene index values among different species were significantly different. No significant difference in the monitoring index values was found among the six different studied districts. The reported cases of food-borne diarrhea were positively associated with VBN and DSP in aquatic products in Haishu, Jiangbei, Zhenhai, and Beilun, as well as VBN and NSP in aquatic products in Jiangdong and Yinzhou. In conclusion, VBN, DSP, NSP, and ASP are important risk factors for the occurring of food-borne diarrhea in the population of the Ningbo area in China.

Published

2015

25. Paralytic shellfish poisonings resulting from an algal bloom in Nicaragua.

Author

Callejas L, Darce AC, Amador JJ, Conklin L, Gaffga N, Schurz Rogers H, DeGrasse S, Hall S, Earley M, Mei J, Rubin C, Aldighieri S, Backer LC, and Azziz-Baumgartner E

Subjects

Adolescent, Adult, Child, Cross-Sectional Studies, Disease Outbreaks, Female, Humans, Male, Nicaragua epidemiology, Seafood, Shellfish Poisoning etiology, Young Adult, Harmful Algal Bloom, Shellfish Poisoning epidemiology

Abstract

Background: During an October 2005 algal bloom (i.e., a rapid increase or accumulation in the population of algae) off the coast of Nicaragua, 45 people developed symptoms of paralytic shellfish poisoning (PSP) and one person died. PSP in humans is caused by ingestion of saxitoxin, which is a neurotoxin often associated with shellfish contaminated by algal blooms. To explore the relationship between the algal bloom and human illnesses, we performed a case-control study of residents living in a coastal island. We administered a standardized clinical questionnaire, sampled locally harvested seafood and algae, and obtained urine samples for saxitoxin testing from symptomatic and asymptomatic persons. PSP case-patients were defined as island residents who developed at least one neurological symptom during the November 4-16 intoxication period. Seafood and algal samples were analyzed for saxitoxins using the receptor-binding assay and high-performance liquid chromatography. Two urine samples were analyzed for saxitoxins using a newly developed immunoassay., Findings: Three shellfish and two algal samples tested positive for saxitoxins. Ten (9%) of 107 participants developed neurological symptoms during the specified time period and five required hospitalization. While 6 (67%) of 9 possible case-patients and 21 (21%) of 98 controls had eaten fish (p=0.008), all case-patients and 17 (17%) of controls had eaten clams (P<0.0001). The saxitoxin concentration in the urine of a hospitalized case-patient was 21 ng saxitoxin/g creatinine compared to 0.16 ng saxitoxin/g creatinine in the single control patient's urine., Conclusions: These findings suggest that a bloom of saxitoxin-producing algae resulted in saxitoxin accumulation in local clams and was responsible for the PSP intoxication.

Published

2015

26. Epidemiological evidence of lesser role of thermostable direct hemolysin (TDH)-related hemolysin (TRH) than TDH on Vibrio parahaemolyticus pathogenicity.

Author

Saito S, Iwade Y, Tokuoka E, Nishio T, Otomo Y, Araki E, Konuma H, Nakagawa H, Tanaka H, Sugiyama K, Hasegawa A, Sugita-Konishi Y, and Hara-Kudo Y

Subjects

Animals, Arcidae microbiology, Bacterial Proteins analysis, Bacterial Proteins chemistry, Bacterial Toxins analysis, Bacterial Toxins chemistry, Bacterial Toxins toxicity, Crassostrea microbiology, Disease Outbreaks, Electrophoresis, Gel, Pulsed-Field, Hemolysin Proteins analysis, Hemolysin Proteins chemistry, Hot Temperature, Humans, Japan epidemiology, Molecular Typing, Polymerase Chain Reaction, Protein Stability, Shellfish analysis, Shellfish economics, Shellfish microbiology, Shellfish Poisoning epidemiology, Shellfish Poisoning microbiology, Vibrio Infections epidemiology, Vibrio Infections microbiology, Vibrio parahaemolyticus classification, Vibrio parahaemolyticus growth & development, Vibrio parahaemolyticus isolation & purification, Virulence, Virulence Factors chemistry, Bacterial Proteins toxicity, Bivalvia microbiology, Hemolysin Proteins toxicity, Shellfish adverse effects, Shellfish Poisoning etiology, Vibrio parahaemolyticus pathogenicity, Virulence Factors analysis

Abstract

Vibrio parahaemolyticus carrying the tdh gene, encoding the thermostable direct hemolysin (TDH), or the trh gene, encoding the TDH-related hemolysin (TRH), are both considered virulent strains. There are, however, disproportionally fewer reports of infections caused by seafood contaminated with trh-positive strains than by seafood contaminated with tdh-positive strains. Bivalves such as clams and oysters are the major seafood varieties associated with the infections. In this study, the prevalence of strains possessing the tdh and trh genes was investigated in Japan in 74 samples collected in 2007-2008 and in 177 samples collected in 2010 of domestic bivalves, bloody clams, hen clams, short-neck clams, and rock oysters. The tdh-positive and trh-negative, tdh-negative and trh-positive, and tdh-positive and trh-positive samples represented 5.4%, 12.2%, and 4.1% of all samples collected in 2007-2008, and 5.1%, 18.6%, and 5.6% of all samples collected in 2010, respectively. As determined by polymerase chain reaction, the prevalence of tdh negative and trh positive in all samples was two to four times higher than that of tdh positive and trh negative. In the samples collected in 2010, the tdh-negative and trh-positive V. parahaemolyticus (20 samples) was more often isolated than tdh-positive and trh-negative V. parahaemolyticus (7 samples). The most common serotype of tdh-positive isolates (22 of 24 strains) was pandemic O3:K6. The trh-positive isolates (61 strains) were various serotypes including OUT:KUT. In 330 V. parahaemolyticus outbreaks and sporadic infections in Japan, most outbreaks and sporadic infections were caused by tdh-positive and trh-negative strains (89.4%). The frequencies of infections caused by tdh-negative and trh-positive, and both tdh- and trh-positive strains were 1.2% and 3.0%, respectively. This finding suggests that the virulence of trh might be less than that of tdh, although trh-positive V. parahaemolyticus frequently contaminated bivalves.

Published

2015

27. Contamination of commercially available seafood by key diarrhetic shellfish poisons along the coast of China.

Author

Lin C, Liu ZS, Tan CY, Guo YP, Li L, Ren HL, Li YS, Hu P, Gong S, Zhou Y, and Lu SY

Subjects

Animals, China epidemiology, Enzyme-Linked Immunosorbent Assay methods, Oceans and Seas, Okadaic Acid analysis, Pyrans analysis, Species Specificity, Disease Outbreaks prevention & control, Food Contamination analysis, Marine Toxins analysis, Shellfish analysis, Shellfish Poisoning epidemiology

Abstract

With the increasing number of outbreaks of food-borne diseases caused by okadaic acid (OA) and its analogue dinophysistoxin-1 (DTX-1), two key diarrhetic shellfish poison (DSP) toxins, OA and DTX-1, have become a serious threat to public health and have attracted significant public attention in China. The aim of our study was to monitor OA and DTX-1 contamination in commercially available seafood and to provide references for tracking these toxins and preventing disease outbreaks. From 2010 to 2012, 40 species were collected from six coastal cities of four inland seas in China. An enzyme-linked immunosorbent assay (ELISA) and a lateral flow immunochromatographic (LFIC) test strip were used to analyse the samples, and the results were further confirmed using a commercially available ELISA kit. The monitoring results indicated that 23 of 40 species were positive for contamination. In addition, 14 of the positive species were determined to be inedible because the content of OA and DTX-1 was above the regulatory limit. Simultaneously, we verified that the digestive glands of shellfish tended to accumulate toxin, in contrast to the flesh. The highest concentrations of OA and DTX-1 were recorded in Scapharca broughtonii, which was collected from Qing Dao, in relation to the other analysed species. Moreover, the Arca family as well as Mytilus galloprovincialis were severely contaminated by OA and its analogue. The above results indicate that some of the commercially available seafood from the coastal cities in China may be inedible due to serious marine toxin contamination. The results of this study might play an important role in protecting consumer health and safety screening of marine products.

Published

2015

28. An outbreak of gastroenteritis linked to a buffet lunch served at a Canberra restaurant.

Author

Sloan-Gardner TS, Glynn-Robinson AJ, Roberts-Witteveen A, Krsteski R, Rogers K, Kaye A, and Moffatt CR

Subjects

Adolescent, Adult, Australia epidemiology, Bacillus cereus isolation & purification, Child, Child, Preschool, Diarrhea epidemiology, Diarrhea microbiology, Female, Food Handling ethics, Foodborne Diseases epidemiology, Foodborne Diseases microbiology, Gastroenteritis epidemiology, Gastroenteritis microbiology, Hand Hygiene, Humans, Infant, Lunch, Male, Middle Aged, Restaurants, Shellfish Poisoning epidemiology, Shellfish Poisoning microbiology, Staphylococcus aureus isolation & purification, Surveys and Questionnaires, Diarrhea diagnosis, Disease Outbreaks, Food Contamination analysis, Foodborne Diseases diagnosis, Gastroenteritis diagnosis, Shellfish Poisoning diagnosis

Abstract

In 2013, an outbreak of gastrointestinal illness occurred following a buffet lunch at a restaurant in Canberra. An investigation was conducted to identify the cause of illness and to implement appropriate public health measures to prevent further disease. We conducted a retrospective cohort study via telephone interviews, using a structured questionnaire developed from the restaurant buffet menu. A case was defined as someone who ate the buffet lunch at the restaurant on the implicated date and developed any symptoms of gastrointestinal illness (such as diarrhoea, abdominal pain and nausea) following the consumption of food. A total of 74% (225/303) of known attendees were interviewed, of whom 56% (125/225) had become ill. The median incubation period and duration of illness were 13 and 19 hours respectively. The most commonly reported symptoms were diarrhoea (94%, 118/125) and abdominal pain (82%, 103/125). A toxin-mediated gastrointestinal illness was suspected based on the incubation period, duration of illness and the symptoms. The environmental health investigation identified a lack of designated hand washing facilities in the kitchen, an absence of thermometers for measuring food temperatures and several maintenance and minor cleaning issues. A number of food samples were taken for microbiological analysis. Multivariable analysis showed that illness was significantly associated with consuming curried prawns (OR 18.4, 95% CI 8.6-39.3, P < 0.001) and Caesar salad (OR 3.6, 95% CI 1.8-7.5, P 0.001). Enterotoxin-producing Staphylococcus aureus and Bacillus cereus were identified in leftover samples of cooked buffet food, but this food was not epidemiologically implicated. The investigation suggested that a breakdown in cleanliness, temperature control and food handling practices may have resulted in contamination of the buffet food. In order to prevent such outbreaks in the future, caterers and restaurateurs need to ensure they have the appropriate facilities and procedures in place if planning to cater for large groups., (This work is copyright. You may download, display, print and reproduce the whole or part of this work in unaltered form for your own personal use or, if you are part of an organisation, for internal use within your organisation, but only if you or your organisation do not use the reproduction for any commercial purpose and retain this copyright notice and all disclaimer notices as part of that reproduction. Apart from rights to use as permitted by the Copyright Act 1968 or allowed by this copyright notice, all other rights are reserved and you are not allowed to reproduce the whole or any part of this work in any way (electronic or otherwise) without first being given the specific written permission from the Commonwealth to do so. Requests and inquiries concerning reproduction and rights are to be sent to the Online, Services and External Relations Branch, Department of Health, GPO Box 9848, Canberra ACT 2601, or by email to copyright@health.gov.au.)

Published

2014

29. Fatal paralytic shellfish poisoning in Kittlitz's Murrelet (Brachyramphus brevirostris) nestlings, Alaska, USA.

Author

Shearn-Bochsler V, Lance EW, Corcoran R, Piatt J, Bodenstein B, Frame E, and Lawonn J

Subjects

Alaska epidemiology, Animals, Bird Diseases epidemiology, Environmental Monitoring, Fishes, Food Contamination, Shellfish Poisoning epidemiology, Time Factors, Bird Diseases mortality, Charadriiformes, Shellfish Poisoning veterinary

Abstract

Paralytic shellfish poisoning (PSP) is an acute toxic illness in humans resulting from ingestion of shellfish contaminated with a suite of neurotoxins (saxitoxins) produced by marine dinoflagellates, most commonly in the genus Alexandrium. Poisoning also has been sporadically suspected and, less often, documented in marine wildlife, often in association with an outbreak in humans. Kittlitz's Murrelet (Brachyramphus brevirostris) is a small, rare seabird of the Northern Pacific with a declining population. From 2008 to 2012, as part of a breeding ecology study, multiple Kittlitz's Murrelet nests on Kodiak Island, Alaska, were monitored by remote cameras. During the 2011 and 2012 breeding seasons, nestlings from several sites died during mild weather conditions. Remote camera observations revealed that the nestlings died shortly after consuming sand lance (Ammodytes hexapterus), a fish species known to biomagnify saxitoxin. High levels of saxitoxin were subsequently documented in crop content in 87% of nestling carcasses. Marine bird deaths from PSP may be underreported.

Published

2014

30. [Modeling the occurrence of shellfish poisoning outbreaks caused by Gymnodinium catenatum (Dinophyceae) through electromagnetic signal triggering].

Author

Vale P

Subjects

Animals, Female, Humans, Male, Portugal epidemiology, Dinoflagellida metabolism, Disease Outbreaks, Harmful Algal Bloom radiation effects, Marine Toxins metabolism, Models, Biological, Shellfish Poisoning epidemiology, Shellfish Poisoning etiology, Sunlight

Abstract

Accumulation of paralytic shellfish poisoning toxins (PSTs) in bivalves attributed to Gymnodinium catenatum blooms at the NW Portuguese coast was previously associated with periods of low solar activity (measured by the radio flux [R]), or low geomagnetic A(a) index. It was also observed that reduction of R preceded the occurrence of toxin accumulation, while A(a) index increase could be related to its absence during periods of low activity. For modeling toxin accumulation, the monthly decrease in R was studied along the decade 2003-2012. A match that helped explaining the highly toxic years of 2007 and 2008 was obtained by plotting the formula: ΔR = (R(n-1) - R(n))/(R(n) - 65)2, where 65 represented the lowest radio activity known to date. The complex denominator was required to take into account the sunspot cycle. A 1-2 month lag was observed between maximal relative decline and maximal PSTs accumulation. PSTs in bivalves from the Portuguese south coast were related with natural electromagnetic cycles for the first time, and were not statistically associated with low R. A statistically significant association with low A(a) index also was not achieved, due to the low number of occurrences, although the 25-75 percentile was restricted to low Aa indexes in a similar way to that found for the NW coast. PSTs accumulation outside solar minima could be triggered by a steep decline in the A(a) index (ΔA), but no lag was observed in this case. While ΔR amplitude helped explaining the highly toxic years of 2007 and 2008 at the NW coast, the amplitude of ΔA was not related to the severity of the accumulation. Other kind of local electromagnetic signaling was investigated resorting to the occurrence of seismologic phenomena, because these events can trigger electric activities. No statistical association was found between seism number or magnitude and PSTs at the south coast, located near the boundary between the African and Eurasian plates, and marked by moderate seismicity.

Published

2014

31. Occurrence of Vibrio parahaemolyticus and Vibrio vulnificus in retail raw oysters from the eastern coast of Thailand.

Author

Changchai N and Saunjit S

Subjects

Animals, Bacteriological Techniques, Colony Count, Microbial, Consumer Product Safety, Food Contamination, Food Microbiology, Polymerase Chain Reaction methods, Risk Assessment, Thailand epidemiology, Vibrio parahaemolyticus genetics, Vibrio parahaemolyticus pathogenicity, Vibrio vulnificus genetics, Vibrio vulnificus pathogenicity, Virulence, Ostreidae microbiology, Shellfish Poisoning epidemiology, Vibrio parahaemolyticus isolation & purification, Vibrio vulnificus isolation & purification

Abstract

Occurrence, population density and virulence of Vibrio parahaemolyticus and V. vulnificus in 240 retail raw oysters collected monthly between March 2010 and February 2011 from Ang Sila coast, Chon Buri Province, Thailand were determined using most probable number (MPN) multiplex PCR. Multiplex PCR detected V. parahaemolyticus in 219 raw oyster samples, of which 29 samples contained the virulence tdh. MPN values for V. parahaemolyticus and pathogenic strains in most samples ranged from 10 to 10(2) and from 3 to 10 MPN/g, respectively. The presence of V. vulnificus was found in 53 oyster samples in amounts between 10 and 10(2) MPN/g. Of 1,087 V. parahaemolyticus isolates, 14 and 2 isolates carried tdh and virulence trh, respectively but none with both genes. However, none of the presumptive isolates was shown to be V. vulnificus. The detection of pathogenic V. parahaemolyticus and V. vulnificus in raw oysters has rendered high awareness of risk in consumption of raw or undercooked oysters.

Published

2014

32. PSP toxins profile in ascidian Microcosmus vulgaris (Heller, 1877) after human poisoning in Croatia (Adriatic Sea).

Author

Roje-Busatto R and Ujević I

Subjects

Animals, Chromatography, High Pressure Liquid, Croatia, Female, Food Contamination analysis, Humans, Male, Saxitoxin analysis, Shellfish Poisoning etiology, Marine Toxins analysis, Saxitoxin analogs & derivatives, Seafood adverse effects, Shellfish Poisoning epidemiology, Urochordata chemistry

Abstract

Toxins known to cause Paralytic Shellfish Poisoning (PSP) syndrome in humans that can have serious economic consequences for aquaculture were determined in ascidians of the genus Microcosmus. Significant concentrations of toxins were confirmed in all tested samples collected from the western coast of Istria Peninsula (Adriatic Sea, Croatia) when six people were poisoned following the consumption of fresh ascidians. Several species of bivalves that were under continuous monitoring had not accumulated PSP toxins although they were exposed to the same environmental conditions over the survey period. In the present study, HPLC-FLD with pre-column oxidation of PSP toxins has been carried out to provide evidence for the first human intoxication due to consumption of PSP toxic ascidians (Microcosmus vulgaris, Heller, 1877) harvested from the Adriatic Sea. Qualitative analysis established the presence of six PSP toxins: saxitoxin (STX), decarbamoylsaxitoxin (dcSTX), gonyautoxins 2 and 3 (GTX2,3), decarbamoylgonyautoxins 2 and 3 (dcGTX2,3), gonyautoxin 5 (GTX5) and N-sulfocarbamoylgonyautoxins 1 and 2 (C1,2), while quantitative analysis suggested STX and GTX2,3 as dominant toxin types and the ones that contribute the most to the overall toxicity of these samples with concentrations near the regulatory limit., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

33. Formation of a volunteer harmful algal bloom network in British Columbia, Canada, following an outbreak of diarrhetic shellfish poisoning.

Author

McIntyre L, Cassis D, and Haigh N

Subjects

Animals, British Columbia, Canada, Disease Outbreaks, Humans, Harmful Algal Bloom, Shellfish Poisoning epidemiology, Shellfish Poisoning etiology

Abstract

Evidence for shellfish toxin illness in British Columbia (BC) on the west coast of Canada can be traced back to 1793. For over two hundred years, domestically acquired bivalve shellfish toxin illnesses in BC were solely ascribed to paralytic shellfish poisonings caused by algal blooms of Alexandrium. This changed in 2011, when BC experienced its first outbreak of diarrhetic shellfish poisoning (DSP). As a result of this outbreak, Canada's first DSP symposium was held in November, 2012, in North Vancouver, BC. Three of the objectives of the symposium were to provide a forum to educate key stakeholders on this emerging issue, to identify research and surveillance priorities and to create a DSP network. The purpose of this paper is to review what is known about shellfish poisoning in BC and to describe a novel volunteer network that arose following the symposium. The newly formed network was designed for industry shellfish growers to identify harmful algae bloom events, so that they may take actions to mitigate the effects of harmful blooms on shellfish morbidity. The network will also inform public health and regulatory stakeholders of potentially emerging issues in shellfish growing areas.

Published

2013

34. Climate variability and oceanographic settings associated with interannual variability in the initiation of Dinophysis acuminata blooms.

Author

Díaz PA, Reguera B, Ruiz-Villarreal M, Pazos Y, Velo-Suárez L, Berger H, and Sourisseau M

Subjects

Aquaculture, France, Oceanography, Oceans and Seas, Seasons, Shellfish Poisoning epidemiology, Shellfish Poisoning etiology, Spain, Time Factors, Climate, Dinoflagellida growth & development, Harmful Algal Bloom, Phytoplankton growth & development

Abstract

In 2012, there were exceptional blooms of D. acuminata in early spring in what appeared to be a mesoscale event affecting Western Iberia and the Bay of Biscay. The objective of this work was to identify common climatic patterns to explain the observed anomalies in two important aquaculture sites, the Galician Rías Baixas (NW Spain) and Arcachon Bay (SW France). Here, we examine climate variability through physical-biological couplings, Sea Surface Temperature (SST) anomalies and time of initiation of the upwelling season and its intensity over several decades. In 2012, the mesoscale features common to the two sites were positive anomalies in SST and unusual wind patterns. These led to an atypical predominance of upwelling in winter in the Galician Rías, and increased haline stratification associated with a southward advection of the Gironde plume in Arcachon Bay. Both scenarios promoted an early phytoplankton growth season and increased stability that enhanced D. acuminata growth. Therefore, a common climate anomaly caused exceptional blooms of D. acuminata in two distant regions through different triggering mechanisms. These results increase our capability to predict intense diarrhetic shellfish poisoning outbreaks in the early spring from observations in the preceding winter.

Published

2013

35. Distribution of the genus Alexandrium (Halim) and paralytic shellfish toxins along the coastline of New South Wales, Australia.

Author

Farrell H, Brett S, Ajani P, and Murray S

Subjects

Animals, Aquaculture, Dinoflagellida isolation & purification, New South Wales, Shellfish, Shellfish Poisoning epidemiology, Shellfish Poisoning prevention & control, Water Pollution, Chemical statistics & numerical data, Dinoflagellida growth & development, Environmental Monitoring methods, Marine Toxins analysis, Seawater chemistry, Water Pollutants, Chemical analysis

Abstract

Blooms of Alexandrium species, in particular the species Alexandrium catenella, accounted for more than 50% of algal related, shellfish aquaculture harvest zone closures in New South Wales (NSW) Australia since 2005. While there are indications that species of Alexandrium are more abundant than they were formerly, there is little data available on the spatial and temporal distribution and abundance of the genus in NSW. A six and a half year dataset comprising a total of 8649 fortnightly samples from 31 estuaries spread over 2000 km of NSW coastline was analysed. The greatest abundances of Alexandrium spp. were observed during the austral Spring and Summer, in estuaries in the mid and southern latitudes of the state. In identifying these high risk zones, we propose variables such as season, temperature, rainfall and estuarine flushing to be targeted in intensive site specific studies, to support the development of predictive tools for resource managers., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013

36. [Can solar/geomagnetic activity restrict the occurrence of some shellfish poisoning outbreaks? The example of PSP caused by Gymnodinium catenatum at the Atlantic Portuguese coast].

Author

Vale P

Subjects

Animals, Disease Outbreaks, Electromagnetic Fields, Geological Phenomena, Humans, Okadaic Acid poisoning, Periodicity, Portugal epidemiology, Pyrans poisoning, Seasons, Dinoflagellida growth & development, Shellfish parasitology, Shellfish Poisoning epidemiology, Solar Activity

Abstract

Cyclic outbreaks of accumulation of paralytic shellfish poisoning (PSP) toxins in mussels attributed to Gymnodinium catenatum blooms displayed several of the highest inter-annual maxima coincidental with minima of the 11-year solar sunspot number (SSN) cycle. The monthly distribution of PSP was associated with low levels of the solar radio flux, a more quantitative approach than SSN for fluctuations in solar activity. A comparison between monthly distribution of PSP and other common biotoxins (okadaic acid (OA), dinophysistoxin-2 (DTX2) and amnesic shellfish poisoning (ASP) toxins) demonstrated that only PSP was significantly associated with low levels of radio flux (p < 0.01). PSP occurrence suggests a prior decline in solar activity could be required to act as a trigger, in a similar manner to a photoperiodic signal. The seasonal frequency increased towards autumn during the study period, which might be related to the progressive atmospheric cut-off of deleterious radiation associated with the seasonal change in solar declination, and might play an additional role in seasonal signal-triggering. PSP distribution was also associated with low levels of the geomagnetic index Aa. A comparison between monthly distribution of PSP and other common biotoxins, also demonstrated that only PSP was significantly associated with low levels of the Aa index (p < 0.01). In some years of SSN minima no significant PSP-outbreaks in mussels were detected. This was attributed to a steady rise in geomagnetic activity that could disrupt the triggering signal. Global distribution patterns show that hotspots for G. catenatum blooms are regions with deficient crustal magnetic anomalies. In addition to the variable magnetic field mostly of solar origin, static fields related to magnetized rocks in the crust and upper mantle might play a role in restricting worldwide geographic distribution.

Published

2013

37. Diarrhetic shellfish toxins and other lipophilic toxins of human health concern in Washington State.

Author

Trainer VL, Moore L, Bill BD, Adams NG, Harrington N, Borchert J, da Silva DA, and Eberhart BT

Subjects

Animals, Bivalvia chemistry, Chromatography, Liquid, Diarrhea, Disease Outbreaks, Humans, Marine Toxins isolation & purification, Okadaic Acid analysis, Okadaic Acid isolation & purification, Shellfish analysis, Shellfish Poisoning epidemiology, Tandem Mass Spectrometry, Washington, Environmental Monitoring methods, Marine Toxins analysis, Seafood analysis, Shellfish Poisoning prevention & control

Abstract

The illness of three people in 2011 after their ingestion of mussels collected from Sequim Bay State Park, Washington State, USA, demonstrated the need to monitor diarrhetic shellfish toxins (DSTs) in Washington State for the protection of human health. Following these cases of diarrhetic shellfish poisoning, monitoring for DSTs in Washington State became formalized in 2012, guided by routine monitoring of Dinophysis species by the SoundToxins program in Puget Sound and the Olympic Region Harmful Algal Bloom (ORHAB) partnership on the outer Washington State coast. Here we show that the DSTs at concentrations above the guidance level of 16 μg okadaic acid (OA) + dinophysistoxins (DTXs)/100 g shellfish tissue were widespread in sentinel mussels throughout Puget Sound in summer 2012 and included harvest closures of California mussel, varnish clam, manila clam and Pacific oyster. Concentrations of toxins in Pacific oyster and manila clam were often at least half those measured in blue mussels at the same site. The primary toxin isomer in shellfish and plankton samples was dinophysistoxin-1 (DTX-1) with D. acuminata as the primary Dinophysis species. Other lipophilic toxins in shellfish were pectenotoxin-2 (PTX-2) and yessotoxin (YTX) with azaspiracid-2 (AZA-2) also measured in phytoplankton samples. Okadaic acid, azaspiracid-1 (AZA-1) and azaspiracid-3 (AZA-3) were all below the levels of detection by liquid chromatography tandem mass spectrometry (LC-MS/MS). A shellfish closure at Ruby Beach, Washington, was the first ever noted on the Washington State Pacific coast due to DSTs. The greater than average Fraser River flow during the summers of 2011 and 2012 may have provided an environment conducive to dinoflagellates and played a role in the prevalence of toxigenic Dinophysis in Puget Sound.

Published

2013

38. Food-borne disease outbreak of diarrhetic shellfish poisoning due to toxic mussel consumption: the first recorded outbreak in china.

Author

Chen T, Xu X, Wei J, Chen J, Miu R, Huang L, Zhou X, Fu Y, Yan R, Wang Z, Liu B, and He F

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Animals, Case-Control Studies, Child, Child, Preschool, China epidemiology, Female, Food Contamination, Geography, Humans, Incidence, Male, Middle Aged, Odds Ratio, Seafood microbiology, Shellfish Poisoning diagnosis, Young Adult, Disease Outbreaks, Shellfish Poisoning epidemiology

Abstract

Objectives: This investigation was undertaken in response to an outbreak of suspected shellfish poisoning in Zhejiang Province, China. The objectives of this project were to confirm the outbreak and to identify the aetiology, source and mode of transmission., Methods: A probable case was defined as an individual with diarrhea (≥3 times/day) plus at least one of the following symptoms: fever (≥37.5°C), vomiting, or abdominal pain after consuming seafood between May 23(rd) and May 28(th), 2011. Using a case-control study design, we compared exposures to suspected seafood items and cooking methods between 61 probable cases and 61 controls., Results: Over 220 suspected or probable cases of diarrhetic shellfish poisoning (DSP) were identified (incidence of 18 cases per 100,000). The case control study revealed that 100% of cases and 18% of controls had eaten mussels during the exposure period (OR = ∞, χ(2) = 84.72,P = 0.000). The number of mussels consumed was related to DSP risk (P = 0.004, χ2 test for trend). Consumption of other seafood items was not associated with disease. The frequency of diarrhea and vomiting were positively correlated with the number of mussels consumed (r = 0.424 and r = 0.562, respectively). The frequency of vomiting and the incubation period were significantly correlated with the total time the mussels were boiled (r = 0.594 and r = -0.336, respectively). Mussels from 3 food markets and one family contained Okadaic acid (OA) and Dinophysistoxin-1 (DTX-1)., Conclusions: This outbreak was attributed to the consumption of mussels contaminated by DSP-toxins (OA and DTX-1) which are produced by different species of dinoflagellates (toxic microalgae) from the genus Dinophysis or Prorocentrum. Suspension of mussel sales and early public announcements were highly effective in controlling the outbreak, although oversight of seafood quality should be a priority to prevent future contamination and outbreaks.

Published

2013

39. Outbreak of Diarrhetic Shellfish Poisoning associated with mussels, British Columbia, Canada.

Author

Taylor M, McIntyre L, Ritson M, Stone J, Bronson R, Bitzikos O, Rourke W, and Galanis E

Subjects

Animals, British Columbia epidemiology, Disease Outbreaks, Environmental Monitoring methods, Food Safety, Humans, Product Recalls and Withdrawals, Shellfish Poisoning etiology, Bivalvia chemistry, Marine Toxins toxicity, Seafood toxicity, Shellfish Poisoning epidemiology

Abstract

In 2011, a Diarrhetic Shellfish Poisoning (DSP) outbreak occurred in British Columbia (BC), Canada that was associated with cooked mussel consumption. This is the first reported DSP outbreak in BC. Investigation of ill individuals, traceback of product and laboratory testing for toxins were used in this investigation. Sixty-two illnesses were reported. Public health and food safety investigation identified a common food source and harvest area. Public health and regulatory agencies took actions to recall product and notify the public. Shellfish monitoring program changes were implemented after the outbreak. Improved response and understanding of toxin production will improve management of future DSP outbreaks.

Published

2013

40. Paralytic shellfish poisoning in south eastern Tasmania.

Author

Turnbull A, Harrison R, and McKeown S

Subjects

Harmful Algal Bloom, Humans, Male, Saxitoxin poisoning, Shellfish Poisoning epidemiology, Tasmania epidemiology, Shellfish Poisoning diagnosis

Published

2013

41. Exposure to domoic acid through shellfish consumption in Belgium.

Author

Andjelkovic M, Vandevijvere S, Van Klaveren J, Van Oyen H, and Van Loco J

Subjects

Animals, Belgium, Environmental Monitoring, Humans, Kainic Acid analysis, Seawater chemistry, Shellfish Poisoning epidemiology, Kainic Acid analogs & derivatives, Shellfish statistics & numerical data, Water Pollutants, Chemical analysis

Abstract

A main known culprit causing amnesic shellfish poisoning in humans is domoic acid (DA). The toxin appearance in sea waters (by counting the toxin producing algae) and consequently in shellfish is closely monitored to prevent acute intoxications with gastrointestinal symptoms and neurological signs. However it is assumed that there might be some chronic problems with repetitive exposures to the toxin in animals. In humans this is greatly unknown and it is mostly assessed by relating reported toxin episodes and representative consumption data. Although in Belgium no alarming outbreaks have been reported in recent years, different concentrations of DA have been found in shellfish samples. In this study the human acute and chronic exposure to DA through shellfish consumption was evaluated by linking the data of DA concentrations in samples collected in the scope of the National Food control program in the period 2004-2009 and consumption data obtained from the National Belgian Food Consumption Survey including 3245 adults. The found level of toxin was highest in scallops while lowest in mussels. The mean usual long-term intake of molluscs such as scallops, mussels and oysters for the whole Belgian population was from 0.10 g/day for scallops to 1.21 g/day for mussels. With average portion size estimated to be 56-108 g/day depending on the shellfish source it was calculated that less than 1% of the population would be at risk of acute intoxication. Using a medium bound approach, 5-6% of the population shows chronic exposure exceeding the tolerable daily intake of 0.075 μg/kg bw per day with scallops being the most probable toxin vector when using lower (68.5%) and medium (45.6%) bound concentrations., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

42. Toxins in mussels (Mytilus galloprovincialis) associated with diarrhetic shellfish poisoning episodes in China.

Author

Li A, Ma J, Cao J, and McCarron P

Subjects

Abdominal Pain etiology, Alveolata classification, Animals, China epidemiology, Diarrhea etiology, Diet ethnology, Food Contamination, Humans, Mollusk Venoms, Okadaic Acid analysis, Ostreidae chemistry, Oxocins analysis, Pacific Ocean, Pectinidae chemistry, Pyrans analysis, Seafood adverse effects, Shellfish Poisoning ethnology, Shellfish Poisoning physiopathology, Disease Outbreaks, Marine Toxins toxicity, Mytilus chemistry, Seafood analysis, Shellfish Poisoning epidemiology

Abstract

More than 200 people in China suffered illness with symptoms of diarrhetic shellfish poisoning (DSP) following consumption of mussels (Mytilus galloprovincialis). The event occurred in the cities of Ningbo and Ningde near the East China Sea in May, 2011. LC-MS/MS analysis showed that high concentrations of okadaic acid, dinophysistoxin-1, and their acyl esters were responsible for the incidents. The total concentration was more than 40 times the EU regulatory limit of 160 μg OA eq./kg. Pectentoxin-2 and its seco-acids were also present in the mussels. Additionally, yessotoxins were found to be responsible for positive mouse bioassay results on scallop (Patinopecten yessoensis) and oyster (Crassostrea talienwhanensis) samples collected from the North Yellow Sea in June, 2010. This work shows that high levels of lipophilic toxins can accumulate in shellfish from the Chinese coast and it emphasises that adequate chemical analytical methodologies are needed for monitoring purposes. Further research is required to broaden the knowledge on the occurrence of lipophilic toxins in Chinese shellfish., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

43. Occurrence of diarrhetic shellfish poisoning (DSP) toxins in clams (Ruditapes decussatus) from Tunis north lagoon.

Author

Armi Z, Turki S, Trabelsi E, Ceredi A, Riccardi E, and Milandri A

Subjects

Animals, Chromatography, Liquid, Dinoflagellida, Environmental Monitoring, Epidemiological Monitoring, Marine Toxins toxicity, Okadaic Acid toxicity, Pyrans toxicity, Shellfish Poisoning epidemiology, Tandem Mass Spectrometry, Tunisia, Water Pollutants, Chemical metabolism, Water Pollutants, Chemical toxicity, Bivalvia metabolism, Marine Toxins metabolism, Okadaic Acid metabolism, Pyrans metabolism

Abstract

The main diarrhetic shellfish toxins, okadaic acid (OA) and dinophysistoxin-1, 2 (DTX-2, 2) were detected by liquid chromatography-tandem mass spectrometry (LC-MS/MS) as pyrenacyl esters in clams (Ruditapes decussatus) collected in Tunis north lagoon from January 2007 to June 2008. Sample analyses by LC-MS/MS displayed OA and related congeners (DTX-2, 2) with a highest detected level of 21 μg OA eq/kg shellfish meat for the samples of January 2007. Nevertheless, all samples were MBA negative. During the study period, potentially toxic dinoflagellate Dinophysis sacculus was recorded all year, blooming at different times. Highest concentrations were recorded during January 2007 with 4.6 × 10(4) cells per liter and 4.10(4) cells per liter in the northern and southern districts, respectively. Results show that there is no significant correlation between D. sacculus densities in water column and diarrhetic shellfish poisoning (DSP) toxins concentrations unregistered in clams. These data reveal that DSP toxicity in clams of Tunis north lagoon is low according to European regulatory limit (160 μg OA eq/kg shellfish meat). However, a potential threat, in this area, is represented by DSP toxic species as D. sacculus and provides grounds for widen and reinforcing sanitary control of the phycotoxin measures in the region.

Published

2012

44. Apparent bioaccumulation of cylindrospermopsin and paralytic shellfish toxins by finfish in Lake Catemaco (Veracruz, Mexico).

Author

Berry JP, Jaja-Chimedza A, Dávalos-Lind L, and Lind O

Subjects

Alkaloids, Animals, Bacterial Toxins, Cyanobacteria, Cyanobacteria Toxins, Environmental Monitoring methods, Epidemiological Monitoring, Food Chain, Invertebrates, Mexico epidemiology, Shellfish Poisoning epidemiology, Uracil metabolism, Uracil toxicity, Water Microbiology, Water Pollutants, Chemical metabolism, Fishes metabolism, Lakes chemistry, Uracil analogs & derivatives

Abstract

Compared to the well-characterized health threats associated with contamination of fish and shellfish by algal toxins in marine fisheries, the toxicological relevance of the bioaccumulation of toxins from cyanobacteria (blue-green algae), as the primary toxigenic algae in freshwater systems, remains relatively unknown. Lake Catemaco (Veracruz, Mexico) is a small, tropical lake system specifically characterized by a year-round dominance of the known toxigenic cyanobacterial genus, Cylindrospermopsis, and by low, but detectable, levels of both a cyanobacterial hepatotoxin, cylindrospermopsin (CYN), and paralytic shellfish toxins (PSTs). In the present study, we evaluated, using enzyme-linked immunoassay (ELISA), levels of both toxins in several species of finfish caught and consumed locally in the region to investigate the bioaccumulation of, and possible health threats associated with, these toxins as potential foodborne contaminants. ELISA detected levels of both CYN and PSTs in fish tissues from the lake. Levels were generally low (≤ 1 ng g(-1) tissue); however, calculated bioaccumulation factors (BAFs) indicate that toxin levels exceed the rather low levels in the water column and, consequently, indicated bioaccumulation (BAF >1). A reasonable correlation was observed between measured bioaccumulation of CYN and PSTs, possibly indicating a mutual source of both toxins, and most likely cells of Cylindrospermopsis, the dominant cyanobacteria in the lake, and a known producer of both metabolites. The potential roles of trophic transport in the system, as well as possible implications for human health with regards to bioaccumulation, are discussed.

Published

2012

45. Geographical and annual variation in lipophilic shellfish toxins from oysters and mussels along the south coast of Korea.

Author

Lee KJ, Mok JS, Song KC, Yu H, Jung JH, and Kim JH

Subjects

Animals, Consumer Product Safety, Diarrhea epidemiology, Diarrhea etiology, Diarrhea prevention & control, Humans, Korea epidemiology, Seasons, Shellfish analysis, Shellfish Poisoning etiology, Shellfish Poisoning prevention & control, Species Specificity, Tandem Mass Spectrometry, Bivalvia chemistry, Food Safety, Ostreidae chemistry, Shellfish Poisoning epidemiology

Abstract

To better understand critical aspects of diarrhetic shellfish poisoning (DSP) occurrence in a chief producing region of bivalves in Korea, the geographical and annual variation of DSP toxins and other lipophilic toxins in mussels (Mytilus galloprovincialis) and oysters (Crassostrea gigas) were investigated by liquid chromatography-tandem mass spectrometry in an area on the south coast of Korea from 2007 to 2009. The total lipophilic shellfish toxin (LST) levels in bivalves showed geographical and annual variations. LSTs were detected mostly in the hepatopancreas of mussels from Jinhae Bay throughout the entire year, except in November and December of 2007, but were almost undetectable in all samples during the entire year in 2009. The peak DSP toxin (okadaic acid plus dinophysistoxin 1) levels in the hepatopancreas of mussels from Jinhae Bay and the Tongyeong region were 945.3 and 37.6 ng/g, respectively. The DSP toxin content was about 10 times higher in mussels than in oysters collected from the same region. The major toxins in bivalves were okadaic acid and dinophysistoxin 1; however, pectenotoxin 2 or yessotoxin was occasionally detected as a major component. The results of a quantitative analysis of phytoplankton showed that Dinophysis acuminata was the most probable source of the LSTs, with the exception of yessotoxin. When the highest DSP toxin level was measured (945.3 ng/g in the hepatopancreas of mussels from Jinhae Bay), the toxin concentration in whole mussel tissue was calculated to be 114.0 ng/g. The calculated highest DSP toxin level in whole oyster tissue from both regions was 15.0 ng/g. The calculated maximum toxicities in whole mussel and oyster tissues were lower than the regulatory limit (160 to 200 ng/g) in Korea, the European Union, and the United States. Korean oysters (242 samples) and mussels (214 samples) were thus deemed safe for consumption. But because such variation was detected in a relatively small area of the coast, it is possible that at some locations or during a specific period LST levels could exceed the standard and a few consumers could be at risk of experiencing DSP.

Published

2011

46. Paralytic shellfish poisoning --- southeast Alaska, May--June 2011.

Subjects

Alaska epidemiology, Animals, Food Contamination, Hospitalization, Humans, Male, Middle Aged, Risk, Saxitoxin isolation & purification, Shellfish Poisoning diagnosis, Shellfish Poisoning etiology, Bivalvia microbiology, Disease Outbreaks, Shellfish microbiology, Shellfish Poisoning epidemiology

Abstract

On June 6, 2011, the Section of Epidemiology (SOE) of the Alaska Division of Public Health was notified of a case of paralytic shellfish poisoning (PSP) in southeast Alaska. In collaboration with local partners, SOE investigated and identified a total of eight confirmed and 13 probable PSP cases that occurred during May--June 2011. Warnings to avoid noncommercially harvested shellfish were broadcast on local radio and television and displayed at beaches and in post offices, government offices, and businesses throughout the region. Commercially harvested shellfish, which are tested for the presence of PSP-causing toxins, were safe. Because the risk for PSP is unpredictable, persons who consume noncommercially harvested Alaskan shellfish should know that they are at risk for PSP, and suspected cases should be reported promptly to SOE to initiate control measures in the affected area.

Published

2011

47. Food poisoning outbreaks linked to mussels contaminated with okadaic acid and ester dinophysistoxin-3 in France, June 2009.

Author

Hossen V, Jourdan-da Silva N, Guillois-Bécel Y, Marchal J, and Krys S

Subjects

Adolescent, Adult, Aged, Animals, Child, Chromatography, Liquid methods, Chromatography, Liquid standards, Dinoflagellida chemistry, Female, Food Contamination analysis, France epidemiology, Humans, Male, Marine Toxins analysis, Marine Toxins poisoning, Marine Toxins standards, Mice, Middle Aged, Okadaic Acid standards, Pyrans standards, Reference Standards, Tandem Mass Spectrometry methods, Tandem Mass Spectrometry standards, Toxicity Tests, Young Adult, Bivalvia chemistry, Okadaic Acid poisoning, Pyrans poisoning, Shellfish Poisoning epidemiology

Abstract

In June 2009, 11 outbreaks of food poisoning occurred in France, involving 45 individuals who had consumed mussels harvested in Vilaine Bay (Northwestern France). Because the toxic dinoflagellate Dinophysis spp. had been detected in the area from mid-May, okadaic acid (OA) and dinophysistoxins were suspected to be the cause of these outbreaks, although the weekly monitoring tests by mouse bioassay had been negative. With the help of the French reporting system for food-borne disease outbreaks, the detailed data on epidemiology, mussel consumption and complete product traceback, were collected for 11 individuals involved in three reported outbreaks. The batch of mussels identified as the source of these three outbreaks contained concentrations of toxins of the okadaic acid group that were approximately eight times higher than the European regulatory limit. Moreover, based on the consumption data available for the 11 cases, a lowest observable adverse effects level (LOAEL) was deduced. The LOAEL calculated from this study, although based on a very limited number of individuals, was in the same range, i.e. approximately 50 μg OA equivalents per person, as the LOAEL established by the European Food Safety Authority in 2006.

Published

2011

48. Toxic marine microalgae and shellfish poisoning in the British isles: history, review of epidemiology, and future implications.

Author

Hinder SL, Hays GC, Brooks CJ, Davies AP, Edwards M, Walne AW, and Gravenor MB

Subjects

Epidemiological Monitoring, Humans, Incidence, Microalgae classification, Shellfish Poisoning classification, United Kingdom epidemiology, Wales epidemiology, Environmental Monitoring, Microalgae pathogenicity, Microalgae physiology, Shellfish Poisoning epidemiology

Abstract

The relationship between toxic marine microalgae species and climate change has become a high profile and well discussed topic in recent years, with research focusing on the possible future impacts of changing hydrological conditions on Harmful Algal Bloom (HAB) species around the world. However, there is very little literature concerning the epidemiology of these species on marine organisms and human health. Here, we examine the current state of toxic microalgae species around the UK, in two ways: first we describe the key toxic syndromes and gather together the disparate reported data on their epidemiology from UK records and monitoring procedures. Secondly, using NHS hospital admissions and GP records from Wales, we attempt to quantify the incidence of shellfish poisoning from an independent source. We show that within the UK, outbreaks of shellfish poisoning are rare but occurring on a yearly basis in different regions and affecting a diverse range of molluscan shellfish and other marine organisms. We also show that the abundance of a species does not necessarily correlate to the rate of toxic events. Based on routine hospital records, the numbers of shellfish poisonings in the UK are very low, but the identification of the toxin involved, or even a confirmation of a poisoning event is extremely difficult to diagnose. An effective shellfish monitoring system, which shuts down aquaculture sites when toxins exceed regularity limits, has clearly prevented serious impact to human health, and remains the only viable means of monitoring the potential threat to human health. However, the closure of these sites has an adverse economic impact, and the monitoring system does not include all toxic plankton. The possible geographic spreading of toxic microalgae species is therefore a concern, as warmer waters in the Atlantic could suit several species with southern biogeographical affinities enabling them to occupy the coastal regions of the UK, but which are not yet monitored or considered to be detrimental.

Published

2011

49. Highly toxic Microcystis aeruginosa strain, isolated from São Paulo-Brazil, produce hepatotoxins and paralytic shellfish poison neurotoxins.

Author

Sant'Anna CL, de Carvalho LR, Fiore MF, Silva-Stenico ME, Lorenzi AS, Rios FR, Konno K, Garcia C, and Lagos N

Subjects

Animals, Bacterial Toxins biosynthesis, Bacterial Toxins isolation & purification, Brazil epidemiology, Mice, Microcystins biosynthesis, Microcystins isolation & purification, Neurotoxins biosynthesis, Shellfish Poisoning diagnosis, Shellfish Poisoning epidemiology, Bacterial Toxins toxicity, Liver metabolism, Liver microbiology, Microcystins toxicity, Microcystis isolation & purification, Microcystis pathogenicity, Neurotoxins toxicity, Shellfish Poisoning microbiology

Abstract

While evaluating several laboratory-cultured cyanobacteria strains for the presence of paralytic shellfish poison neurotoxins, the hydrophilic extract of Microcystis aeruginosa strain SPC777--isolated from Billings's reservoir, São Paulo, Brazil--was found to exhibit lethal neurotoxic effect in mouse bioassay. The in vivo test showed symptoms that unambiguously were those produced by PSP. In order to identify the presence of neurotoxins, cells were lyophilized, and the extracts were analyzed by HPLC-FLD and HPLC-MS. HPLC-FLD analysis revealed four main Gonyautoxins: GTX4(47.6%), GTX2(29.5%), GTX1(21.9%), and GTX3(1.0%). HPLC-MS analysis, on other hand, confirmed both epimers, with positive Zwitterions M(+) 395.9 m/z for GTX3/GTX2 and M(+) 411 m/z for GTX4/GTX1 epimers.The hepatotoxins (Microcystins) were also evaluated by ELISA and HPLC-MS analyses. Positive immunoreaction was observed by ELISA assay. Alongside, the HPLC-MS analyses revealed the presence of [L: -ser(7)] MCYST-RR. The N-methyltransferase (NMT) domain of the microcystin synthetase gene mcyA was chosen as the target sequence to detect the presence of the mcy gene cluster. PCR amplification of the NMT domain, using the genomic DNA of the SPC777 strain and the MSF/MSR primer set, resulted in the expected 1,369 bp product. The phylogenetic analyses grouped the NMT sequence with the NMT sequences of other known Microcystis with high bootstrap support. The taxonomical position of M. aeruginosa SPC777 was confirmed by a detailed morphological description and a phylogenetic analysis of 16S rRNA gene sequence. Therefore, co-production of PSP neurotoxins and microcystins by an isolated M. aeruginosa strain is hereby reported for the first time.

Published

2011

50. Lipophilic toxin profile in Mytilus galloprovincialis during episodes of diarrhetic shellfish poisoning (DSP) in the N.E. Adriatic Sea in 2006.

Author

Nincevic Gladan Z, Ujevic I, Milandri A, Marasovic I, Ceredi A, Pigozzi S, Arapov J, and Skejic S

Subjects

Animals, Chromatography, Liquid, Humans, Mediterranean Region epidemiology, Tandem Mass Spectrometry, Diarrhea epidemiology, Mytilus chemistry, Shellfish Poisoning epidemiology

Abstract

Dinophysis spp. blooms and related shellfish toxicity events of diarrhetic shellfish poisoning (DSP) have been the most reported toxicity event through the Croatian National monitoring program. With the aim to characterize the DSP toxin profile in shellfish farmed in Croatia, for the first time a complete analysis of the toxin profile of Croatian mussels has been carried out using the LC-MS/MS technique. The obtained results showed okadaic acid (OA) as the main toxin contaminating Croatian mussels at that time. The maximum concentration of OA in shellfish tissue was recorded 12 days after the Dinophysis fortii bloom, thus suggesting that rapid growth of the toxin level in the shellfish occurred in the first week after the bloom while it was slower in the second week. Furthermore, the presence of only OA at concentrations which could endanger human health suggests D. fortii as the main organism responsible for the toxic event that occurred in Lim Bay. The presence of gymnodimine and spirolides in Croatian mussel has been detected for the first time, while the presence of yessotoxin and pectenotoxin-2 is confirmed.

Published

2011