Your search keyword '"Sonia Dall’Ara"' showing total 16 results

1. First Report of Pinnatoxin-G (PnTX-G) in a Marine–Coastal Area of the Adriatic Sea Associated with the Presence of the Dinoflagellate Vulcanodinium rugosum

Author

Monica Cangini, Sonia Dall’Ara, Silva Rubini, Barbara Bertasi, Paolo Rizzi, Giovanni Dell’Orfano, Stefania Milandri, Stefano Manfredini, Erika Baldini, and Silvia Vertuani

Subjects

emerging toxins, drug discovery, cyclic imines, Vulcanodinium rugosum, Biology (General), QH301-705.5

Abstract

This study reports the first detection of the marine neurotoxin pinnatoxin-G (PnTX-G) in clams collected in the northwestern Adriatic Sea (Italy). It also represents the first report of the potential toxin-producing dinoflagellate, Vulcanodinium rugosum, in Italian seas. This result, from the coasts of the Emilia-Romagna Region, indicates a successful colonization process, reflecting conditions in France where V. rugosum was initially documented. In this case, the concentration of PnTXs was very low, making further sampling necessary to fully understand the extent of the phenomenon. Discussions on the need to obtain more data to support a proper risk assessment and the need to implement a monitoring program that includes emerging marine biotoxins are also included.

Published

2024

2. Microbiological and Toxicological Investigations on Bivalve Molluscs Farmed in Sicily

Author

Annamaria Castello, Vincenzina Alio, Gaetano Cammilleri, Sonia Sciortino, Andrea Macaluso, Vincenzo Ferrantelli, Sonia Dall’Ara, Fiorella Pino, Irene Servadei, Giuseppa Oliveri, and Antonella Costa

Subjects

food safety, shellfish, enteropathogenic Vibrio, Arcobacter spp., Aeromonas spp., Salmonella spp., Chemical technology, TP1-1185

Abstract

Bivalves can concentrate biological and chemical pollutants, causing foodborne outbreaks whose occurrence is increasing, due to climatic and anthropic factors that are difficult to reverse, hence the need for improved surveillance. This study aimed to evaluate the hygienic qualities of bivalves sampled along the production and distribution chain in Sicily and collect useful data for consumer safety. Bacteriological and molecular analyses were performed on 254 samples of bivalves for the detection of enteropathogenic Vibrio, Arcobacter spp., Aeromonas spp., Salmonella spp., and beta-glucuronidase-positive Escherichia coli. A total of 96 out of 254 samples, collected in the production areas, were processed for algal biotoxins and heavy metals detection. Bacterial and algal contaminations were also assessed for 21 samples of water from aquaculture implants. Vibrio spp., Arcobacter spp., Aeromonas hydrophila, Salmonella spp., and Escherichia coli were detected in 106/254, 79/254, 12/254, 16/254, and 95/254 molluscs, respectively. A total of 10/96 bivalves tested positive for algal biotoxins, and metals were under the legal limit. V. alginolyticus, A. butzleri, and E. coli were detected in 5, 3, and 3 water samples, respectively. Alexandrium minutum, Dinophysis acuminata, Lingulodinium polyedra, and Pseudonitzschia spp. were detected in water samples collected with the biotoxin-containing molluscs. Traces of yessotoxins were detected in molluscs from water samples containing the corresponding producing algae. Despite the strict regulation by the European Commission over shellfish supply chain monitoring, our analyses highlighted the need for efficiency improvement.

Published

2024

3. Accidental discovery of a Tetraodontidae (Sphoeroides marmoratus) within a cuttlefish (Sepia officinalis) bought in a fish shop in Italy: risk assessment associated with the presence of Tetrodotoxin

Author

Chiara Malloggi, Lara Tinacci, Alice Giusti, Federico Galli, Sonia Dall'Ara, Paola Marconi, Laura Gasperetti, and Andrea Armani

Subjects

Marine toxin, pufferfish, risk analysis, seafood inspection, citizens science, Food processing and manufacture, TP368-456

Abstract

The discovery of a pufferfish specimen (Tetraodontidae) inside a frozen cuttlefish, purchased by a fishmonger, and caught in the central-east Atlantic (FAO 34) is reported. The consumer, who reported this case to FishLab (Department of Veterinary Sciences, University of Pisa) for investigation, was a student of Veterinary Medicine at the University of Pisa. He recognized the Tetraodontidae because he attended practical lessons on fish morphological identification during the course of food inspection and was aware of the risks to human health linked to the Tetrodotoxin (TTX). In this study, the pufferfish was identified morphologically, using the FAO morphological keys, and molecularly, analyzing two markers, the cytochrome oxidase I (COI) and the cytochrome b genes, by DNA barcoding. The pufferfish was identified morphologically as Sphoeroides spp., and molecularly as Sphoeroides marmoratus using the COI gene (99-100% identity values). Literature reports that S. marmoratus from the eastern Atlantic contains high concentrations of TTX in the gonads and the digestive tract. However, the possible passage of TTX from fish to other organisms linked to contact or ingestion has never been reported. This represents the first case of a potentially toxic pufferfish entering the market inside another organism. The fact that a student observed this occurrence highlights the key role of citizen science in the management of emerging risks.

Published

2023

4. First Toxicological Analysis of the Pufferfish Sphoeroides pachygaster Collected in Italian Waters (Strait of Sicily): Role of Citizens Science in Monitoring Toxic Marine Species

Author

Chiara Malloggi, Biagio Rizzo, Alice Giusti, Lisa Guardone, Laura Gasperetti, Sonia Dall’Ara, and Andrea Armani

Subjects

marine toxins, TTX, saxitoxins, pufferfish, not indigenous species, Mediterranean, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Pufferfish (Tetraodontidae) inhabiting the Mediterranean Sea may represent an emerging public health risk due to the possible accumulation of marine neurotoxins such as tetrodotoxin (TTXs) and saxitoxin (STXs) in their tissues. In this study, the presence of pufferfish species in the Strait of Sicily (Lampedusa Island, Italy) was investigated using a citizen science (CS) approach, involving local fishermen. Samples (liver, intestine, gonads, muscle, skin) from 20 specimens were sent to the National Reference Laboratory on Marine Biotoxins for TTXs detection using a validated HILIC-MS/MS method on fish tissue. The presence of STXs was also screened in part of the specimens. Overall, 56 specimens identified as Sphoeroides pachygaster (Müller &Troschel, 1848) were collected. Data on their total length, body weight, fishing method and catch area (with relative depth temperature and salinity) were analyzed and compared with the S. pachygaster records reported in literature which were updated to 2022. All the analysed tissues were found to be negative for both TTXs and STXs. CS played an essential role in monitoring potentially toxic marine species in this investigation. Outcomes from this study, which is the first investigating S. pachygaster toxicity in Italian waters, may provide useful data for the proper assessment of this emerging risk.

Published

2023

5. A Year of Bio-Monitoring (2021): Presence of Algae of the Genus Alexandrium, Dinophysis, Prorocentrum and Non-Compliance for Paralytic Toxins and Lipophilic Toxins in Bivalve Mollusks Bred in Sardinia (W Mediterranean Sea)

Author

Giuseppa Lorenzoni, Anna Maria Bazzoni, Monica Cangini, Sonia Dall’Ara, Rita Melillo, Alessandro Graziano Mudadu, Simona Cau, Barbara Soro, Salvatore Ledda, Gabriella Piras, Tiziana Tedde, Sara Salza, Igor Arras, Giuseppa Porqueddu, and Domenico Meloni

Subjects

bivalve mollusks, saxitoxins, okadaic acid, potentially toxic algae, Sardinia, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

Bivalve mollusk production represents the principal aquaculture activity in Sardinia (40°03′ N, 9°05′ E). In 2021, 859 water samples and 1270 mollusk samples were analyzed. The species Alexandrium minutum caused the accumulation of Paralytic Shellfish Toxins (PST) in three samples of bivalve mollusks. Dinophysis acuminata complex caused the accumulation of lipophilic toxins (LTs) belonging to the okadaic acid group (OAs) in 18 samples of bivalve mollusks. The research of paralytic shellfish toxins (PSTs) in shellfish samples has been carried out with LC-FLD, as mentioned in the AOAC 2005 Official Method 2005.06. The determination of LTs was carried out by LC-MS/MS analysis. DTX2, belonging to the group of OA toxins, was detected for the first time in Sardinia, in mussels sampled in Tortolì. The presence of Dinophysis and Prorocentrum species was correlated with the accumulation of the OA toxin group in bivalve mollusks, showing a certain repeatability at certain times of the year in the areas included in the study. The results of the present study can help to plan and organize more effective bio-monitoring sampling strategies.

Published

2022

6. A High Throughput Screening HPLC-FLD Method for Paralytic Shellfish Toxins (PSTs) Enabling Effective Official Control

Author

Melania Siracusa, Simone Bacchiocchi, Alessandra Dubbini, Debora Campacci, Tamara Tavoloni, Arianna Stramenga, Martina Ciriaci, Sonia Dall’Ara, and Arianna Piersanti

Subjects

paralytic shellfish toxins, HPLC-FLD, official control, screening method, marine biotoxins, gastropods, Organic chemistry, QD241-441

Abstract

Paralytic Shellfish Toxins (PSTs) are marine biotoxins, primarily produced by dinoflagellates of the genera Gymnodinium spp., Alexandrium spp. They can accumulate in shellfish and, through the food chain, be assimilated by humans, giving rise to Paralytic Shellfish Poisoning. The maximum permitted level for PSTs in bivalves is 800 μg STX·2HCl eqv/kg (Reg. EC N° 853/2004). Until recently, the reference analytical method was the Mouse Bioassay, but Reg. EU N° 1709/2021 entered into force on 13 October 2021 and identified in the Standard EN14526:2017 or in any other internationally recognized validated method not entailing the use of live animals as official methods. Then the official control laboratories had urgently to fulfill the new requests, face out the Mouse Bioassay and implement instrumental analytical methods. The “EURLMB SOP for the analysis of PSTs by pre-column HPLC-FLD according to OMA AOAC 2005.06” also introduced a simplified semiquantitative approach to discriminate samples above and below the regulatory limit. The aim of the present paper is to present a new presence/absence test with a cut-off at 600 μg STX·2HCl eqv/kg enabling the fast discrimination of samples with very low PSTs levels from those to be submitted to the full quantitative confirmatory EN14526:2017 method. The method was implemented, avoiding the use of a large number of certified reference standards and long quantification procedures, resulting in an efficient, economical screening instrument available for official control laboratories. The protocol was fully validated, obtaining good performances in terms of repeatability (

Published

2022

7. Algal blooms of Alexandrium spp. and Paralytic Shellfish Poisoning toxicity events in mussels farmed in Sicily

Author

Antonella Costa, Vincenzina Alio, Sonia Sciortino, Luisa Nicastro, Monica Cangini, Fiorella Pino, Irene Servadei, Angelo La Vignera, Gianluca Fortino, Salvatore Monaco, and Sonia Dall'Ara

Subjects

Alexandrium minutum, PSP toxin profile, Sicily, Shellfish farms, Food processing and manufacture, TP368-456

Abstract

Marine biotoxins can accumulate in filter-feeders bivalve molluscs, that may represent a source of potential health problems being vectors of toxins, that are transferred to humans through their consumption. Harmful Algal Blooms impact on aquaculture may give also economic losses due to temporary closures of contaminated shellfish harvest and marketing. The presence of toxic algae for Paralytic Shellfish Poisoning (PSP), with recurrent toxic blooms of dinoflagellates, such as several Alexandrium species, been known since 2000 in the waters of an Ionian bay of Sicily, the Syracuse harbour, where shellfish farms are located. Our previous works reported in this area the positivity for PSP toxin in mussels (Mytilus galloprovincialis) with saxitoxin concentrations above the limit of the law and the simultaneous presence of toxic species of the genus Alexandrium in the waters. This work reports new recent episodes of algal blooms of Alexandrium minutum in the waters of the Syracuse harbour and PSP toxin contamination in farmed mussels, with values beyond the limits established by law, with the consequent immediate closure of the production area. PSP toxicity was detected with the MBA (Mouse Bioassay) with the confirm carried out with Lawrence method to quantify the total saxitoxin equivalents and characterize the toxic profile. Regular application of the implemented health plan is very important in order to prevent any risk and protect consumer health.

Published

2021

8. Toxicity of the Diatom Genus Pseudo-nitzschia (Bacillariophyceae): Insights from Toxicity Tests and Genetic Screening in the Northern Adriatic Sea

Author

Timotej Turk Dermastia, Sonia Dall’Ara, Jožica Dolenc, and Patricija Mozetič

Subjects

Adriatic, dabA, domoic acid, Pseudo-nitzschia galaxiae, ITS, Medicine

Abstract

Diatoms of the genus Pseudo-nitzschia H.Peragallo are known to produce domoic acid (DA), a toxin involved in amnesic shellfish poisoning (ASP). Strains of the same species are often classified as both toxic and nontoxic, and it is largely unknown whether this difference is also genetic. In the Northern Adriatic Sea, there are virtually no cases of ASP, but DA occasionally occurs in shellfish samples. So far, three species—P. delicatissima (Cleve) Heiden, P. multistriata (H. Takano) H. Takano, and P. calliantha Lundholm, Moestrup, & Hasle—have been identified as producers of DA in the Adriatic Sea. By means of enzme-linked immunosorbent assay (ELISA), high-performance liquid chromatography with UV and visible spectrum detection (HPLC-UV/VIS), and liquid chromatography with tandem mass spectrometry (LC-MS/MS), we reconfirmed the presence of DA in P. multistriata and P. delicatissima and detect for the first time in the Adriatic Sea DA in P. galaxiae Lundholm, & Moestrup. Furthermore, we attempted to answer the question of the distribution of DA production among Pseudo-nitzschia species and strains by sequencing the internal transcribed spacer (ITS) phylogenetic marker and the dabA DA biosynthesis gene and coupling this with toxicity data. Results show that all subclades of the Pseudo-nitzschia genus contain toxic species and that toxicity appears to be strain dependent, often with geographic partitioning. Amplification of dabA was successful only in toxic strains of P. multistriata and the presence of the genetic architecture for DA production in non-toxic strains was thus not confirmed.

Published

2022

9. New Trends in the Occurrence of Yessotoxins in the Northwestern Adriatic Sea

Author

Silva Rubini, Sabrina Albonetti, Simonetta Menotta, Antonio Cervo, Emanuele Callegari, Monica Cangini, Sonia Dall’Ara, Erika Baldini, Silvia Vertuani, and Stefano Manfredini

Subjects

Yessotoxins, global warning, toxic phytoplankton, molluscs, LC-MS/MS, structure-activity relationships, Medicine

Abstract

Yessotoxins (YTXs) are polycyclic toxic ether compounds produced by phytoplanktonic dinoflagellates which accumulate in filter-feeding organisms. We know that the water temperature in our areas Northwestern Adriatic Sea is optimal for the growth of potentially toxic algae (around 20 °C). In recent years, these temperatures have remained at these levels for longer and longer periods, probably due to global warming, which has led to an excessive increase in toxin levels. The interruption of mussel harvesting caused by algae negatively affects farmers’ revenues and the availability of local fish, causing a major economic loss in Italy’s main shellfish sector. Methods: In the nine years considered, 3359 samples were examined: 1715 marine waters, 73 common clams; 732 mussels; 66 oysters; and 773 veracious clams. Bivalve molluscs were examined for the presence of marine biotoxins, including YTXs, while potentially toxic algae, including those producing YTXs, were searched for and counted in marine waters. The method adopted for the quantification of lipophilic toxins involves the use of an LC-MS/MS system. The enumeration of phytoplankton cells was performed according to the Utermhöl method. Results: Between 2012 and 2020, 706 molluscs were tested for YTXs. In total, 246 samples tested positive, i.e., 34.84%. Of the positive samples, 30 exceeded the legal limit. Conclusion: In this regard, it is essential to develop and activate, as soon as possible, an “early warning” system that allows a better control of the production areas of live bivalve molluscs, thus allowing an optimal management of the plants in these critical situations.

Published

2021

10. Interlaboratory Evaluation of Multiple LC-MS/MS Methods and a Commercial ELISA Method for Determination of Tetrodotoxin in Oysters and Mussels

Author

Andrew D Turner, Karl J Dean, Monika Dhanji-Rapkova, Sonia Dall’Ara, Florella Pino, Claire McVey, Simon Haughey, Natasha Logan, Christopher Elliott, Ana Gago-Martinez, Jose Manuel Leao, Jorge Giraldez, Ryan Gibbs, Krista Thomas, Ruth Perez-Calderon, Dermot Faulkner, Hugh McEneny, Veronique Savar, Damien Reveillon, Philipp Hess, Fabiola Arevalo, J Pablo Lamas, Eva Cagide, Mercedes Alvarez, Alvaro Antelo, Mirjam D Klijnstra, Michalina Oplatowska-Stachowiak, Tim Kleintjens, Nermin Sajic, Michael J Boundy, Benjamin H Maskrey, D Tim Harwood, Jesús M González Jartín, Amparo Alfonso, and Luis Botana

Subjects

Pharmacology, Environmental Chemistry, Life Science, Agronomy and Crop Science, Food Science, Analytical Chemistry, Team Natural Toxins

Abstract

BackgroundGiven the recent detection of tetrodotoxin (TTX) in bivalve molluscs but the absence of a full collaborative validation study for TTX determination in a large number of shellfish samples, interlaboratory assessment of method performance was required to better understand current capabilities for accurate and reproducible TTX quantitation using chemical and immunoassay methods.ObjectiveThe aim was to conduct an interlaboratory study with multiple laboratories, using results to assess method performance and acceptability of different TTX testing methods.MethodsHomogenous and stable mussel and oyster materials were assessed by participants using a range of published and in-house detection methods to determine mean TTX concentrations. Data were used to calculate recoveries, repeatability, and reproducibility, together with participant acceptability z-scores.ResultsMethod performance characteristics were good, showing excellent sensitivity, recovery, and repeatability. Acceptable reproducibility was evidenced by HorRat values for all LC–MS/MS and ELISA methods being less than the 2.0 limit of acceptability. Method differences between the LC–MS/MS participants did not result in statistically different results. Method performance characteristics compared well with previously published single-laboratory validated methods and no statistical difference was found in results returned by ELISA in comparison with LC–MS/MS.ConclusionThe results from this study demonstrate that current LC–MS/MS methods and ELISA are on the whole capable of sensitive, accurate, and reproducible TTX quantitation in shellfish. Further work is recommended to expand the number of laboratories testing ELISA and to standardize an LC–MS/MS protocol to further improve interlaboratory precision.HighlightsMultiple mass spectrometric methods and a commercial ELISA have been successfully assessed through an interlaboratory study, demonstrating excellent performance.

Published

2023

11. First Toxicological Analysis of the Pufferfish Sphoeroides pachygaster Collected in Italian Waters (Strait of Sicily): Role of Citizens Science in Monitoring Toxic Marine Species

Author

Armani, Chiara Malloggi, Biagio Rizzo, Alice Giusti, Lisa Guardone, Laura Gasperetti, Sonia Dall’Ara, and Andrea

Subjects

marine toxins, TTX, saxitoxins, pufferfish, not indigenous species, Mediterranean, risk assessment

Abstract

Pufferfish (Tetraodontidae) inhabiting the Mediterranean Sea may represent an emerging public health risk due to the possible accumulation of marine neurotoxins such as tetrodotoxin (TTXs) and saxitoxin (STXs) in their tissues. In this study, the presence of pufferfish species in the Strait of Sicily (Lampedusa Island, Italy) was investigated using a citizen science (CS) approach, involving local fishermen. Samples (liver, intestine, gonads, muscle, skin) from 20 specimens were sent to the National Reference Laboratory on Marine Biotoxins for TTXs detection using a validated HILIC-MS/MS method on fish tissue. The presence of STXs was also screened in part of the specimens. Overall, 56 specimens identified as Sphoeroides pachygaster (Müller &Troschel, 1848) were collected. Data on their total length, body weight, fishing method and catch area (with relative depth temperature and salinity) were analyzed and compared with the S. pachygaster records reported in literature which were updated to 2022. All the analysed tissues were found to be negative for both TTXs and STXs. CS played an essential role in monitoring potentially toxic marine species in this investigation. Outcomes from this study, which is the first investigating S. pachygaster toxicity in Italian waters, may provide useful data for the proper assessment of this emerging risk.

Published

2023

12. New Trends in the Occurrence of Yessotoxins in the Northwestern Adriatic Sea

Author

Silvia Vertuani, Stefano Manfredini, Sabrina Albonetti, Emanuele Callegari, Sonia Dall’Ara, S. Rubini, Antonio Cervo, Monica Cangini, Simonetta Menotta, Erika Baldini, and Silva Rubini, Sabrina Albonetti, Simonetta Menotta, Antonio Cervo, Emanuele Callegari, Monica Cangini, Sonia Dall’Ara, Erika Baldini, Silvia Vertuani, Stefano Manfredini

Subjects

Health, Toxicology and Mutagenesis, Mollusk Venoms, toxic phytoplankton, Biology, Toxicology, Article, Yessotoxin, mollusc, Algae, Phytoplankton, Mediterranean Sea, Seawater, Toxic algae, Yessotoxins, LC-MS/MS, Shellfish, molluscs, Oxocins, structure-activity relationships, Ambientale, Mussel, biology.organism_classification, Optimal management, global warning, Fishery, Italy, Water temperature, Dinoflagellida, Global warning, Molluscs, Structure-activity relationships, Toxic phytoplankton, %22">Fish , Medicine, Marine Toxins

Abstract

Yessotoxins (YTXs) are polycyclic toxic ether compounds produced by phytoplanktonic dinoflagellates which accumulate in filter-feeding organisms. We know that the water temperature in our areas Northwestern Adriatic Sea is optimal for the growth of potentially toxic algae (around 20 °C). In recent years, these temperatures have remained at these levels for longer and longer periods, probably due to global warming, which has led to an excessive increase in toxin levels. The interruption of mussel harvesting caused by algae negatively affects farmers’ revenues and the availability of local fish, causing a major economic loss in Italy’s main shellfish sector. Methods: In the nine years considered, 3359 samples were examined: 1715 marine waters, 73 common clams, 732 mussels, 66 oysters, and 773 veracious clams. Bivalve molluscs were examined for the presence of marine biotoxins, including YTXs, while potentially toxic algae, including those producing YTXs, were searched for and counted in marine waters. The method adopted for the quantification of lipophilic toxins involves the use of an LC-MS/MS system. The enumeration of phytoplankton cells was performed according to the Utermhöl method. Results: Between 2012 and 2020, 706 molluscs were tested for YTXs. In total, 246 samples tested positive, i.e., 34.84%. Of the positive samples, 30 exceeded the legal limit. Conclusion: In this regard, it is essential to develop and activate, as soon as possible, an “early warning” system that allows a better control of the production areas of live bivalve molluscs, thus allowing an optimal management of the plants in these critical situations.

Published

2021

13. Per- and polyfluoroalkyl substances (PFAS) determination in shellfish by liquid chromatography coupled to accurate mass spectrometry

Author

Elena Piva, Pasquale Ioime, Sonia Dall'Ara, Paolo Fais, and Jennifer P. Pascali

Subjects

Fluorocarbons, Pharmaceutical Science, Environmental Chemistry, Mass Spectrometry, Water Pollutants, Chemical, Spectroscopy, Chromatography, Liquid, Shellfish, Analytical Chemistry

Published

2022

14. Algal blooms of Alexandrium spp. and Paralytic Shellfish Poisoning toxicity events in mussels farmed in Sicily

Author

Sonia Sciortino, Fiorella Pino, Vincenzina Alio, Luisa Nicastro, Irene Servadei, Sonia Dall’Ara, Gianluca Fortino, Antonella Costa, Salvatore Monaco, Monica Cangini, and Angelo La Vignera

Subjects

Saxitoxin, biology, Toxin, business.industry, fungi, biology.organism_classification, medicine.disease, medicine.disease_cause, Algal bloom, Mytilus, Fishery, chemistry.chemical_compound, chemistry, Aquaculture, medicine, Paralytic shellfish poisoning, business, Bay, Shellfish, Food Science

Abstract

Marine biotoxins can accumulate in filter-feeders bivalve molluscs, that may represent a source of potential health problems being vectors of toxins, that are transferred to humans through their consumption. Harmful Algal Blooms impact on aquaculture may give also economic losses due to temporary closures of contaminated shellfish harvest and marketing. The presence of toxic algae for Paralytic Shellfish Poisoning (PSP), with recurrent toxic blooms of dinoflagellates, such as several Alexandrium species, been known since 2000 in the waters of an Ionian bay of Sicily, the Syracuse harbour, where shellfish farms are located. Our previous works reported in this area the positivity for PSP toxin in mussels (Mytilus galloprovincialis) with saxitoxin concentrations above the limit of the law and the simultaneous presence of toxic species of the genus Alexandrium in the waters. This work reports new recent episodes of algal blooms of Alexandrium minutum in the waters of the Syracuse harbour and PSP toxin contamination in farmed mussels, with values beyond the limits established by law, with the consequent immediate closure of the production area. PSP toxicity was detected with the MBA (Mouse Bioassay) with the confirm carried out with Lawrence method to quantify the total saxitoxin equivalents and characterize the toxic profile. Regular application of the implemented health plan is very important in order to prevent any risk and protect consumer health.

Published

2021

15. First occurrence of tetrodotoxins in bivalve mollusks from Northern Adriatic Sea (Italy)

Author

Carmela Dell'Aversano, P. Bordin, Sonia Dall’Ara, Luciana Tartaglione, Anna Milandri, Pietro Antonelli, Giuseppe Arcangeli, Fabio Varriale, Lisa Barco, Denis Guiatti, Anna Calfapietra, Bordin, P., Dall'Ara, S., Tartaglione, L., Antonelli, P., Calfapietra, A., Varriale, F., Guiatti, D., Milandri, A., Dell'Aversano, C., Arcangeli, G., and Barco, L.

Subjects

animal structures, Single area, biology, Geographic area, fungi, 010401 analytical chemistry, Zoology, Context (language use), Northern adriatic sea, 04 agricultural and veterinary sciences, biology.organism_classification, Shellfishe, 040401 food science, 01 natural sciences, Mytilus, Mytilus sp, 0104 chemical sciences, 0404 agricultural biotechnology, Mouse bioassay, Marine biotoxin, Bioaccumulation, Tetrodotoxins, Shellfish, Food Science, Biotechnology

Abstract

Tetrodotoxins are a potent neurotoxic class of toxins with potentially fatal effects if ingested by humans, and thus, these toxins are a dangerous threat for food safety. Tetrodotoxins are widely distributed among various organisms of different taxa, i.e. pufferfish, blue-ringed octopuses and marine gastropods. Lately the presence of these toxins has been reported in mussels (Mytilus sp.). Countries like the United Kingdom, Greece, the Netherlands, and Italy have increasingly notified the detection of tetrodotoxins in these bivalves, which are widely diffused in European shellfish farming. In this context we report, for the first time, the detection of substantial amounts of tetrodotoxins in Mytilus galloprovincialis collected in Italy in a single area of the Northern Adriatic Sea (Marano Lagoon). Tetrodotoxin-positive mussels were identified in samples collected from that geographic area at the end of May in the context of official monitoring programs both in 2017 and 2018. After the positive results were obtained by means of mouse bioassay screening, tetrodotoxins were detected and quantified by HILIC-MS/MS, revealing the bioaccumulation in the mussels of 541 and 216 μg/kg in 2017 and 2018 respectively, the highest amount ever found in mollusks in Europe. The presence of tetrodotoxins at the concentration of 413 μg/kg was further confirmed with Liquid Chromatography coupled to High Resolution Mass Spectrometry in the mussels sampled in 2017.

Published

2021

16. Development of a data dependent acquisition-based approach for the identification of unknown fast-acting toxins and their ester metabolites

Author

Anna Milandri, Stefano Cinti, Sonia Dall’Ara, Fabio Varriale, Carmela Dell'Aversano, Anna Calfapietra, Luciana Tartaglione, Varriale, Fabio, Tartaglione, Luciana, Cinti, Stefano, Milandri, Anna, Dall’Ara, Sonia, Calfapietra, Anna, and Dell'Aversano, Carmela

Subjects

Seafood poisoning, Zoology, 02 engineering and technology, 01 natural sciences, Consumer safety, Analytical Chemistry, untargeted LC-HRMS, Animals, Humans, Spiro Compounds, Data dependent, Shellfish, Chemistry, business.industry, Spirolide C, 010401 analytical chemistry, emerging toxin, Esters, 021001 nanoscience & nanotechnology, Food safety, 0104 chemical sciences, Europe, Spain, Cyclic Imine, Identification (biology), Marine Toxins, 0210 nano-technology, business, Metabolic profile

Abstract

Phycotoxins in the marine food-web represent a serious threat to human health. Consumption of contaminated shellfish and/or finfish poses risk to consumer safety: several cases of toxins-related seafood poisoning have been recorded so far worldwide. Cyclic imines are emerging lipophilic toxins, which have been detected in shellfish from different European countries. Currently, they are not regulated due to the lack of toxicological comprehensive data and hence the European Food Safety Authority has required more scientific efforts before establishing a maximum permitted level in seafood. In this work, a novel data dependent liquid chromatography – high resolution mass spectrometry (LC-HRMS) approach has been successfully applied and combined with targeted studies for an in-depth investigation of the metabolic profile of shellfish samples. The proposed analytical methodology has allowed: i) to discover a plethora of unknown fatty acid esters of gymnodimines and ii) to conceive a brand new MS-based strategy, termed as backward analysis, for discovery and identification of new analogues. In particular, the implemented analytical workflow has broadened the structural diversity of cyclic imine family through the inclusion of five new congeners, namely gymnodimine –F, -G, –H, –I and -J. In addition, gymnodimine A (376.5 μg/kg), 13-desmethyl spirolide C (11.0–29.0 μg/kg) and pinnatoxin G (3.1–7.7 μg/kg) have been detected in shellfish from different sites of the Mediterranean basin (Tunisia and Italy) and the Atlantic coast of Spain, with the confirmation of the first finding of pinnatoxin G in mussels harvested in Sardinia (Tyrrhenian Sea, Italy).

Published

2020