Advice on the risk to human health from consumption of bivalve molluscs (shellfish) harvested from UK waters associated with marine biotoxins

Occurrence Data (Concentration/

Species/Country)

HBGVs/Maximum levels permitted

Lethal dose (LD50/LD100/MLD) in animals

Human Intoxications

Adverse effect(s)/Symptoms

Comments

82 to 345 µg/kg (BTX-2 + BTX-3; Mussels; France).

880 to 49,000 µg BTX-2 equivalents/kg (Shellfish; Mexico, New Zealand, USA).

580 to 6000 µg BTX-3 equivalents/kg (Fish; Mexico, New Zealand, USA).

No regulatory limits in Europe.

USA

action level

 ≥ 0.8 mg BTX-2 equivalents/kg shellfish.

Australia/New Zealand

Maximum level 20 MUs*/100g, BTX analogue not specified.

ANSES

proposed guidance level

180 µg BTX-3 equivalent/kg shellfish meat.

LD50

Mice (i.p. administration; after 24 hours).

·       170 - >300 µg/kg bw (BTX-3),

·       200 – 400 µg/kg bw (BTX-(B)2)

·       211 µg/kg bw (S-deoxy-BTX-B2),

Mice (oral administration)

·       6600 mg/kg (BTX-2)

·       520 mg/kg bw (BTX-3).

Mice (i.v. administration)

·       94 µg/kg bw (BTX-3)

·       200 µg/kg bw (BTX-2).

MLD

Mice (i.p. administration)

·       100 µg/kg bw (BTX-4; 6-24 hours) 

·       300 – 500 µg/kg bw (BTX-5; time of death not reported).

A few hundred intoxications reported but true number probably underestimated (ANSES,2021).

No human fatalities or persistent symptoms reported (EFSA, 2010; CEFAS, 2014).

Neurological/neurotoxic shellfish poisoning (NSP)

Humans

Nausea, vomiting, diarrhoea, parasthesia, cramps, bronchoconstriction, paralysis, seizure, and coma.

Recreational

Irritant effect from inhalation/dermal exposure.

Animals

Depolarization of neuronal and muscle cell membranes resulting in impairment of the central and peripheral nervous system, including neurovegetative effects, neuromuscular effects, cardiorespiratory symptoms and central signs such as ataxia, seizure and decreased body temperature.

In vitro

Chromosomal aberrations (BTX-2)

DNA damage (BTX-2/3/6/9)

Evidence of DNA adduct formation (BTX-2).

Dermal exposure or inhalation can result in irritant effects. Inhalation occurs predominantly through breathing in aerosol from wave action.

*MU: the amount of

raw extract that kills 50% of mice within 930 minutes/15.5 hours.

Occurrence Data (Concentration/

Species/Country)

HBGVs/Maximum levels permitted

Lethal dose (LD50/LD100/MLD) in animals

Human Intoxications

Adverse effect(s)/Symptoms

Comments

SPX:

Norway,

Spain,

Italy.

Toxin producing organism:

Scotland,

Italy,

Denmark,

Ireland.

PtTX and GYM not detected in Europe.

GYM found in imported shellfish.

CRLBM/EURL proposed guidance level 400 µg sum of SPXs/kg shellfish meat.

LD50:

Mice (i.p. administration)

·       40 µg/kg bw (SPX mixture; crude extract),

·       8 µg/kg bw (SPX C; fed mice),

·       6.9 µg/kg bw (13-desmethyl SPX C; fed and fasted mice),

·       27.9 µg/kg bw (13-desmethyl SPX C),

·       8 µg/kg bw (20-methyl SPX G; fed mice),

·       32.2 µg/kg bw (13,19-didesmethyl SPX C),

·       450 µg/kg bw (GYM A; crude extract),

·       96 µg/kg bw (GYM A; >95% pure),

·       80 µg/kg bw (GYM A),

·       800 µg/kg bw (GYM-B),

·       Overall, 500-1005 µg/kg bw (SPX).

Mice (oral administration)

·       1000 µg/kg bw (SPX; crude extract),

·       176 and 780 µg/kg bw (SPX C; fed),

·       53 and 500 µg/kg bw (SPX C; fasted),

·       157 and 1005 µg/kg bw (13-desmethyl SPX C; fed),

·       125, 500, 591 and 625 µg/kg bw (13-desmethyl SPX C; fasted),

·       157 and 625µg/kg bw (20-methyl SPX G; fed),

·       88 and 500 µg/kg bw (20-methyl SPX G; fasted),

·       755 and 4057 µg/kg bw (GYM A; >95% pure).

Mice (i.c. administration)

·       3 µg/kg bw (GYM-A).

LD100

Mice (i.p. administration)

·       250 µg/kg bw (SPX B,D).

LD0

Mice (oral administration)

·       625 µg/kg bw (SPX C; fed),

·       400 µg/kg bw (SPX C; fasted),

·       780 µg/kg bw (13-desmethyl SPX C; fed),

·       400 µg/kg bw (13-desmethyl SPX C; fasted),

·       500 µg/kg bw (20-methyl SPX G; fed),

·       400 µg/kg bw (20-methyl SPX G; fasted).

MLD

Mice (i.p. administration)

·       700µg/kg bw (GYM A; crude extract).

No intoxications reported.

Animals

Prostration and respiratory distress (mice recovered).

Rapid systemic neurotoxicity and death.

Inhibition of the muscarinic and nicotinic acetylcholine receptors (mAChR, nAChR) in the central and peripheral nervous system and the neuromuscular junction (SPX and GYM).

EFSA calculated a margin of exposure (MOE) between the lowest oral LD50 values for SPX (50 and 500 µg/kg bw) in mice and the estimated 95^th percentile of exposure (0.06 µg/kg bw) from consumption of shellfish currently on the market.

The MOE ranged from 1000-10000. EFSA concluded that the estimated exposure to SPXs did not raise concern for the health of the consumer.

(The LD50s can be found in Table 8, for SPX-C).

Occurrence Data (Concentration/

Species/Country)

HBGVs/Maximum levels permitted

Lethal dose (LD50/LD100/MLD) in animals

Human Intoxications

Adverse effect(s)/Symptoms

Comments

300 to 625 µg/kg shellfish meat (PITXs; Mussels and sea urchins; France; Greece; Italy; Spain;).

No regulatory limits set.

EFSA

ARfD for sum of PITX and ostreocin-D: 0.2 µg/kg bw.

NRL for Marine Biotoxins provisional limit

250 µg/kg shellfish.

ANSES

Short term toxicity reference value for PITX 0.08 µg/kg bw per day.

LD50

(i.p. administration)

·       Rabbit: 0.025 µg/kg bw,

·       Dog: 0.33 µg/kg bw,

·       Monkey: 0.078 µg/kg bw,

·       Mouse: 0.45 µg/kg bw,

·       Rats: 0.089 µg/kg bw,

·       Guinea pigs 0.11 µg/kg bw,

Mice (oral administration)

·       510-767 µg/kg bw,

Rat (oral administration)

·       40 µg/kg bw (> 24 hours).

Intoxications reported.

Some reports of severe cases including fatalities from consumption of contaminated shellfish. (Deeds   and Schwartz 2009 in EFSA,2009),

Poisoning cases reported where exposure occurred through injured skin and inhalation.

For some cases reported involvement of PITX not confirmed (CEFAS,2014).

Humans

Myalgia and weakness, possibly accompanied by fever, nausea and vomiting, and rhabdomyolysis, characterised by injury to skeletal muscle, muscle breakdown and leakage of myocytes into plasma.

Renal failure and disseminated intravascular coagulation.

Death.

Skin, eye and respiratory irritation.

Animals

Reduced intracellular pH.

Rabbits

increased metabolism of arachidonic acid and the production of eicosanoids; arachidonic acid metabolised to prostaglandins, releasing norepinephrine and contracting the aorta.

Mice

Scratching, stretching of hind limbs, significant weight loss, lower back and concave curvature of the spinal column, muscle spasms, respiratory distress, dyspoea and progressive muscular paralysis. Histopathological changes in the heart, kidney, liver, pancreas, intestines and lymphoid tissues.

Reduced lymphocytes in tissues (0.25 μg/kg bw PlTX five times a week up to 29 times). Increased plasma concentrations of alanine aminotransferase (ALT), aspartate aminotransferase (AST), creatine phosphokinase (CPK) and lactate dehydrogenase (LDH) (≥ 36 μg/kg bw).

Changes to blood sodium and chloride levels.

Increased blood potassium levels.

Tumour promotion (two-stage mouse skin carcinogenesis model)

In Vitro

Cytotoxic (EC50s of 5 x 10^-10 M and 2 x 10^-7 M for rat and cattle erythrocytes, respectively)

PITX and ovatoxins-a (OVTX) affect the integrity of the intestinal barrier (at concentrations of 0.5 and 5 ng/mL in Caco-2 cells).

Increased IL-8 (PITX, OVTX-a AND OVTX-d).

Occurrence Data (Concentration/

Species/Country)

HBGVs/Maximum levels permitted

Lethal dose (LD50/LD100/MLD) in animals

Human Intoxications

Adverse effect(s)/Symptoms

Comments

Toxin producing algae:

Norway,

Portugal,

France,

Germany,

Italy,

Turkey,

Egypt.

EU

800 µg STX equivalents/kg shellfish meat.

FAO/IOC/WHO provisional ARfD of 0.7 µg STX equivalents/kg bw.

EFSA

ARfD

0.5 µg STX equivalents/kg bw.

ANSES

TRV

~ 0.1 µg/kg bw.

OHA

TDI

0.05 µg/kg bw per day.

Interim drinking water guidance levels

1 µg/L (Australia, New Zealand and OHA)

3 µg/L (Brazil, Australia, and WHO).

Recreational guidance values

75 µg/L (Washington State)

10 µg/L (OHA).

OEHHA

Interim notification level

0.6 µg/L.

LD50

Mice (i.p. administration)

·        10 µg/kg bw.

Mice (oral administration)

·       260-263 µg/kg bw.

Intoxications reported, including fatalities from respiratory arrest.

Children have a higher mortality rate.

Paralytic shellfish poisoning (PSP).

Humans

Mild symptoms: slight tingling sensation, numbness, mostly around the lips but spreading to face and neck, headache, dizziness, nausea.

Moderately severe symptoms: incoherent speech, progression of prickling sensation to arms and legs, stiffness, non-coordination of limbs, general weakness and feeling of lightness, slight respiratory difficulties and rapid pulse.

Severe to extremely severe symptoms: muscular paralysis, pronounced respiratory difficulties to fetal respiratory paralysis.

Death from respiratory arrest.

Recreational

Skin and eye irritation.

Animals

Cat, Rabbit.

Decreased respiratory activity, weakening of muscle contractions, decreased action potential amplitude and longer latency time in peripheral nervous system (1-2 µg STX/kg bw). Respiratory depression and death (4-5 µg STX/kg bw). Hypertension (> 1 µg STX/kg bw).

Neurotoxicity, changes in total antioxidant capacity, production of reactive oxygen species in the brain and liver, decrease in glutamate cysteine ligase, aversive memory performance, increase in GST and amino acid neurotransmitters, acute alterations of dopamine.

Rats

Reduction in bodyweight and feed intake (6 µg/kg neoSTX)

Zebra fish: sublethal reversible morphological and sensory motor effects.

Fish

Reduced growth and survival during larval development.

In Vitro

DNA damage in fish neuronal cells (3 µg/L STX equivalent).

Mechanism of toxicity

Binding to voltage-gated sodium channels, clocking conductance, acting on nerve and muscle fibres.

EFSA proposed TEFs based on acute toxicity in mice. The TEFs range from 0.1-1; for all TEFs please see paragraph 83 of TOX/2023/59.

Occurrence Data (Concentration/

Species/Country)

HBGVs/Maximum levels permitted

Lethal dose (LD50/LD100/MLD) in animals

Human Intoxications

Adverse effect(s)/Symptoms

Comments

TTX and analogues:

0.0003 to 0.541 mg/kg (gastropods and bivalves; France; Spain; Italy; Greece; The Netherlands; Ireland; UK).

TTX most common analogue in all regions.

No maximum levels in the EU.

EFSA

ARfD

0.25 µg/kg bw.

Kasteel et al. (2017)

ARfD

1.33 µg/kg bw.

Finch et al. (2018)

ARfD

10.1 nmol/kg (3.2 µg/kg).

Unknown

110 µg TTX equivalent/kg shellfish meat

(Reference not found, taken from a review by Katikou 2019 citing the study Kasteel et al. 2017).

LD50

Mice (i.p. administration and s.c. administration)

·       8-13 µg/kg bw

Mice (oral administration and intragastric administration)

·       232 µg/kg bw and 532 µg/kg bw

LD100

Mice (oral administration)

·       1000 µg/kg bw

MLD

·       2 mg (40 µg/kg bw, 50 kg Japanese adult).

Some human case reports.

Onset of symptoms within 10-45 minutes of ingestion, although delayed responses of 3-6 hours have also been reported.

(EFSA, 2017; Lago et al, 2015).

Humans

Perioral numbness and paraesthesia, with or without GI symptoms to lingual numbness, early motor paralysis, incoordination, slurred speech with normal reflexes, to generalised flaccid paralysis, aphonia and fixed/dilated pupils to hypoxia, hypotension, bradycardia, cardiac dysrhythmias and unconsciousness.

Death, caused by respiratory failure and cardiac collapse.

Animals

Skeletal muscle fasciculation, apathy, lethargy, ataxia, ascending progressive paralysis and death.

Mice: urine production significantly decreased (at 75 µg/kg and 125 µg/kg daily).  Exposure at the highest concentration resulted in changes to the kidney and myocardium.

In Vitro

Inhibited neuronal electric activity (in rat primary cortical cultures and human-induced pluripotent stem cell-derived iCell neurons).

Spindle fibre aberration in the human lymphocyte chromosome aberration test (following exposure of with crude extracts from skin/liver of the porcupine fish containing TTX at 0.5 mg/mL).

TTX and STX are additive. ARfD for TTX could alternatively be set at the same level as that for STX, equating to 0.43 µg/kg for TTX (Finch et al. 2018).

No antidote for TTX.

MLD: EFSA were unable to retrieve the underlying data/original source.

Occurrence Data (Concentration/

Species/Country)

HBGVs/Maximum levels permitted

Lethal dose (LD50/LD100/MLD) in animals

Human Intoxications

Adverse effect(s)/Symptoms

Comments

Japan

No information available.

No information available.

None reported

No information available.

None.

Occurrence Data (Concentration/

Species/Country)

HBGVs/Maximum levels permitted

Lethal dose (LD50/LD100/MLD) in animals

Human Intoxications

Adverse effect(s)/Symptoms

Comments

No information available.

No information available.

No information available.

None reported.

No information available.

None.

Occurrence Data (Concentration/

Species/Country)

HBGVs/Maximum levels permitted

Lethal dose (LD50/LD100/MLD) in animals

Human Intoxications

Adverse effect(s)/Symptoms

Comments

Northern Ireland (Lough Neagh).

MCs:

<100 µg/kg fresh weight (Fish muscle; Europe).

45 to 142 µg MC-LR/kg fresh weight (Saltwater mussels; Greece).

NOD:

80 to 817 µg/kg dw (Shellfish; Finland; Poland).

BMMA:

900 to 14,000µg/kg (Oysters; France; Sweden; Greece).

2 DAB:

1,100 to 9,700 µg/kg (Mussels; France).

DAB:

1,300 to 8,800 µg/kg(Oysters; France)

AEG:

1,400 to 1,700 µg/kg (Mussels and Oysters; France).

ATX/CYN:

detected in fish (Excl. Europe).

MCs:

EFSA

TDI of 0.04 µg/kg bw per day.

ANSES

Subchronic TRV 1 ng/kg bw per day.

WHO

Provisional TDI of 0.04 µg/kg bw.

OHA

TDI of 0.05 µg/kg (for MC-LR specifically).

ATX:

WHO

No formal TDI set.

NOAEL 98 µg/kg bw per day.

CYN:

WHO

TDI of 0.03 µg/kg bw.

ANSES

subchronic TRV of 0.14 µg/kg bw per day

OHA

applied EPAs oral RfD

0.03 µg/kg per day

ATX-a:

OHA

TDI of 0.1 µg/kg per day.

LD50

Mice (i.p. administration)

·       32.5-158 µg/kg bw (MC-LR),

·       111-650 µg/kg bw (MC-RR),

·       110 and ~171 µg/kg bw (MC- YR),

·       140 and 171 µg/kg bw (MC- WR),

·       100 and ~249 µg/kg bw (MC-FR),

·       249 µg/kg bw  (MC-AR),

·       39 µg/kg bw (MC-LA),

·       91 µg/kg bw (MC-LY),

·       50–70μg/kg bw (NOD),

·       40-749 µg/kg bw (includes,

-Anatoxin-a, ±Anatoxin-a, +Anatoxin-a, and Anatoxin-a)

·       100-352 (24h) and 45.5-189 (7 d) µgequiv/kg bw (CYN),

·       116 µg crude extract/kg bw (CYN).

9 other MC variants range from ~90 to 750 µg/kg bw.

Rat (i.p administration)

·       72-122 µg/kgbw (MC-LR),

·       5.3 µg/kg bw (±Anatoxin-a)

Mice (oral administration),

·       5-10.9 mg/kg bw (MC-LR),

·       16.2 mg/kg bw (+Anatoxin-a),

·       4400-6900 (2-6 days) µgequiv/kg bw (CYN).

Rat (oral administration)

·       >5mg/kg bw (MC-LR).

Mice (i.v. administration)

·       28 µg/kg bw (MC-LR),

·       630 µg/kg bw (GSH-MC-LR conjugate),

·       267 µg/kg bw (Cys-MC-LR conjugate),

·       91 µg/kg bw (MC-YR)

·       304 µg/kg bw (GSH-MC-YR conjugate),

·       217 µg/kg bw (Cys-MC-YR conjugate).

Rat (i.v. administration)

·       80 µg MC-LR equiv/kg bw (MC-LR and RR),

·       400 µg/kg bw (±Anatoxin-a),

·       85 µg/kg bw (+Anatoxin-a).

Fatalities due to MC exposure (WHO,2020)

Humans

MCs

Most commonly gastroenteritis

Intrahepatic haemorrhage

Fatalities (after mistreated water used in dialysis).

BMAA

Implicated in neurodegenerative diseases: Amyotropic lateral sclerosis, Parkinsonism-dementia complex, and Alzheimer’s.

Animals

MCs

Lung effects (thickening of the alveolar septum, disruption of cell junctions, alveolar collapse, and lung apoptosis).

Serum profile changes (increase in transaminases, decrease in total proteins).

Effects on the nervous system (cognitive impairment, lesions, oxidative injury, inflammation in brain regions).

Reproductive and developmental effects (decreased sperm number and motility, abnormal sperm morphology, lesions in the testes, testicular atrophy, change in serum hormone concentrations, impact on the ovaries) (OEHHA, 2021).

Tumour promotion in rodents: Possible carcinogen to humans (Group 2B).

Inhibition of PP1 and PP2A leading to cytoskeleton alterations, lipid peroxidation, oxidative stress, apoptosis, resulting in

hepatic centro-lobular toxicity with intrahepatic haemorrhagic areas due to damage of sinusoidal capillaries (MC-LR, > 32 µg/kg bw).

ATX

Rapid death.

ATX-a

Increased heart rate and blood pressure, fatigue, eventual muscle paralysis and potential death.

BMAA

Neurotoxic in rats and monkeys

Long term histopathological changes in the brain of adult rodents

Alterations of the intermediate metabolites, i.e. d-glucose, lactate, 3-hydroxybutyrate, acetate, creatine, in neonatal rats.

NOD

Reproductive toxicity: loss of spermatogenesis, apoptotic changes in spermatogonia (pyknotic and shrunken), atrophic change in the prostate epithelium with apoptosis (nuclear dusts).

CYN

Increased liver and kidney weight, hepatic and renal toxicity.

Maternal toxicity including vaginal bleeding and blood in tail tips, hepatocytes.

necrosis and kidney lesions, alterations of haematological parameters, and death.

In Vitro

MCs

Induction of oxidative stress and apoptosis in human cell lines (MC-LR).

BMAA

Neurotoxic in rodent and leech cells, and human cell lines.

Disturbs undifferentiated cells (B1 and C cells) at 100 µM, promotes proliferation, affects the organisation of neuroblasts.

Increased the release of proinflammatory cytokines (IL-1β, IL-6, TNFα)

Promotes cell death, induces subcellular changes in neurons and Mueller Glial Cells (at concentrations of 0.4 µM (3 days) and 0.4,1 and 10 µM (3 and 9 days)).

NOD

Micronuclei containing centromeres in HepG2 cells (5 and 10 µg/mL for 24h)

Increased basal DNA strand breaks in HepG2 cells (1-10 µg/mL up to 24h)

Enhanced 8-oxo-dG, a common biomarker of oxidative DNA damage, in primary cultured hepatocytes (2 and 10 ng/mL).

For cyanotoxin studies there’s a lack of available standards/purified toxins. Extracts were often used, which are poorly characterised.

Available data on MCs indicated an up to 30-fold difference in acute toxicity, following i.p administration compared to the oral route.

For further information and references for LD50 values see Table 3.3.1.1 Data on MC acute toxicity in mammals expressed as LD50 values (Testai et al., 2016).

Occurrence Data

(Country/

Species/

Concentration)

HBGVs

/Maximum levels permitted

Lethal dose (LD50/LD100/ MLD) in animals

Human Intoxications

Adverse effect(s)/Symptoms

Comments

UK,

Ireland,

France,

Spain,

Portugal,

Denmark,

Norway,

Italy,

Germany,

Netherlands.

Shellfish.

EU

20 mg DA/kg shellfish meat.

EFSA

ARfD

30 μg DA/kg bw.

FAO/IOC/WHO

Provisional ARfD

100 μg/kg bw

6 mg/adult (person with 60kg bw).

LD50

Mice (i.p. administration; female):

·       5.8mg/kg bw (median lethal dose; mussel extracts),

·       2.9-3.6mg/kg bw (mussel extracts),

·       3.6-4.0 mg/kg bw (pure toxin).

Canada

107 cases (47 men and 60 women) met criteria for ASP from consuming mussels; 19 hospitalised, 4 died. 143 cases had suspected poisoning with DA, but this was not confirmed.

Estimated exposure for clinical symptoms, 60-290 mg, (equivalent to 0.9-4.2 mg/kg bw).

USA

11-24 cases of ASP from EU

160 μg AZA1 equivalents/kg shellfish meat consuming razor clams. 13 had mild neurological symptoms, 7 sought medical assistance. Highest concentration detected in clams was 140 μg/g tissue. For mild symptoms, concentrations ranged from 0.05-0.39 mg/kg bw.

Reporting of this incident was queried and causality attributed to DA questioned.

Humans

Amnesic Shellfish Poisoning (ASP) including gastrointestinal symptoms (vomiting, diarrhoea, or abdominal cramps) and/or neurological symptoms (confusion, loss of memory, potential seizure, or coma).

Animals

Mice (oral administration)

Scratching (35 mg/kg bw) *, clinical signs (not detailed; 71 mg DA/kg bw; acidified extract), death (71 to 83mg DA/kg bw; acidified extract).

Rats (oral administration)

Flaccidity, head on floor, inactivity, mastication, seizures, mild to moderate CNS damage, death (n=1-4; given 60-80 mg/kg bw DA per os).

Monkey (oral administration)

Mild to moderate histopathological lesions in CNS consistent with neuroexcitation (5 to 10 mg/kg bw).

Anorexia, salivation, retching, vomiting, licking, and smacking of lips and empty mastication’s (when given crude or purified DA; 5 to 10 mg/kg bw). Diarrhoea and prostration (in animals receiving mussel extracts; ~6 mg DA/kg bw).

Mice (i.p. administration)

Scratching of the shoulders by the hind leg (1mg/kg bw), convulsions (≥2.0mg/kg) and often death. Hypoactivity, sedation, akinesia, rigidity, stereotypy, loss of postural control and tremors.

Rats (i.p. administration)

Withdrawal followed by hyperexcitation and scapular scratching (2 mg/kg bw).

Histopathological lesions in the hippocampus (CA3>CA1>CA4), hypothalamus, amygdala, cortex, olfactory system, and retina and showed wet dog shakes, rearing with forelimb extension - “praying”, loss of balance and seizures (≥4 mg/kg bw).

Increased serum T3 and T4 levels (30 minutes after injection) and TSH levels (5 minutes after injection) (1mg DA/kg bw).

Hypomotility and decreased body weight (0.93 mg DA/kg bw).

Symptoms suggestive of hyperreactive syndrome, together with neuronal degeneration in the hippocampal CA1/CA3 areas and gliosis (1.32 mg DA/kg bw).

Neuronal injury, astrocytosis, activation of microglia and alterations in fatty acid metabolism (2.25 mg DA/kg bw).

Developmental toxicity: death of dams (2.0 mg/kg) and pre-term abortion (50 % of rats in the 1.75 mg/kg group). Induction of c-fos in the central nervous system (0.1 mg/kg bw in neonatal rats), behavioural effects and seizures (at doses as low as 0.05 and 0.2 mg/kg bw).

Monkey (i.p. administration)

Persistent chewing with frothing, gagging, emesis, loss of balance and tremors and excitotoxic central nervous system damage consisting of dendrotoxic and gliotoxic edema and nerve cell degeneration in structures of the limbic system and the retina (4 mg/kg bw DA).

Mice (i.v. administration)

Developmental toxicity: impairment of hippocampal function and morphology, and delayed cell necrosis in offspring (0.6 mg DA/kg bw on gestational day 13).

Rat (i.v. administration)

Seizure discharges in the hippocampus, tonic-clonic convulsions, and death (0.5-1.0 mg/kg bw DA).

Monkey (i.v. administration)

Neuroexcitatory, emetic (0.025-0.2 mg/kg bw). Excitotoxic (0.5 mg/kg bw DA). Clinical signs of neurotoxicity.

Nausea, damage to neurons and degeneration in the brain (0.25 to 4mg/kg).

Mice (subcutaneous injection)

Developmental toxicity: neurobehavioural sequelae in offspring (0.3, 0.6 and 1.2 mg/kg; to pregnant rats on GD13).  Motor seizures characterized by scratching, tail flicking, and swimming-like movement (at all doses; 0.10, 0.17, 0.25, 0.33, 0.42, and 0.50 mg/kg).  Paralysis (doses ≥ 0.33 mg/kg; in 65% of rats), and death (47%) in less than 2 hours. Changes in brain development in the absence of convulsions (neonatal rats injected daily; 5 and 20 μg/kg).

In Vitro

Increase in the frequency of micronuclei (in Caco-2 Cells)

No data available on LD50 in male mice.

Occurrence data provided as the sum of DA and epi-DA, distinction was possible between the concentration of parent DA and epi-DA.

*No effects at doses of 20 and 28 mg/kg bw, death occurred at 47 and 104 mg/kg b.w. Several doses between the latter two levels were devoid of any effect, suggesting other factors were modifying the toxicity.

In a very early study (1959), anthelminthic effects occurred in 3 children at oral doses of a DA-like compound at 0.4, 0.64 and 0.8mg/kg bw.

Occurrence Data

(Country/

Species/

Concentration)

HBGVs

/Maximum levels permitted

Lethal dose (LD50/LD100/

MLD) in animals

Human Intoxications

Adverse effect(s)/Symptoms

Comments

Denmark,

France,

Germany,

Ireland,

The Netherlands,

Norway,

Portugal,

Spain,

Sweden,

UK.

Shellfish.

48 to 6550 μg/kg shellfish.

EU

160 μg OA equivalents/kg shellfish meat.

FAO/IOC/WHO

ARfD

0.33μg OA equivalents/kg bw.

LD50

Mice (i.p. administration):

·       204 μg/kg bw,

·       200  μg/kg bw ,

·       225 μg/kg.

Lethal dose

Mice (i.p. administration):

·       200 μg/ kg bw.

Mice (oral administration):

·       400 to 600 μg/kg bw, 

·       Between 1,000 and 2,000 μg/kg bw. 

DSP reported in Japan, the Netherlands, Norway, Sweden, Belgium, Portugal, UK, Canada, Chile and New Zealand.

Japan

164 people suffering with diarrhoea, nausea, vomiting and abdominal pain from eating mussels or scallops containing mostly DTX1.  Intakes estimated 48 μg OA equivalents/person for mild symptoms or 80-280 μg OA equivalents/person for severe symptoms.

Portugal

6 cases from consuming: razor clams: 500 μg OA equivalents /kg flesh.

1 case from consuming

green crabs: 322 μg OA equivalents /kg edible crab parts.

Norway

200 cases from consuming leftovers from crab meals, DTX3 levels at 1,050 to 1,500 μg OA equivalents/kg brown meat.

39 cases from consuming mussels at 550-650 μg OA equivalents/kg shellfish flesh.

UK

159 cases from consuming mussels at 258-302 μg OA equivalents/kg shellfish flesh.

Humans

Diarrhoeic Shellfish Poisoning (DSP): diarrhoea, nausea, vomiting and abdominal pain. Fever, chill, and headache.

Animals

Mice

Intestinal injury (200 μg/kg bw) and liver injury (375 μg/kg bw i.p. administration and 1000-2000 μg OA/kg bw).

Hypersection in the small intestine (75, 150 and 250 μg/kg bw), severe mucosal injury, extravasion of serum into lamina propria of villi, degeneration of absorptive epithelium of iliac villi, and desquamation of the degenerated epithelium from the lamina propri.

Erosion of the small intestine, stomach, and large intestine (150 μg/kg bw OA) and diarrhoea (90 μg/kg bw).

Rats

Intestinal injury (375 μg/kg bw) and liver injury (375 μg/kg bw). Swollen villi enterocytes with detachment from basal membrane.

OA group includes OA, DTX1 and DTX2, and DTX3. The analogues tested by member states varied, and in some cases only the sum for the combined OA group-toxins was reported, without information on specific analogues detected. (EFSA,2008),

No information available on long term effects or repeated exposure in humans.

Occurrence Data

(Country/

Species/

Concentration)

HBGVs

/Maximum levels permitted

Lethal dose (LD50/LD100/

MLD) in animals

Human Intoxications

Adverse effect(s)/Symptoms

Comments

Denmark,

France,

Germany,

Ireland,

The Netherlands,

Norway,

Portugal,

Spain,

Sweden,

UK.

Shellfish.

Of 6072 samples:

DTX 1.

416 samples ≥ LOD up to 160 μg toxin/kg shellfish meat.

89 samples >160 μg toxin /kg shellfish meat.

DTX2

302 samples  ≥LOD up to 160 μg toxin/kg shellfish meat.

66 samples >160 μg toxin /kg shellfish meat.

DTX3

1495 samples ≥ LOD up to 160 μg toxin/kg shellfish meat.

149 samples >160 μg toxin /kg shellfish meat.

None specific for DTX.

See Table 3 for HBGVs for OA equivalents.

LD50

Mice (i.p. administration):

·       350  μg/kg bw (DTX2).

Lethal dose

Mice (i.p. administration):

·       160 μg/kg bw for (DTX 1),

·       200 to 500 μg/kg bw. (DTX 3).

Mice (oral administration):

·       300 μg/kg bw (DTX1).

See Table 3.

Humans

As part of OA group toxins, See Table 3.

Animals

Mice (i.p. administration).

Intestinal injury (50-500 μg/kg bw for DTX1 and at 375 μg/kg bw for DTX3)

Bleeding in the abdomen (DTX3).

Mice (oral administration).

Light diarrhoea and slight reduced bodyweight. Light erosions to the stomach, intestinal damage (600 and 700 μg/kg).

Mice and rats (i.p. administration).

Liver injury (375μg/kg bw; DTX1 and DTX3).

Mice and rats (oral administration).

Liver injury (750 μg/kg bw DTX3).

Occurrence Data

(Country/

Species/

Concentration)

HBGVs

/Maximum levels permitted

Lethal dose (LD50/LD100/ MLD) in animals

Human Intoxications

Adverse effect(s)/Symptoms

Comments

Germany,

Italy,

Norway,

Portugal,

Spain,

United Kingdom.

Shellfish.

“not detected” to 9620 μg YTX eq./kg shellfish meat.

EU

1 mg YTX eq./kg shellfish meat.

EFSA

ARfD

25 μg YTX equivalents/kg bw

3.75 mg YTX eq./kg shellfish meat.

LD50*

Mice (i.p. administration; male).

·       80-462 μg/kg bw (YTX),

·       301 μg/kg bw (Di-desulfoYTX),

Mice (i.p. administration; female),

·       112-750 μg/kg bw (YTX),

·       444 μg/kg bw (1a-HomoYTX).   

Lethal dose **

Mice (i.p. administration; sex not reported)

·       100 μg/kg bw (1a-HomoYTX),

·       ~500 μg/kg bw (45-HydroxyYTX; 55-Carboxy-1a-homoYTX 7; 55-CarboxyYTX),

·       ~220 μg/kg bw (45,46,47-TrinorYTX),

·       ~500 μg/kg bw (1-DesulfoYTX).

No reports of human illness.

Humans

No reports on adverse effects in humans.

Animals

Mice (i.p. administration).

Dyspnoea and death (≥ 300 μg/kg).

Restlessness and jumping before death at lethal doses. Shivering (at 750 and 1000 μg/kg) and cramps.

Vacuolation in the cardiac muscle, and intracellular oedema, cardiac damage (500 μg/kg), swelling of myocardial cells (5-10mg/kg) and alterations of myocardiocytes (1-2 mg/kg YTX).

Cytoplasmic    protrusions    of    myocardiocytes, rounding of mitochondria and fibre modifications (1mg/kg 1a-homoYTX and 45-hydroxyYTX).

Altered disposal of E-cadherin.

In Vitro***

Phosphodi-esterase activation, modulation of calcium movements at several levels, calcium dependent cAMP and cGMP decrease, altered protein disposal, apoptosis and cell death, and changes in cell shape (at 10^-6 to 10^-10M YTX).

Analytical methods of identifying levels of toxin in shellfish varied including ELISA, HPLC, LC-MS/MS.

*,** See Table 10, EFSA 2008 for further details regarding mouse strain and references.

No information available on LD50 of YTX-group toxins via the oral route.

***For detail regarding cell type, species, time frame, and references, see Table 9, EFSA 2008.

Occurrence Data (Country/

Species/

Concentration)

HBGVs/

Maximum levels permitted

Lethal dose (LD50/LD100/

MLD) in animals

Human Intoxications

Adverse effect(s)/Symptoms

Comments

Germany,

Ireland,

Norway,

UK.

Shellfish

“not detected” to 1630 μg/kg shellfish meat.

EU

160 μg AZA1 equivalents/kg shellfish meat.

EFSA

ARfD

0.2 μg AZA1 equivalents/kg bw.

Lethal dose

Mice (i.p. administration; male)

·       200μg/kg bw (purified AZA1),

·       110 μg/kg bw (AZA2),

·       140 μg/kg bw (AZA3),

·       470 μg/kg bw (AZA4),

·       1000 μg/kg bw (AZA5).

Indicative values only due to low number of animals used due to limited pure toxins.

AZA poisoning reported across the Netherlands, Ireland, Italy, France, and the UK. 

Netherlands

8 cases, unwell after consuming 8-10 mussels harvested from the west coast of Ireland. Intakes estimated initially between 6.7 μg (5th percentile) and 24.9 μg (95th percentile) per person, with a median of 14.5 μg per person (2001). Revised estimate in 2005/6 was between 50.1 μg (5th percentile) and 253.3 μg (95th percentile), with a median of 113.4 μg per person.

Italy

10 cases.

France

20-30 cases.

UK

12-16 cases.

Cases in Italy, France and UK related to consumption of mussels or scallops imported from Ireland. No estimates of AZAs consumed available.

Humans

AZA poisoning (AZP): nausea, vomiting, diarrhoea   and stomach cramps.

Animals

Mice (oral administration),

Shortened villi, injury to small intestine (600 or 700 µg/kg bw; slow recovery after 24h). 38% increase in liver weight after 24h, fine fat droplets distributed in liver (500 µg/kg bw).

Dose-dependent necrotic lymphocytes in the thymus, spleen, and Peyer´s patches of the small intestine (500 to 700 µg/kg bw),

Changes to the small intestine: congestion, watery substance in the lumen, small changes to surface epithelial cells, atrophic lamina propria spatially separated from epithelial cells and prominent vacuolization of epithelial cells (300 µg/kg bw).

Lethality (single oral doses; from 250 to 600 µg/kg).

Decreased body weight, ballooning and gastrointestinal organs containing a lot of gas. Pathological changes: lung (interstitial inflammation and congestion, tumours), stomach (erosion), small intestine (shortened villi, oedema, and atrophic lamina propria) and liver (some cases - single or focal necrosis, small inflammation, mitosis, or congestion) (50 and 20 µg/kg).

In Vitro

Increase of Ca 2+ (EC50 10^-6 to 10^-7 M).

Increase of cAMP (EC50 10^-6 to 10^-7 M).

Decrease in pH (EC50 10^-6 M).

Cytotoxicity ((EC50 10^-6 to 10^-9 M).

Altered F-actin cytoskeleton (EC50 10^-5 and 10^-8 M).

Cell adhesion (EC50 10^-8 to 10^-9 M).

Some longer term repeated-dose toxicity studies (maximum duration 1 year) showed occasional lung tumours. As these tumours were only observed at doses causing severe toxicity, they were considered of little relevance.

Toxin

Occurrence

HBGVs

Exposure Assessment in Adults

Brevetoxin.

82 to 345 µg/kg (BTX-2 + BTX-3; Mussels; France).

880 to 49,000 µg BTX-2 equivalents/kg (Shellfish; Mexico, New Zealand, USA).

580 to 6000 µg BTX-3 equivalents/kg (Fish; Mexico, New Zealand, USA).

No regulatory limits set.

EFSA

ARfD for sum of PITX and ostreocin-D: 0.2 µg/kg bw.

NRL for Marine Biotoxins provisional limit

250 µg/kg shellfish.

ANSES

Short term toxicity reference value for PITX 0.08 µg/kg bw per day.

0.42 to 1.8 µg/kg bw.

4.5 to 250 µg/kg bw.

1.03 to 11 µg/kg bw.

Cyclic imines (excluding PnTX and portimine).

SPX:

Norway,

Spain,

Italy.

Toxin producing organism:

Scotland,

Italy,

Denmark,

Ireland.

PtTX and GYM not detected in Europe.

GYM found in imported shellfish.

CRLBM/EURL

proposed guidance level 400 µg sum of SPXs/kg shellfish meat.

N/A

Palytoxin (PITX).

300 to 625 µg/kg shellfish meat (PITXs; Mussels and sea urchins; France; Greece; Italy; Spain;).

No regulatory limits set.

EFSA

ARfD for sum of PITX and ostreocin-D: 0.2 µg/kg bw.

NRL for Marine Biotoxins provisional limit

250 µg/kg shellfish.

ANSES

Short term toxicity reference value for PITX 0.08 µg/kg bw per day.

1.5 to 3.2 µg/kg bw.

Saxitoxin (STX).

Toxin producing algae:

Norway,

Portugal,

France,

Germany,

Italy,

Turkey,

Egypt.

EU

800 µg STX equivalents/kg shellfish meat.

FAO/IOC/WHO provisional ARfD of 0.7 µg STX equivalents/kg bw.

EFSA

ARfD

0.5 µg STX equivalents/kg bw.

ANSES

TRV

~ 0.1 µg/kg bw.

OHA

TDI

0.05 µg/kg bw per day.

Interim drinking water guidance levels

1 µg/L (Australia, New Zealand and OHA)

3 µg/L (Brazil, Australia, and WHO).

Recreational guidance values

75 µg/L (Washington State)

10 µg/L (OHA).

OEHHA

Interim notification level

0.6 µg/L.

N/A

Tetrodotoxin (TTX).

TTX and analogues:

0.0003 to 0.541 mg/kg (gastropods and bivalves; France; Spain; Italy; Greece; The Netherlands; Ireland; UK).

TTX most common analogue in all regions.

No maximum levels in the EU.

EFSA

ARfD

0.25 µg/kg bw.

Kasteel et al. (2017)

ARfD

1.33 µg/kg bw.

Finch et al. (2018)

ARfD

10.1 nmol/kg (3.2 µg/kg).

Unknown

110 µg TTX equivalent/kg shellfish meat.

(Reference not found, taken from a review by Katikou 2019 citing the study Kasteel et al. 2017).

0.0015 to 2.8µg/kg bw

Novel azaspiracids (AZAs).

Japan

No information available.

N/A

Novel PSP analogues domoic acid analogues.

No information available.

No information available.

N/A

Cyanobacteria toxin(s).

Northern Ireland (Lough Neagh)

MCs:

<100 µg/kg fresh weight (Fish muscle; Europe).

45 to 142 µg MC-LR/kg fresh weight (Saltwater mussels; Greece).

NOD:

80 to 817 µg/kg dw (Shellfish; Finland; Poland).

BMMA:

900 to 14,000µg/kg (Oysters; France; Sweden; Greece).

2 DAB:

1,100 to 9,700 µg/kg (Mussels; France). 

DAB:

1,300 to 8,800 µg/kg(Oysters; France).

AEG:

1,400 to 1,700 µg/kg (Mussels and Oysters; France).

ATX/CYN:

detected in fish (Excl. Europe).

MCs:

EFSA

TDI of 0.04 µg/kg bw per day.

ANSES

Subchronic TRV 1 ng/kg bw per day.

WHO

Provisional TDI of 0.04 µg/kg bw.

OHA

TDI of 0.05 µg/kg (for MC-LR specifically).

ATX:

WHO

No formal TDI set.

NOAEL 98 µg/kg bw per day.

CYN:

WHO

TDI of 0.03 µg/kg bw.

ANSES

subchronic TRV of 0.14 µg/kg bw per day.

OHA

applied EPAs oral RfD

0.03 µg/kg per day.

ATX-a:

OHA

TDI of 0.1 µg/kg per day.

MCs:

0.18µg/kg bw.

0.23 to 0.72µg/kg bw.

NOD:

0.41 to 4.2µg/kg bw.

BMMA:

4.6 to 71µg/kg bw.

2 DAB:

5.6 to 49µg/kg bw.

DAB:

6.6 to 45µg/kg bw.

AEG:

7.1 to 8.7µg/kg bw.

ATX/CYN:

N/A.