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A cluster of patients with rhabdomyolysis after eating crayfish

Published online by Cambridge University Press:  12 September 2017

Wen-Xuan Yang
Affiliation:
Accident & Emergency Department, The University of Hong Kong–Shenzhen Hospital, Shenzhen, China
Kit-Ling Fan
Affiliation:
Accident & Emergency Department, The University of Hong Kong–Shenzhen Hospital, Shenzhen, China
Ling-Pong Leung*
Affiliation:
Emergency Medicine Unit, Li Ka Shing Faculty of Medicine, The University of Hong Kong, Hong Kong.
*
Correspondence to: Dr. Ling-Pong Leung, Emergency Medicine Unit, Li Ka Shing Faculty of Medicine, The University of Hong Kong, 5/F, William MW Mong Block, 21 Sassoon Road, Hong Kong; Email: [email protected]

Abstract

Crayfish or Procambarus clarkii is a freshwater crustacean with worldwide distribution. Tons of crayfish are consumed each year. In this report, four adult patients with rhabdomyolysis after consuming crayfish were described. All of them presented to the emergency department with myalgia. The diagnosis of rhabdomyolysis was supported by an elevated creatine kinase level. All recovered with supportive treatment. The clinical picture of these 4 patients was compatible with Haff disease. Haff disease is a syndrome in which rhabdomyolysis develops subsequent to consumption of certain cooked seafood. Crayfish is a common culprit. Diagnosis depends on obtaining a diet history and creatine kinase level. Most patients recover uneventfully with supportive treatment for rhabdomyolysis.

Résumé

L’écrevisse, ou Procambarus clarkii, est un crustacé d’eau douce, présent partout dans le monde, et il se consomme annuellement des tonnes d’écrevisse. Sera exposé dans l’article le cas de quatre adultes atteints de rhabdomyolyse après avoir mangé des écrevisses. Tous sont allés au service des urgences pour de la myalgie. Le diagnostic de rhabdomyolyse a été confirmé par un taux élevé de créatine kinase. Les quatre patients se sont bien rétablis par un traitement de soutien. Dans tous les cas, le tableau clinique était compatible avec celui de la maladie de Haff, un syndrome de rhabdomyolyse qui se développe à la suite de la consommation de certains fruits de mer cuits. L’écrevisse en est souvent la cause. Le diagnostic repose sur l’anamnèse relative à l’alimentation et sur le taux de créatine kinase. Le traitement de soutien de la rhabdomyolyse permet en général un rétablissement sans complications.

Type
Case Report
Copyright
© Canadian Association of Emergency Physicians 2017 

CASE REPORT

Four adult patients presented to the emergency department (ED) for muscle pain at different times over two days in August 2016. They were three females and one male. Two of them were sisters living in the same household. Their ages ranged from 22 to 41 years. They were all healthy before the index illness. All had eaten varying amounts of cooked crayfish at the same local restaurant before the onset of symptoms. Muscle pain was their chief complaint. Sites of pain included the neck, shoulder, leg, waist, and back. One patient had nausea. Otherwise, gastrointestinal (GI) or constitutional symptoms were absent. The history of crayfish consumption was first elicited from the sisters as they presented to the ED at the same time with similar symptoms. As for the other two patients who presented later than the two sisters, the history of crayfish consumption was sought retrospectively. All patients had normal vital signs. Motor weakness was not present. They were hospitalized under the care of the ED. Their peak creatine kinase (CK) level ranged from 1,452 IU/L to 15,534 IU/L. None had renal impairment. Their urine was not tested for myoglobin. Intravenous (IV) fluid was administered to all because of the elevated CK level. Urine alkalization was instituted in the patient who had the highest admission and peak CK level. IV fluid therapy was stopped for these four patients when their CK level demonstrated a downward trend. Analgesics were prescribed for their muscle pain, but none required an analgesic stronger than oral paracetamol. All had a stable clinical course and were discharged without complications. Their clinical characteristics and laboratory findings are summarized in Table 1.

Table 1 Clinical characteristics and laboratory findings of the four patients

* These two patients are sisters.

CK=creatine kinase; CK-MB=creatine kinase MB isoenzyme.

DISCUSSION

These four patients experienced myalgia and rhabdomyolysis, or Haff disease, following the consumption of crayfish. Haff disease was first reported in what is now Kaliningrad more than 90 years ago.Reference Lentz 1 Thereafter, cases have been reported worldwide, although most cases have occurred in the United States and China. Sporadic cases or outbreaks were often subsequent to the consumption of certain cooked seafood.Reference Diaz 2 Many reported cases of Haff disease have been linked to the ingestion of cooked freshwater fish.Reference dos Santos, de Albuquerque and Pinto 3 , 4 Crustaceans, especially those freshwater bottom-feeders, are also associated with Haff disease. As for these four patients, crayfish was the culprit. In fact, crayfish accounts for most cases in China.Reference Chan 5 As crayfish have become a popular seafood dish, leading to their increased consumption, Haff disease may be considered an emerging crustacean-borne illness.Reference Chen, Yuan and Xie 6

Haff disease is a clinical syndrome characterized by myalgia and rhabdomyolysis that develops within 24 hours of the ingestion of cooked seafood. Its pathogenesis is believed to be because of a heat-stable toxin originating from saltwater algae that is present in seafood.Reference Diaz 2 It is believed to be a myotoxin that targets striated muscles. The exact nature of the toxin remains unclear. There has been postulation that palytoxin is the suspected agent in Haff disease.Reference Sud, Su, Greller, Majlesi and Gupta 7 However, in the seafood samples from 21 cases of Haff disease occurring in the United States, palytoxin was not identified.Reference Buchholz, Mouzin and Dickey 8 Further, palytoxin is a neurotoxin, but in Haff disease, neurotoxicity is absent. Therefore, it is less convincing that palytoxin is the cause of Haff disease.

In cases of Haff disease that develop after eating crayfish, besides myalgia, GI disturbance, e.g., nausea, vomiting, and abdominal pain, may be present.Reference Diaz 2 As evidenced by these four patients, myalgia is the most common presenting clinical feature. Unlike many other types of seafood-borne illnesses, neurotoxicity is absent. As the presenting symptoms of patients with Haff disease are sometimes non-specific, diagnosis in the ED may be difficult. In fact, Haff disease is rarely reported in Emergency Medicine literature. To avoid missing the diagnosis, Haff disease should be considered a differential diagnosis in patients presenting to the ED with myalgia, especially in the presence of GI symptoms. If it is suspected, an enquiry on seafood consumption within the 24 hours preceding symptom onset should be made, in addition to checking the CK level in the ED. In Haff disease, an elevated CK level indicating rhabdomyolysis is always present. In the four patients, their admission and peak CK levels varied widely. In general, CK is considered a marker of muscle injury severity. A higher level suggests more severe muscle damage. Whether this was the case in these 4 patients is uncertain. This is because the amount of crayfish eaten could not be ascertained. Thus, the amount of myotoxin to which they were exposed is unknown.

In the presence of seafood consumption and rhabdomyolysis, another differential diagnosis that emergency physicians need to consider is palytoxin poisoning. Palytoxins are a class of neurotoxins that may be carried by crustaceans, especially xanthid crabs, certain finfish species, anemone, and zoanthid corals.Reference Deeds and Schwartz 9 Palytoxin is a heat-stable neurotoxin produced by the Ostreopsis species of marine algae. Ingestion of xanthid crabs is the primary route of exposure. The toxins act on the membrane sodium-potassium pumps and convert ionic-specific pumps into non-specific cationic pores.Reference Deeds and Schwartz 9 The result is prolongation of depolarization leading to muscle spasm or seizure, which is absent in Haff disease. Rhabdomyolysis may develop as a result of the muscle spasms and seizures. Other clinical features include a bitter or metallic taste; GI disturbance such as abdominal pain, vomiting, and diarrhea; and bradycardia.Reference Alcala, Alcala, Garth, Yasumura and Yasumoto 10 , Reference Gonzales and Alcala 11 Treatment is supportive, and rhabdomyolysis can be prevented by adequate hydration.

Similar to rhabdomyolysis due to other conditions, renal damage is the most worrisome complication of Haff disease. Prevention of acute renal failure and its life-threatening complications, e.g., hyperkalemia, is therefore the mainstay of the treatment of Haff disease. Early IV fluid therapy is recommended for volume expansion. This is especially important in patients with Haff disease who are vomiting and at risk of dehydration. There is no guideline for the duration of fluid administration. It has been recommended that IV fluid should be continued until the CK level is below 1000 IU/L.Reference Walls, Hockberger and Gausche-Hill 12 However, it appears safe to discontinue IV fluid therapy when the CK level begins to drop, as exemplified by these four patients. The benefit of urine alkalinization in rhabdomyolysis is believed to be because of inhibition of the redox cycling of myoglobin and lipid peroxidation.Reference Walls, Hockberger and Gausche-Hill 12 However, its benefit in comparison to saline infusion alone is controversial. Urine alkalinization was used in the patient with the highest admission and peak CK level to help reduce the CK level. No conclusion on its additional benefits can be drawn because of the small number of patients studied. Overall, the prognosis of Haff disease is good. All four patients in this series were discharged from the hospital without any complications.

CONCLUSION

Four patients who experienced rhabdomyolysis, or Haff disease, after eating crayfish were described. Symptoms of Haff disease are often non-specific. In ED patients with myalgia, obtaining a history of seafood consumption and finding an elevated CK level are the key to the diagnosis of Haff disease. Prevention of acute renal failure with IV fluid for volume expansion is the mainstay of treatment.

Competing interests

None declared.

References

1. Lentz, O. Uber die Haffkrankheit. Med Klin (German) 1925;1:4-8.Google Scholar
2. Diaz, JH. Global incidence of rhabdomyolysis after cooked seafood consumption (Haff disease). Clin Toxicol (Phila) 2015;53(5):421-426.Google Scholar
3. dos Santos, MC, de Albuquerque, BC, Pinto, RC, et al. Outbreak of Haff disease in the Brazilian Amazon. Rev Panam Salud Publica 2009;26(5):469-470.Google Scholar
4. Centers for Disease Control and Prevention (CDC). Haff disease associated with eating buffalo fish—United States, 1997. MMWR Morb Mortal Wkly Rep 1998;47(50):1091-1093.Google Scholar
5. Chan, TY. The emergence and epidemiology of Haff disease in China. Toxins (Basel) 2016;8(12):359-367.Google Scholar
6. Chen, Y, Yuan, B, Xie, G, et al. Outbreak of Haff disease caused by consumption of crayfish (Procambarus clarkii), Nanjing, Jiangsu Province, China. Food Control 2016;59:690-694.Google Scholar
7. Sud, P, Su, MK, Greller, HA, Majlesi, N, Gupta, A. Case series: inhaled coral vapor—toxicity in a tank. J Med Toxicol 2013;9(3):282-286.Google Scholar
8. Buchholz, U, Mouzin, E, Dickey, R, et al. Haff disease: from the Baltic Sea to the U.S. shore. Emerg Infect Dis 2000;6(2):192-195.Google Scholar
9. Deeds, JR, Schwartz, MD. Human risk associated with palytoxin exposure. Toxicon 2010;56(2):150-162.Google Scholar
10. Alcala, AC, Alcala, LC, Garth, JS, Yasumura, D, Yasumoto, T. Human fatality due to ingestion of the crab Demania reynaudii that contained a palytoxin-like toxin. Toxicon 1988;26(1):105-107.Google Scholar
11. Gonzales, RB, Alcala, AC. Fatalities from crab poisoning on Negros Island, Philippines. Toxicon 1977;15(2):169-170.Google Scholar
12. Walls, RM, Hockberger, RS, Gausche-Hill, M. Rosen’s Emergency Medicine: Concepts and Clinical Practice, 9th ed Philadelphia: Elsevier; 2018.Google Scholar
Figure 0

Table 1 Clinical characteristics and laboratory findings of the four patients