Introduction
The widow spiders (Latrodectus species) encompass 32 species worldwide, of which the most well known in North America are 3 species of black widows. Envenomation by a black widow usually results in a self-limiting syndrome of severe, cramping muscular pain or spasm, diaphoresis, hypertension, vomiting, and headache.Reference Timms and Gibbons 1 These symptoms can be treated in the emergency department (ED) with analgesics and benzodiazepines, often with no further intervention. Patients can then be discharged home with oral analgesics as necessary. Occasionally, a patient requires admission or antivenom for refractory pain or venom-induced complication.
It is extraordinarily rare for envenomation by a black widow spider to result in a life-threatening condition. One such condition is myocardial injury due to infarction or inflammation. In order to identify patients with myocardial injury associated with black widow envenomation, one must remember to evaluate for it, because some cases may be serious enough to require antivenom and could even be fatal. We present and discuss the case of a patient with elevated cardiac troponin I (cTnI) after a black widow spider bite.
Case Report
An 84-year-old man with a past medical history of stroke and smoking presented to the ED with left leg pain 3 hours after being bitten on the left foot by what he and his son convincingly described as a black widow spider (Latrodectus hesperus). He encountered the spider while putting on his shoes in the garage.
His initial vital signs were temperature 36.5°C (97.7°F), heart rate 66 beats per minute, respiratory rate 16 per minute, blood pressure 192/64 mm Hg, and pulse oximetry 98% on room air. His physical exam was unremarkable, except for a 3-cm area of erythema on the dorsum of his left foot that was mildly tender to palpation.
The pain was isolated to his left leg, and he was treated with an intravenous (IV) opioid analgesics. As a result of his improved condition with parenteral analgesia alone, no further ED workup was performed, and he was sent home with a prescription for an oral opioid. The following day, he returned to the same ED complaining of cramping pain in both of his legs, ascending to his abdomen and chest, and associated with nausea and dyspnea at rest.
Owing to his chest pain, an electrocardiogram (ECG) and comprehensive laboratory investigations, including cardiac biomarkers, were obtained. The ECG showed a rate of 65 beats per minute without ST segment or T-wave evidence of ischemia (Figure 1). The initial labs were total creatine kinase (CK) 373 IU/L, CK-MB 4 IU/L, and cTnI 0.07 ng/ml. A cTnI greater than 0.04 ng/ml at the involved hospital is considered elevated. The blood urea nitrogen (BUN) was 29 g/dl, and the creatinine was 1.1 mg/dl (84.88 µmol/L SI units). Repeat cardiac biomarkers obtained in the ED 5.5 hours later included CK total 735 IU/L, CK-MB 7.9 IU/L, and cTnI 0.13 ng/ml. A chest x-ray was unremarkable. The patient was treated with IV opioids. Because of the chest pain, he was also given aspirin 325 mg and had 1-in. of nitroglycerin paste applied to his chest. His chest pain subsequently improved. Due to supply limitations, antivenin was not available, and the hospital did not have the catheterization lab available to evaluate for coronary artery disease. The patient was admitted to the cardiology service.
Repeat investigations over the next day showed continued rise in cTnI from 0.16 ng/ml to 0.17 ng/ml and then to 0.15 ng/ml on the third day of admission. The patient’s total CK increased to a maximum of 1,409 IU/L, and his urinalysis showed large blood on dipstick without red blood cells on microscopy. A transthoracic echocardiogram was performed and showed an ejection fraction of 60%, moderate pulmonary hypertension, and trivial pericardial effusion without evidence of pericarditis. He was discharged home after 4 days with instructions to take an aspirin daily and without further cardiac interventions.
Discussion
Latrodectus hesperus, commonly referred to as the western black widow spider, is found in abundance in the southwestern United States, and its range extends to southern British Columbia, southern Saskatchewan, and Alberta.Reference Klinkenberg 2 Other species of the genus Latrodectus are found throughout the world, including southern regions of Canada, where the weather is more temperate. More than 50,000 black widow spider bites have been reported to poison centres in the United States during the past 25 years.Reference Bronstein, Spyker and Cantilena 3 Bites typically occur when the spider defends itself from being accidentally crushed.Reference Boyer, Binford and Degan 4 Symptoms usually begin 30 minutes up to 8 hours after envenomation. The local reaction is usually minimal, manifested by a small puncture wound or papule with surrounding erythema or induration, sometimes manifesting as a characteristic target lesion (Figure 2).Reference Boyer, Binford and Degan 4 Systemic symptoms can occur, including severe, cramping muscular pain or spasm, diaphoresis, hypertension, vomiting, and headache.Reference Timms and Gibbons 1
In patients who develop chest pain, shortness of breath, or palpitations after a black widow spider bite, the possibility of myocardial ischemia or infarction should be considered. In the patient we present, the combination of hypertension compounded by the widow spider envenomation may have contributed to increased myocardial workload. The muscle cramping associated with widow spider envenomation may include myocardium or the musculature in the coronary arterial wall. Ischemia or non-ST elevation myocardial infarction should be included in the differential diagnosis when a patient presents like ours. However, other serious conditions may present similarly after a black widow spider envenomation, including as acute myocarditis.Reference Liu and Baughman 5 Although myocarditis is seen after scorpion or cobra envenomations with relative frequency, it is uncommonly observed after a black widow spider bite.Reference Liu and Baughman 5 To our knowledge, only nine cases of myocarditis after black widow envenomation have been reported in the literature.Reference Dendane, Abidi and Madani 6 - Reference Sari, Zengin and Davutoglu 14 The age distribution of the reported cases ranges from 15 to 65 years old with both males and females affected. Of the nine reported cases, eight occurred in Italy, Morocco, Turkey, or Greece, and one occurred in North America. Only one of those patients died, a 19-year-old woman in Greece.
Our report is limited by the fact that the etiology of our patient’s troponin leak is not definitively known. The cTnI is a molecule that is part of the troponin complex that regulates the contractile process of cardiac muscle cells. It is believed to be present in cardiac muscle only, making it a very specific marker of cardiac muscle injury.Reference Liu and Baughman 5 The cTnI can detect even minor degrees of myocardial necrosis at the myofibril level.Reference Khan, Tun and Wattanasauwan 15 An increased level of cTnI is detectable in the peripheral circulation when the clearance capacity of the cardiac lymphatics is exceeded.Reference Punukollu, Gowda and Khan 16 Myocarditis leads to myocardial necrosis secondary to inflammatory cell infiltrates and cytokine activation.Reference Liu and Baughman 5 Thus, a sensitive and specific marker of myocardial injury from myocarditis is elevated cTnI.
The cTnI elevation, chest pain, and shortness of breath seen in our patient may have been the result of myocarditis. The exact mechanism of myocarditis after black widow spider envenomation is not known. The major component of black widow spider venom, ∝-latrotoxin, is a potent neurotoxin that causes the symptoms associated with envenomation through catecholamine release at adrenergic nerve endings and depletion of acetylcholine at motor nerve endings. Although the nervous system is its primary target, ∝-latrotoxin also affects organs, such as the heart and lungs. A catecholamine surge, direct toxicity, and hypersensitivity reaction are all possible mechanisms for ∝-latrotoxin that lead to myocarditis.Reference Boyer, Binford and Degan 4 , Reference Dendane, Abidi and Madani 6 , Reference Golcuk, Velibey and Gonullu 8 , Reference Kose, Bozkurt and Zengmol 10 - Reference Pneumatikos, Galiatsou and Goe 12 , Reference Sari, Zengin and Davutoglu 14
Another possible etiology of the cTnI elevation seen in our patient is from rhabdomyolysis, another uncommon complication of black widow spider envenomation. The literature suggests that cTnI can be elevated in patients who also have an elevated total CK in a range consistent with rhabdomyolysis (CK greater than 1,000 IU/L, which is four times the upper limit of normal), as seen in our patient.Reference Punukollu, Gowda and Khan 16 - Reference Viallon, Marjollet and Berger 18 However, studies show that the correlation between the severity of rhabdomyolysis and the degree of cTnI elevation is poor,Reference Punukollu, Gowda and Khan 16 - Reference Viallon, Marjollet and Berger 18 and the etiology of how rhabdomyolysis causes cTnI elevation remains unknown. One possible mechanism is micro-injury to the myocardium from free radicals, circulating cytokines, cardiotoxicity due to ion fluxes and high acidemia, hypotension and hypoperfusion, and myocardial stretch due to aggressive fluid resuscitation.Reference Punukollu, Gowda and Khan 16
Finally, another possible explanation for the cTnI elevation seen in our patient could be the way the laboratory measures this biomarker. Troponin assays are immunoassays, and cross-reactions may occur with all antibody assays. Troponin I exists in three isoforms: slow skeletal, fast skeletal, and cardiac muscle specific (cTnI).Reference Punukollu, Gowda and Khan 16 It is the cardiac muscle specific isoform that is measured when a cTnI is obtained. In patients with rhabdomyolysis, and thus in whom skeletal forms of troponin I are elevated, the altered background signal-to-noise ratio may result in falsely elevated cTnI.Reference Li, Zapata and Tillem 17 The frequency and degree to which this happens are not known.
It has been noted previously that the ECG may be normal in patients with black-widow-associated myocardial injury, as was also the case in our patient.Reference Kara, Ak and Bayir 9 Serial cardiac biomarker measurement may be necessary to detect myocardial injury, because it can take some 8–12 hours for the cTnI to rise.Reference Liu and Baughman 5
It is noteworthy that of the nine published cases of myocarditis after black widow spider envenomation, only one (the North American case) was given antivenom. The reasons for this are unclear; some authors explicitly noted that this was due to the lack of availability, whereas others provided no explanation. The case in North America had prompt normalization of the vital signs and resolution of the diaphoresis, fasciculations, and pain after antivenom administration.Reference Levine, Canning and Chase 11 Antivenom is a horse serum-derived product containing IgG antibodies. It is indicated for symptoms refractory to opioids and benzodiazepines or for life-threatening conditions, such as uncontrolled hypertensive emergencies or irreversible organ injury (including myocarditis). Black widow spider antivenin (Merck) is inexpensive at USD 33.25 per vial, and one vial can result in dramatic relief—enough to prevent hospitalization. However, many clinicians are reluctant to administer because of concerns of potential anaphylaxis and serum sickness. Fatal respiratory arrest with severe anaphylactic bronchospasm after antivenom administration has been reported. A recently developed F(ab)2 immunoglobulin product, now in phase three clinical trials, is a theoretically safer alternative to the antivenom currently available.Reference Bush 19 - Reference Nordt, Clark and Lee 22
Conclusion
As our case illustrates, in a patient who presents with chest pain or shortness of breath after a black widow spider bite, myocarditis or cardiac ischemia should be considered in the differential diagnosis and investigated. In severe cases, antivenom administration may be indicated.
Competing interests: None declared.