Serotonin syndrome is diagnosed clinically and requires a thorough review of medications and a careful physical exam. Symptoms tend to develop rapidly after exposure to the precipitating drug: 30% within one hour, 60% within 6 hours, and nearly all patients with toxicity developing symptoms within 24 hours of exposure. The spectrum may range from barely perceptible tremor to life-threatening hyperthermia and shock. Signs and symptoms include agitation, anxiety, restless, disorientation, diaphoresis, hyperthermia, tachycardia, nausea, vomiting, tremor, muscle rigidity, hyperreflexia, myoclonus, dilated pupils, ocular clonus, dry mucous membranes, flushed skin, increased bowel sounds, and a bilateral Babinski sign. Clonus and hyperreflexia are particularly common. Neuromuscular findings tend to be more pronounced in the lower extremities. As compared to the neuroleptic malignant syndrome, patients with serotonin syndrome are more likely to have associated gastrointestinal symptoms and clonus.

Several criteria exist for making the diagnosis: Sternbach, Radomski, and Hunter. The Hunter test is accepted as the most accurate, but the criteria were designed specifically for patients with SSRI overdose, not serotonin syndrome from other agents; therefore, it may not reveal the disease in patients with minor symptoms.[10][11]

Hunter Criteria

1. History of exposure to a serotonergic drug
2. Plus one or more of the following:

• spontaneous clonus
• inducible clonus with agitation and diaphoresis
• ocular clonus with agitation and diaphoresis
• tremor and hyperreflexia
• hypertonia
• temperature over 38 C with ocular or inducible clonus

The following tests may be useful in assessing patients with serotonin syndrome and narrowing the differential diagnosis: complete blood count, electrolytes, creatinine and BUN, creatine phosphokinase, hepatic transaminases, coagulation studies, urinalysis, drug screen, neuroimaging, and lumbar puncture. No laboratory test confirms the diagnosis, but patients may have leukocytosis, elevated creatine phosphokinase, and decreased serum bicarbonate concentration. Patients may develop labile blood pressure, heart rate and cardiac dysrhythmias, disseminated intravascular coagulation, rhabdomyolysis, renal failure, metabolic acidosis, myoglobinuria, and respiratory failure.

Most cases of serotonin syndrome are mild and will resolve with removal of the offending drug alone. After stopping all serotonergic drugs, management is largely supportive and aimed at preventing complications. Patients frequently require sedation, which is best facilitated with benzodiazepines. Antipsychotics should be avoided because of their anticholinergic properties, which may inhibit sweating and heat dissipation. Vital signs should be normalized with intravenous (IV) fluids and cooling measures. Antipyretics such as acetaminophen are ineffective because increased muscular activity causes the hyperthermia in serotonin syndrome. Severe hyperthermia may require sedation, paralysis, and intubation for mechanical ventilation. Autonomic instability may require antihypertensive agents or vasopressors, depending on presentation, and may be quite labile and difficult to manage.  Short-acting agents such as esmolol are recommended if antihypertensive are required. Most cases with hypotension can be managed with IV fluids alone, but in refractory cases, direct-acting sympathomimetics such as phenylephrine, norepinephrine, and epinephrine are preferable.

Cyproheptadine is a histamine-1 receptor antagonist with nonspecific 5-HT1A and 5-Ht2A antagonistic properties. While strong evidence to support its use is lacking, it is widely used as an antidote for serotonin syndrome. Side effects may include sedation, which may be desirable, and hypotension, which in most cases will respond to IV fluids. The usual starting dose is 12 mg, followed by an additional 2 mg every two hours as long as symptoms persist. As the patient improves, cyproheptadine is usually continued at a dose of 8 mg every 6 hours until symptoms resolve.

Patients with abnormal vital signs require admission to a monitored setting, and severe cases warrant intensive care unit care.

Mild cases of serotonin syndrome, with subtle symptoms such as tremor or restlessness, are often overlooked completely or attributed to anxiety or the underlying psychiatric condition. When gastrointestinal symptoms are present, symptoms often are attributed to food poisoning or the flu. Serious cases share many common features with the neuroleptic malignant syndrome (NMS), malignant hyperthermia, anticholinergic toxicity, sympathomimetic toxicity, or infectious causes such as meningitis or encephalitis. NMS can cause urinary incontinence. Careful medication history and diagnostic testing will help delimitate the cause.

Most cases of serotonin syndrome will resolve completely within 24 to 72 hours without sequelae if recognized and treated with removal of the precipitating agent and appropriate supportive care. Patients who are asymptomatic 6 to 8 hours following an overdose are unlikely to develop significant toxicity. SSRIs are rarely associated with death, even in overdose, when used alone. Most fatalities associated with SSRIs are due to co-ingestion with other drugs. Fatalities, when they occur, tend to happen within the first 24 hours and are more likely in patients on MAOIs than SSRIs.

Serotonin syndrome is best managed by an interprofessional team that includes the pharmacist preferably trained in toxicology and a clinical toxicologist. Since many cases are drug-related, the physician and pharmacist must be aware of potential drug interactions. Drug-induced serotonin syndrome is usually mild and will resolve spontaneously but it is best to prevent the disorder in the first place. Cases that are diagnosed and managed have a good outcome. when prescribing a new agent, the clinician should have the pharmacist perform a thorough medication reconciliation looking for interactions and additive effects. Nursing should be alert to the signs of serotonin syndrome and report any concerns promptly to the prescriber so intervention can occur immediately. An interprofessional approach involving clinicians, pharmacists, and toxicologists with nursing assisting with monitoring and family education will lead to the best outcomes. [Level 5]