Adverse Interactions and Contraindications

In addition to potential issues of producing overdoses by giving two drugs that either act the same, or are metabolized by the same mechanisms (and thus compete with each other), combining drugs can present the risk of producing adverse consequences specific to the way particular drugs interact with each other.

Serotonin syndrome has been reported in monkeys, rats, rabbits, dogs, and humans (e.g. Oates and Sjoerdsma 1960; Hess and Doepfner 1961; Curzon et al. 1963; Grahame‐Smith 1971; Sinclair 1973; Brown et al. 1996; Martin 1996). This is a consequence of taking excessive quantities of medications that increase serotonin levels and/or taking certain medications that interact incompatibly in regards to serotonin metabolism. There is no diagnostic test for serotonin syndrome, and diagnosis is based on a history of medication with drugs that may interact incompatibly or a history of medication with excessive quantities of drugs that facilitate serotonin activity, combined with presenting symptoms and the exclusion of other medical conditions. The potential for serotonin syndrome is one reason that it is important to get a complete listing of all herbal medications being given to a patient, as some, such as St. John’s Wort, act on serotonin. The mechanism for serotonin syndrome is not fully understood, but most investigators believe the primary mechanism is excess 5‐HT_1A‐receptor stimulation (Brown et al. 1996; Martin 1996).

Signs and symptoms can be grossly grouped into mental changes, neuromuscular changes, and autonomic changes. In humans, the problem is usually mild and resolves in 24–72 hours, but it can cause death (Beaumont 1973; Mendis et al. 1981; Tackley and Tregaskis 1987; Brennan et al. 1988; Kline et al. 1989; Neuvonen et al. 1993; Kuisma 1995). The most serious cases result when an SSRI has been taken with (i) an MAO inhibitor, which decreases serotonin metabolism, (ii) a serotonin receptor agonist, such as buspirone, (iii) a tricyclic antidepressant, which is a non‐selective serotonin reuptake inhibitor, or (iv) meperidine, tryptophan, or dextromethorphan. Specific changes in mental status symptoms reported in humans include confusion, agitation, coma, hypomania, and anxiety. Motor abnormalities include myoclonus, hyperreflexia, muscle rigidity, restlessness, tremor, ataxia, shivering, nystagmus, and seizures. Cardiovascular changes include hypertension, hypotension, and sinus tachycardia. Gastrointestinal signs and symptoms include nausea, diarrhea, abdominal pain, and excessive salivation. Other signs include diaphoresis, hyperpyrexia, tachypnea, and unreactive pupils (Brown et al. 1996). Some of these signs can be similar to the most common reported side effects of antidepressants. Due to this, the authors warrant caution when side effects are reported in patients. Serotonin syndrome should be considered and increasing the dose (to “see if the patient will get over side effects”) is risky and not recommended.

Treatment and management include discontinuation of all serotonergic medications and supportive treatment. Benzodiazepines such as diazepam or lorazepam may be given for myoclonus and the hyperthermia resulting from myoclonus. However, clonazepam is not effective with serotonin syndrome (Nierenberg and Semprebon 1993; Skop et al. 1994; Brown and Skop 1996). In severe cases, 5‐HT antagonists such as cyproheptadine, methysergide, or propranolol can be given (Goldberg and Huk 1992; Brown et al. 1996; Martin 1996).

Gwaltney‐Brant et al. (2000) reported on 21 cases of dogs that had been exposed through accidental poisoning to the nutritional supplement 5‐Hydroxytryptophan, which is the immediate precursor to serotonin. The dose consumed ranged from 2.5 to 573 mg kg⁻¹. The dog that had been exposed to 2.5 mg kg⁻¹ received no treatment and exhibited no symptoms. One dog, which had consumed a dose of 222 mg kg⁻¹, had emesis induced within 30 minutes. This dog exhibited no symptoms. The lowest dose at which signs developed was 23.6 mg kg⁻¹. The lowest dose at which death occurred was 128 mg kg⁻¹. The time of onset of clinical signs varied from 10 minutes to 4 hours after ingestion. Nineteen of the dogs developed clinical toxicosis. Of these, three died. Mental status changes included depression, coma, and disorientation. Sensorimotor changes included tremors, hyperesthesia, ataxia, paresis, hyperreflexia, and weakness. Respiratory and cardiovascular signs included tachycardia, cyanosis, and dyspnea. Gastrointestinal signs included vomiting, diarrhea, abdominal pain, flatulence, and bloat. Other signs included mydriasis, transient blindness, hypersalivation, hyperthermia, hypothermia, and vocalization. Treatment included decontamination by inducing emesis, anticonvulsants, thermoregulation, and fluid therapy. The 16 dogs that exhibited clinical toxicosis and recovered all did so within 36 hours of beginning treatment. Clinical blindness, if present, was the last sign to resolve.

Because of their long half‐lives, serotonin syndrome has occurred five to six weeks or later after discontinuation of fluoxetine, paroxetine, sertraline or irreversible MAOIs (Pato et al. 1991; Coplan and Gorman 1993; Martin 1996).

According to a meta‐analysis in humans regarding safety and tolerability of antidepressant co‐treatment in acute major depressive disorder with 23 studies of 2435 samples, noradrenergic and specific serotonergic antidepressants (NsSSA) or TCA or SSRIs were associated with more adverse events such as tremor, sweating, or weight gain. Although it was sparse data, the authors suggested this augmentation should be chosen with caution (Galling et al. 2015).

P‐glycoprotein (P‐gp) plays one of the important roles in the pharmacokinetics and clinical effects (Akamine et al. 2012

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