Simplifying QT prolongation for busy clinicians

Step 1: Assess the patient.

The main risk factors for drug-induced TdP include congenital long QT syndrome and previous TdP.¹ If the patient has either of these high-risk features, QT-prolonging drugs should be avoided where possible. If the QT-prolonging drug is required, the patient should be monitored with ECG testing.

Minor risk factors for drug-induced TdP include bradycardia and electrolyte abnormalities (eg, hypokalemia, hypomagnesemia, hypocalcemia).¹ Women and older adults are also more likely to experience drug-induced TdP.¹ Caution should be used when prescribing QT-prolonging drugs for patients with multiple minor risk factors.

Step 2: Assess the drug.

Not all drugs that prolong the QT interval are associated with TdP. Amiodarone, for example, prolongs the QT interval but is not associated with TdP, likely owing to its inherent antiarrhythmic properties.² Other drugs such as domperidone, citalopram or escitalopram, and macrolides, quinolones, and various antipsychotics have a clear association with TdP, including several published case reports of sudden death.¹

While a complete list of drugs that are associated with TdP is beyond the scope of this article, the CredibleMeds website (www.crediblemeds.org) and mobile application provide a freely available database of QT-prolonging drugs, including a drug’s association with TdP. At the CredibleMeds website, a drug’s TdP risk is designated to a risk category: having a known risk of causing TdP; having a possible risk of causing TdP; being known to cause TdP under certain conditions (eg, overdose); and needing to be avoided in patients with congenital long QT syndrome.³ The website also links to the case reports associated with the drug and TdP. While a drug monograph is also a useful way to identify if the drug is associated with QT prolongation, it provides less useful information about the actual association with TdP.

For drugs that cause TdP, the risk is often dose related; for example, the commonly prescribed dose for domperidone is 10 mg 4 times per day, but the risk of TdP is highest with a dose greater than 30 mg per day.⁴ For patients who require domperidone, a lower dose can be tried. A similar dose-related effect is seen with a methadone dose greater than 100 mg per day.⁵ There are similar warnings for citalopram doses greater than 40 mg per day and escitalopram doses greater than 10 mg per day; however, recent research suggests QT prolongation can occur at lower doses in higher-risk patients.⁶ Be wary of drugs that inhibit the metabolism of a QT-prolonging drug, as the increased serum concentrations can also increase the risk of TdP, even if the dose of the QT-prolonging drug is low.

Step 3: Act.

Symptoms that can precede TdP include heart palpitations and syncope. Patients can be educated when they receive a new prescription and asked about symptoms on follow-up.

An ECG can be done when the clinician is concerned that the patient is at risk of TdP, such as when a patient is taking multiple QT-prolonging drugs or has several minor risk factors. Ideally, an ECG should be done at baseline and repeated after the drug has been taken for 5 half-lives, when the drug has reached steady state in the body; for example, if the half-life of the QT-prolonging drug is 8 hours, the ECG can be repeated in 2 days. A guideline written for clinicians practising in hospital settings suggests avoiding or stopping the drug if the QTc is greater than 500 ms.¹ However, there is less opportunity for close follow-up in primary care than in hospital. A more conservative approach is to stop the drug or reduce the dose if the QTc interval is prolonged by more than 450 ms in men and 460 ms in women, or if it increases by more than 60 ms.⁷