Internal and Emergency Medicine | 2021
Adverse drug reactions in the era of COVID-19
Abstract
As I read the article by Crescioli et al. [1] entitled adverse drug reactions in SARS-CoV-2 hospitalised patients: a case-series with a focus on drug-drug interactions, several thoughts came to mind. This article studied all reported COVID-19 medication adverse drug reactions in the COVID-19 units in a single center in Italy from January to May 2020. They collected data on 23 patients with reported COVID-19 treatment ADRs. These 23 patients were all Caucasian, 56% male and had a mean age over 76 years. This study showed that all patients were exposed to more than one suspected drug and 50% had more than 3 suspected medications. All but one patient had at least one drug–drug interaction. Almost 70% of patients were receiving more than 6 medications. As the novel SARS-Co-V2 virus, later named COVID-19, emerged and quickly became a pandemic, medical researchers world-wide scrambled to learn about this virus to find targets for treatment. This research progressed at never before seen rates but still seemed agonizingly slow for clinicians treating the sickest of these patients. As seen with other novel infectious agents outbreaks, many began to try off label usages of common medications or medications with known action on viruses in general and often multiple medications at once. Looking at just some of these medications employed and their known side effects is concerning not to mention. One of the first therapies to be explored was chloroquine and hydroxychloroquine. This drug has long been used for malaria and inflammatory diseases. Several small case studies and non-randomized trials showed promise early on. There was minimal data on dosing regimen for effectiveness and safety. Many of the dosing regimens were well above standard dosing regimens for established uses [2]. One of the known side effects of chloroquine and hydroxychloroquine treatment is QTC prolongation in a small number of patients. No data exists for these new dosing regimens and the potential effect on the QTC. Azithromycin was often combined with chloroquine/hydroxychloroquine which is also a QT prolonging agent. Studies have even shown an increased propensity for QT prolongation in those 60–80 years old [3]. The hydroxychloroquine treatment was eventually shown in a randomized control trial to have no decrease in mortality and actually showed a higher rate of mechanical ventilation as well as decreased chances of leaving the hospital at 28 days. Antiviral and antiretroviral medications also took their turn as experimental treatments. Lopinavir/ritonavir was one of these tried. It is approved in the USA for treatment of HIV and has been studied in small samples for the treatment of SARS and MERS [4]. Common side effects include Gi symptoms as well as headache, drowsiness or dizziness. Ribavirin which is known to inhibit RNA-dependent RNA polymerase was another early candidate. Early bench work had shown promising activity in-vitro against other coronaviruses [5]; however, later studies showed a lack of effective in vitro activity against SARS-COV2 unless in high concentration. When high doses were employed to obtain high drug concentrations, significant hematologic side effects were seen in SARS and MERS trials further increasing risk of ADRs. Review of studies from the SARs outbreak and treatment with ribavirin were inconclusive for benefits [6]. Remdesivir showed promise as a treatment as it had shown activity against RNA viruses in the SARS and MERS outbreaks. In vitro testing showed this effect on SARSCoV-2 also [7]. Common reactions include GI symptoms and hyperglycemia while some of the more serious effects are acute kidney injury, AST/ALT elevation and seizures. With this newer medication, information about drug interactions is limited. Adverse drug reactions (ADR) are a noted common clinical problem and can lead to morbidity and mortality. Treatment with new medications or commonly used medications with different dosage regimens can lead to adverse drug reactions that are more severe or as yet unrecognized * Angela P. Cornelius [email protected]