ABSTRACT
Introduction: Trials have demonstrated the benefits of methylprednisolone in the treatment of coronavirus disease 2019 (COVID-19). However, data on optimal dose, duration and timing of administration are limited. This study investigates the outcome of various methylprednisolone treatment regimens among hospitalised COVID-19 patients. Methods: A retrospective cohort study was conducted on hospitalised adult COVID-19 patients admitted between June and August 2021 in general COVID-19 wards, treated with methylprednisolone. Clinical outcomes evaluated include in-hospital mortality, thirty-day mortality, clinical efficacy (C-reactive protein (CRP), total white blood cells (TWBC) and oxygen requirement) as well as the safety of methylprednisolone. Results: Of 278 patients, 1(0.4%) received weight-based dosing of 1â mg/kg/day, 101(36.3%) received weight-based dosing of 2â mg/kg/day, 130(46.8%) received fixed dosing methylprednisolone 250â mg/day and 46(16.5%) received fixed dosing methylprednisolone 500â mg/day. There was a significant difference in in-hospital mortality rates following different methylprednisolone doses whereby in-hospital mortality occurred in 22.5% (n = 23) of patients with 1 or 2â mg/kg/day methylprednisolone, 32.3% (n = 42) with 250â mg/day and 39.1% (n = 18) with 500â mg/day (p = 0.023). On the other hand, no significant difference in thirty-day mortality, clinical efficacy and safety was observed between different dosing regimens (p > 0.05). Conclusion: The use of methylprednisolone weight-based dosing in hospitalised COVID-19 patients should be considered due to the positive outcome associated with lower in-hospital mortality.
ABSTRACT
BACKGROUND: An assay for the quantification of dabigatran and its active metabolites, dabigatran acylglucuronides, has not previously been described in detail. RESULTS: For the quantification of total dabigatran concentration (free dabigatran and acylglucuronides), samples were subjected to alkaline hydrolysis. For the quantification of free dabigatran, samples were acidified with ammonium formate. Following acetonitrile protein precipitation, the samples were analyzed by LC-MS/MS using gradient elution to ensure separation of dabigatran from dabigatran acylglucuronides. Mean recoveries ≥98% were achieved. The assay was validated over the range 2.5-1000 ng/ml dabigatran, imprecision was <9% CV (<15% at LLOQ) and accuracy was 101-114%. CONCLUSION: An assay for dabigatran with indirect quantification of dabigatran acylglucuronides in plasma was developed, validated and applied.