Résumé
The race to find an effective treatment for coronavirus disease 2019 (COVID-19) is still on, with only two treatment options currently authorized for emergency use and/or recommended for patients hospitalized with severe respiratory symptoms: low-dose dexamethasone and remdesivir. The USA decision to stockpile the latter has resulted in widespread condemnation and in similar action being taken by some other countries. In this commentary we discuss whether stockpiling remdesivir is justified in light of the currently available evidence.
Sujets)
AMP/analogues et dérivés , Alanine/analogues et dérivés , Antiviraux/usage thérapeutique , , Coopération internationale , Internationalité , Réserve stratégique/méthodes , AMP/usage thérapeutique , Alanine/usage thérapeutique , Humains , SARS-CoV-2 , États-UnisSujets)
, COVID-19 , Maladie chronique , Utilisation médicament , Préparations pharmaceutiques , Pharmacoépidémiologie , Réserve stratégique , COVID-19/épidémiologie , Canada/épidémiologie , Maladie chronique/traitement médicamenteux , Maladie chronique/épidémiologie , Utilisation médicament/statistiques et données numériques , Utilisation médicament/tendances , Effets secondaires indésirables des médicaments/prévention et contrôle , Prévision , Humains , Adhésion au traitement médicamenteux/statistiques et données numériques , Préparations pharmaceutiques/classification , Préparations pharmaceutiques/ressources et distribution , Pharmacoépidémiologie/méthodes , Pharmacoépidémiologie/tendances , Types de pratiques des médecins , SARS-CoV-2 , Réserve stratégique/méthodes , Réserve stratégique/statistiques et données numériquesRésumé
RATIONALE & OBJECTIVE: During the coronavirus disease 2019 (COVID-19) pandemic, New York encountered shortages in continuous kidney replacement therapy (CKRT) capacity for critically ill patients with acute kidney injury stage 3 requiring dialysis. To inform planning for current and future crises, we estimated CKRT demand and capacity during the initial wave of the US COVID-19 pandemic. STUDY DESIGN: We developed mathematical models to project nationwide and statewide CKRT demand and capacity. Data sources included the Institute for Health Metrics and Evaluation model, the Harvard Global Health Institute model, and published literature. SETTING & POPULATION: US patients hospitalized during the initial wave of the COVID-19 pandemic (February 6, 2020, to August 4, 2020). INTERVENTION: CKRT. OUTCOMES: CKRT demand and capacity at peak resource use; number of states projected to encounter CKRT shortages. MODEL, PERSPECTIVE, & TIMEFRAME: Health sector perspective with a 6-month time horizon. RESULTS: Under base-case model assumptions, there was a nationwide CKRT capacity of 7,032 machines, an estimated shortage of 1,088 (95% uncertainty interval, 910-1,568) machines, and shortages in 6 states at peak resource use. In sensitivity analyses, varying assumptions around: (1) the number of pre-COVID-19 surplus CKRT machines available and (2) the incidence of acute kidney injury stage 3 requiring dialysis requiring CKRT among hospitalized patients with COVID-19 resulted in projected shortages in 3 to 8 states (933-1,282 machines) and 4 to 8 states (945-1,723 machines), respectively. In the best- and worst-case scenarios, there were shortages in 3 and 26 states (614 and 4,540 machines). LIMITATIONS: Parameter estimates are influenced by assumptions made in the absence of published data for CKRT capacity and by the Institute for Health Metrics and Evaluation model's limitations. CONCLUSIONS: Several US states are projected to encounter CKRT shortages during the COVID-19 pandemic. These findings, although based on limited data for CKRT demand and capacity, suggest there being value during health care crises such as the COVID-19 pandemic in establishing an inpatient kidney replacement therapy national registry and maintaining a national stockpile of CKRT equipment.