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  • 1 Gyógyszerkémiai Kutatócsoport, Természettudományi Kutatóközpont, Budapest Magyarország; Medicinal Chemistry Research Group, Research Centre for Natural Sciences, Budapest, Hungary
  • | 2 Magyar Koronavírus-kutatási Akciócsoport, Budapest, Magyarország; Hungarian Coronavirus Research Task Force, Budapest, Hungary
Open access

Összefoglaló. A COVID–19-járvány egyre növekvő számú fertőzött betegének ellátása érdekében rövid időn belül szükség mutatkozott vírusellenes terápiás lehetőségekre. A gyors reagálás szempontját figyelembe véve erre a célra elsősorban más vírusok ellen már kifejlesztett vírusellenes szerek jöhetnek szóba. A magyar betegek ellátásbiztonsága szempontjából különösen fontos a hatóanyagok és gyógyszerkészítmények hazai gyártása. Ezt a cél tűzte ki a favipiravir, egy széles spektrumú antivirális hatóanyag hazai fejlesztése, amely sikeresen befejeződött, a gyógyszerkészítmény klinikai vizsgálata folyamatban van.

Summary. Increasing impact of COVID-19 on the healthcare system prompted the identification of potential antiviral therapies. Due to the immediate demand, known drugs were subjected to repositioning attempts. These drugs include agents inhibiting the viral entry into the host cells, drugs potentially blocking the release of the viral RNA from the endosomes, antivirals inhibiting the replication of the viral RNA and finally compounds that might prevent the assembly of the new virion. Since there is less experience with camostat and nafamostat, the entry inhibitors tested in Japan, and due to the ambiguous data collected with the endosome blocking chloroquine and hydroxyl-chloroquine, we focused on the actual antiviral treatment options for COVID-19 infections. In addition to favipiravir and remdesivir that were used early, at the onset of the pandemic, we discuss novel candidates including molnupiravir, a promising antiviral actually investigated in clinical trials. Considering the needs of Hungarian COVID patients and the security of supply as first priority, we selected favipiravir and developed a convenient process for the industry-scale production of the active pharmaceutical ingredient (API). At the end of this review we summarize the development and clinical investigation of favipiravir, a wide spectrum antiviral drug used for the treatment of mild and moderate COVID patients in Hungary in both ambulant and clinical settings. The Hungarian COVID Task Force set up two consortia, one for the development and the other for the clinical investigations of favipiravir. The objective of the favipiravir development consortium was to develop processes for the production of Favipiravir API and dosage forms. The consortium completed the pilot plant scale industrial production of the API and produced clinical samples for the upcoming trials. The selection and laboratory scale optimization of the synthesis route was performed at the Medicinal Chemistry Research Group of the Research Center for Natural Sciences. The laboratory scale synthesis was scaled up for pilot plant production at EVI plc and Gedeon Richter plc. GMP production was realized at the facilities of Gedeon Richter plc. Finished dosage forms were developed at Meditop Ltd who produced the clinical samples under GMP conditions. The clinical consortium is headed by the Hungarian section of the European Clinical Research Infrastructure Network (ECRIN) and organized two trials. One of these trials investigates favipiravir produced in Hungary while the other trial is performed with favipiravir produced in Japan. Both studies were approved by the Hungarian regulatory agency (OGYÉI) and are ongoing.

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    Lan, J. et al. (2020) Structure of the SARS-CoV-2 spike receptor-binding domain bound to the ACE2 receptor. Nature, Vol. 581. No. 7807. pp. 215–220.

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Ministry of Interior
Science Strategy and Coordination Department
Address: H-2090 Remeteszőlős, Nagykovácsi út 3.
Phone: (+36 26) 795 906
E-mail: scietsec@bm.gov.hu

2020  
CrossRef Documents 13
CrossRef Cites 0
CrossRef H-index 0
Days from submission to acceptance 247
Days from acceptance to publication 229
Acceptance Rate 36%

Publication Model Gold Open Access
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Scientia et Securitas
Language Hungarian
English
Size A4
Year of
Foundation
2020
Publication
Programme
2020 Volume 1
Volumes
per Year
1
Issues
per Year
4
Founder Academic Council of Home Affairs and
Association of Hungarian PhD and DLA Candidates
Founder's
Address
H-2090 Remeteszőlős, Hungary, Nagykovácsi út 3.
H-1055 Budapest, Hungary Falk Miksa utca 1.
Publisher Akadémiai Kiadó
Publisher's
Address
H-1117 Budapest, Hungary 1516 Budapest, PO Box 245.
Responsible
Publisher
Chief Executive Officer, Akadémiai Kiadó
ISSN ISSN 2732-2688

Editor-in-Chief:

  • Tamás NÉMETH 
    (Institute for Soil Sciences and Agricultural Chemistry, Centre for Agricultural Research
    Budapest, Hungary)

Managing Editor:

  • István SABJANICS (Ministry of Interior, Budapest, Hungary)

Editorial Board:

  • Melinda KOVÁCS (Szent István University Kaposvár Campus)Á
  • Miklós MARÓTH (Eötvös Loránd Research Network)
  • Charaf HASSAN (Budapest University of Technology and Economics)
  • Zoltán GYŐRI (Hungaricum Committee)
  • József HALLER (University of Public Service)
  • Attila ASZÓDI (Budapest University of Technology and Economics)
  • Zoltán BIRKNER (National Research, Development and Innovation Office)
  • Tamás DEZSŐ (Migration Research Institute)
  • Imre DOBÁK (University of Public Service)
  • András KOLTAY (University of Public Service)
  • Gábor KOVÁCS (University of Public Service)
  • József PALLO (University of Public Service)
  • Marcell Gyula GÁSPÁR (University of Miskolc)
  • Judit MÓGOR (Ministry of Interior National Directorate General for Disaster Management)
  • István SABJANICS (Ministry of Interior)
  • Péter SZABÓ (Hungarian University of Agriculture and Life Sciences (MATE))
  • Miklós SZÓCSKA (Semmelweis University)
  • János JÓZSA (Budapest University of Technology and Economics)
  • Valéria CSÉPE (Research Centre for Natural Sciences, Brain Imaging Centre)