எங்கள் குழு ஒவ்வொரு ஆண்டும் அமெரிக்கா, ஐரோப்பா மற்றும் ஆசியா முழுவதும் 1000 அறிவியல் சங்கங்களின் ஆதரவுடன் 3000+ உலகளாவிய மாநாட்டுத் தொடர் நிகழ்வுகளை ஏற்பாடு செய்து 700+ திறந்த அணுகல் இதழ்களை வெளியிடுகிறது, இதில் 50000 க்கும் மேற்பட்ட தலைசிறந்த ஆளுமைகள், புகழ்பெற்ற விஞ்ஞானிகள் ஆசிரியர் குழு உறுப்பினர்களாக உள்ளனர்.
அதிக வாசகர்கள் மற்றும் மேற்கோள்களைப் பெறும் திறந்த அணுகல் இதழ்கள்
700 இதழ்கள் மற்றும் 15,000,000 வாசகர்கள் ஒவ்வொரு பத்திரிகையும் 25,000+ வாசகர்களைப் பெறுகிறது
Nathan Elrod, Jeff Brady, Harold Rathburn and Janice L. Speshock
Background: Arenaviruses are important pathogens that can cause hemorrhagic fever or meningoencephalitis. There is not an effective treatment targeting arenaviruses, which necessitates a search for therapies against this virus family, as well as others. Silver nanoparticles (Ag-NPs) have been shown to have effective antiviral activity in cell culture models against arenaviruses, and therefore it was hypothesized that they may make an effective therapeutic against viral meningitis. However, the silver nanoparticles interfered with normal cytokine profiles produced in response to the virus infection, which led to exacerbated pathology.
Methods: Mice were infected with Tacaribe virus, a mouse-adapted arenavirus that causes lethal encephalitis. The virus was left untreated or treated with 10 nm Ag-NPs, which were demonstrated previously to inhibit virus replication in cell culture. Virus replication, brain pathology, and cytokine profiles (pro-inflammatory interleukins and type I interferons), as well as over morbidity and mortality were assessed in the mice with and without treatment.
Results: Although the viral loads appeared to be reduced in the Ag-NP treated mice, mortality was observed in all virus-infected animals, regardless of whether or not they received nanoparticle therapy. The Ag-NP treatments also the innate immune response against the virus infection and unregulated the production of interleukin-1 beta, which likely contributed to the observed mortality in the mice.
Conclusions: This study confirms why it is important to assess promising in vitro results using in vivo models. Biological barriers can impact the efficacy of therapeutics in mammals. Although Ag-NPs may still have success as an antiviral therapeutic in other areas of the body that are less constricted, in sensitive areas such as the brain, the nanoparticles can cause very adverse reactions.