Bone marrow biopsy is a useful procedure for the diagnosis of fever in patients with advanced HIV disease, particularly in areas where tuberculosis and leishmaniasis are prevalent. Involvement of the marrow may be the first indication of the existence of extranodal non-Hodgkin lymphoma. For Mycobacterium avium-intracellulare complex infection, blood cultures were more sensitive than bone marrow biopsy.
Lethal mutagenesis is an antiviral approach that consists of extinguishing a virus by an excess of mutations acquired during replication in the presence of a mutagenic agent, often a nucleotide analogue. One of its advantages is its broad-spectrum nature, which renders the strategy potentially effective against emergent RNA viral infections. Here we describe the synergistic lethal mutagenesis of hepatitis C virus (HCV) by a combination of favipiravir (T-705) and ribavirin. Synergy has been documented over a broad range of analogue concentrations using the Chou-Talalay method implemented in CompuSyn graphics software, with the average dose reduction index (DRI) being above 1 (68.02 ± 101.6 for favipiravir and 5.83 ± 6.07 for ribavirin) and the average combination indices (CI) being below 1 (0.52 ± 0.28). Furthermore, analogue concentrations that individually did not extinguish high-fitness HCV in 10 serial infections extinguished high-fitness HCV in 1 to 2 passages when used in combination. Although both analogues displayed a preference for G → A and C → U transitions, deep sequencing analysis of mutant spectra indicated a different preference of the two analogues for the mutation sites, thus unveiling a new possible synergy mechanism in lethal mutagenesis. The prospects for synergy among mutagenic nucleotides as a strategy to confront emerging viral infections are discussed.
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