CDC Influenza Antiviral Medications: Summary for Clinicians - Jan 2026
#19,108
For Americans (and indeed, for much of the world), our first line antiviral against severe influenza is oseltamivir (aka `Tamiflu'), an antiviral which was developed in the late 1990s.
None of these drugs are a panacea against influenza infection, but they are expected to reduce the severity and duration of infection; assuming they can be delivered to the patient in the first 24-48 hrs of infection.There are other options (e.g. inhaled zanamivir, or 1-dose oral baloxavir, etc.), but they are not only more expensive, they are in far shorter supply. While the U.S. government doesn't release exact numbers, oseltamivir reportedly makes up well over 90% of all (SNS) stockpiled influenza antivirals.
How well they might work against a pandemic avian flu strain, like H5N1, isn't really known, particularly the standard 5-day (B.I.D) treatment course of oseltamivir or the 1-dose treatment with Baloxavir.
We've seen concerns raised over the effectiveness of oseltamivir, including a year ago in St. Jude Researchers: Current Antivirals Likely Less Effective Against Severe Infection Caused by Bird Flu in Cows’ Milk; excerpt below:
Our evidence suggests that it is likely going to be hard to treat people severely infected with this bovine H5N1 bird flu strain,” said corresponding author Richard Webby, PhD, St. Jude Department of Host-Microbe Interactions. “Instead, reducing infection risk by not drinking raw milk and reducing dairy farm workers’ exposures, for example, may be the most effective interventions.”
“In general, baloxavir [Xofluza] caused a greater reduction in viral levels than oseltamivir [Tamiflu], but neither was always effective,” said first author Jeremy Jones, PhD, St. Jude Department of Host-Microbe Interactions.
Last January, in Nature Comms: Oseltamivir and Baloxavir Monotherapy and Combination Therapy Efficacy Against Clade 2.3.4.4b A(H5N1) Influenza Virus Infection in Ferrets, we saw a CDC study which looked at both mono and combination therapy with oseltamivir and baloxavir in ferrets infected with H5N1 (genotype D1.1).
In short, they found:
A month later, we looked at a study (Nature Comms: Baloxavir outperforms oseltamivir, favipiravir, and amantadine in treating lethal influenza A(H5N1) HA clade 2.3.4.4b infection in mice) by Webby & Jones et al. which suggests that baloxavir outperforms oseltamivir, favipiravir, and amantadine in treating clade 2.3.4.4b (circa 2022) H5N1 avian viruses (in mice).- Ferrets infected with H5N1 D1.1 and treated with oseltamivir saw little or no clinical or virologic benefit compared to no treatment, with persistent high fevers, weight loss, and systemic viral replication.
- Ferrets treated with Baloxavir saw significantly less fever, weight loss, and viral replication. Some ferrets, however, saw a late rise in fever (after 4 days) and viral shedding, suggesting a viral rebound.
- Ferrets treated with both drugs saw similar clinical protection to baloxavir alone, but did not show signs of rebound.
Note: Ferrets are a good, but not perfect, proxy for humans in influenza research, so these results may not be 100% applicable to humans.
All of which brings us to a new study which raises additional doubts on the effectiveness of oseltamivir monotherapy against HPAI H5.
This is a lengthy, and technically dense, study. While many will want to read it in its entirety, the bottom line is that the existing 5-day course of oseltamivir appears inadequate to treat severe HPAI H5N1 infection (at least, in mice).
The author report Baloxavir as being more potent, but even a 5-day B.I.D course (10 times the current dose) only saved 16.7% of treated mice. Extending treatment to 7 days (14 doses), raised survival to 50%.
Before everyone freaks out, due to their higher metabolic rate, the half-life of baloxavir is much shorter in mice than in humans. While it remains to be determined, an equivalent dose in humans might be more like 2 or 3 doses spread out over a week's time.
First the link, abstract, and a brief excerpt. I'll have a bit more after the break.
Danlei Liu ,Yujing Fan,Ka-Yi Leung,Ruiqi Zhang,Hoi-Yan Lam,Xiaochun Xie,Honglin ChenORCID Icon,Kwok-Hung Chan &Ivan Fan-Ngai Hung
Article: 2645843 | Received 28 Jul 2025, Accepted 12 Mar 2026, Published online: 31 Mar 2026
https://doi.org/10.1080/22221751.2026.2645843ABSTRACTIn 2024, a bovine H5N1 strain was first isolated from dairy cows in Texas and confirmed to transmit cross-species to humans. Therefore, research on treatments for human infection should be accelerated.
In our study, the antiviral effects of baloxavir acid (BXA), oseltamivir carboxylate (OSC), EIDD-1931 (NHC), and ribavirin (RBV) against five H5N1 strains were evaluated in vitro.Cell viability and viral replication were measured to assess the antiviral effects. The results showed that the EC50 of BXA treatment was the lowest. The BXA/NHC and BXA/OSC combination treatments showed more potent inhibitory effects than each monotherapy. The 15 mg/kg baloxavir marboxil (BXM) / 125 mg/kg molnupiravir (MNP) and the 15 mg/kg BXM / 10 mg/kg oseltamivir phosphate (OSP) were tested in BALB/c mice.The mice were inoculated with 10 times the 50% mouse lethal dose (10 MLD50) of bovine H5N1 virus. Treatments began 1-day post-infection (1 dpi) and were administered orally twice daily for 5 or 7 days. Changes in body weight, clinical signs, and survival were monitored; lung and brain tissues were collected for virological, immunological, and histological analyses. Most mice died from severe neurological symptoms.Compared with the 5-day treatment, the 7-day treatment effectively inhibited viral replication and increased survival rates to 50% in BXM, BXM/MNP, and BXM/OSP treatments. Mice treated with BXM/MNP or BXM/OSP combination therapy showed lower viral yields in the lungs than those treated with BXM alone. The results provide a reference for human treatment, and extending the 7-day combination treatment should be considered.
(SNIP)
In summary, BXA, NHC, OSC, and RBV can significantly inhibit the replication of various H5N1 viruses in vitro. The combination treatments of NHC/BXA and OSC/BXA showed stronger antiviral effects. In mice, the 7-day BXM, MNP/BXM, and OSP/BXM treatments significantly increased survival rates.
Combination treatments significantly suppressed the viral replication in both the lungs and brains of mice. Therefore, extended BXM-based combination therapies could be considered as a first-line treatment for humans. The results provided a reference for clinical treatment.
Over the past couple of years we've seen increased calls for a shift in pandemic antiviral strategy towards Baloxavir (or combination therapy), but most countries have invested heavily in oseltamivir, making any change likely slow in coming.
Baloxavir is made only by Roche/Shionogi plants, while oseltamivir is now a generic drug manufactured around the world. The global supply of oseltamivir is probably 50 times greater than baloxavir, while the cost is roughly 1/10th.
The reality is, even oseltamivir will be hard to get - at least during the first critical first 24-48 hrs of infection - during a severe global influenza pandemic. It seems likely that `extended' baloxavir or combination therapy will be limited to hospitalized patients with severe disease.
Given our limited supply of antivirals and an expected wait of least 6 months before having any large quantities of vaccine, we will once again have to rely heavily on preventing infection; wearing face masks, hand washing, improved indoor ventilation, staying home while sick, and avoiding crowds.
Which is why I've already got my supply of masks, hand sanitizer, and OTC meds in the hall closet, and have stayed current with all of my vaccines.
If you aren't similarly prepared, you may want to revisit:
