New Antivenom Effective Against 17 African Snake Species

Snakebite Breakthrough: New Danish Antivenom Targets 17 African Species

Danish researchers have made a major breakthrough in snakebite treatment. They've developed a new antivenom that works against 17 different African snake species. This innovation uses nanobodies instead of traditional animal-derived antibodies. While promising, the treatment still needs human testing and doesn't provide full protection in all cases.

Key Points: New Antivenom Effective Against 17 African Snake Species

New antivenom developed using phage display technology instead of animal antibodies
Provides protection against cobras, rinkhals and other African species
Offers better tissue damage protection with lower immune reaction risks
Production method ensures consistent quality at significantly reduced costs

Oct 31, 2025

2 min read

New antivenom effective against 17 African snake species

Danish researchers develop revolutionary antivenom effective against 17 African snake species, offering better protection and lower production costs.

"This antivenom has the potential to fundamentally change how snakebites are treated around the world. - Andreas Hougaard Laustsen-Kiel"

New Delhi, Oct 31

Danish researchers have, in a groundbreaking innovation, developed an antivenom which has shown effectiveness against 17 African snake species, and could revolutionise the treatment of venomous snakebites.

Snakebites result in about 150,000 deaths worldwide each year, according to the World Health Organization (WHO). The survivors are left with serious disabilities, including amputations and permanent tissue damage.

Currently available antivenoms do not cover all medically relevant snake species and do not always neutralise all medically relevant toxins found in snake venoms.

The new broad-spectrum antivenom was developed by researchers from the Technical University of Denmark (DTU) in Denmark by combining eight carefully selected nanobodies into a cocktail.

In laboratory studies, the antivenom showed potential against a total of 17 different African snake species (including cobras and rinkhals). It also provided better protection against tissue damage and lowered the risk of immune reactions.

Importantly, it can be produced at a lower cost than existing antivenoms, said the team in the paper published in the journal Nature.

"We have developed an antivenom that does not require us to constantly extract antibodies from animals. Instead, we used phage display technology to develop our antivenom,â€ said Andreas Hougaard Laustsen-Kiel, who led the research at DTU.

â€œThis method makes it possible to select and copy effective antibody fragments (nanobodies) and later produce them on a large scale and with consistent quality. This means that we would be able to produce the antivenom in large quantities without compromising on quality," he added.

Although the antivenom showed promise, it has yet to be tested on humans.

The team also noted that the effectiveness of the antivenom is limited when itâ€™s given after venom exposure.

Further, venom from certain species, such as the black mamba and forest cobra, was only partially neutralised. This shows that both the composition of the venom and the timing of treatment are very important â€“ and that the antivenom does not yet provide full protection in all cases.

Urging the need for more studies and clinical trials, Laustsen-Kiel stated that the "antivenom has the potential to fundamentally change how snakebites are treated around the world.â€

- IANS

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Reader Comments

Rohit P

Lower cost production is the key here. Current antivenoms are expensive and not always available in remote areas. If this makes treatment more affordable, it will be a game-changer for developing countries like India.

Arjun K

Good progress but they should have tested it on humans before making big claims. Many promising lab results fail in clinical trials. Hope it works as expected - snakebite victims in rural India desperately need better treatments.

Sarah B

The fact that it doesn't require animal antibodies is a huge ethical advancement! ðŸ™Œ Current antivenom production involves injecting horses with venom - this new method is much more humane and sustainable.

Vikram M

Concerned about the timing limitation mentioned. In rural India, victims often reach hospitals hours after being bitten. If it's less effective after venom exposure, that's a major drawback for practical use in our context.

Karthik V

Our AIIMS and other medical research centers should take note of this nanobody technology. India has some of the world's most venomous snakes - we need indigenous research in this area too. Jai Vigyan! ðŸ”¬

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New antivenom effective against 17 African snake species

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