In Sub-Saharan Africa, more than 300 000 people are bitten by venomous snakes annually, 3000 of whom die – but with the underreporting that goes hand in hand with the lack of healthcare infrastructure, the real number could be as much as five times higher. Many more face amputations. Even if patients manage to make it to a clinic or hospital in time, there is no guarantee that there will be any anti-venom available to treat them. As a South African case study shows, just having antivenom in the right place is a problem even in Western Cape’s relatively well-developed healthcare system, with antivenom’s three-year shelf life and cold chain failures posing a major problem for rural healthcare centres.
But now, scientists have developed a new kind of antivenom that is effective for 17 different snake species, including mambas, cobras and a rinkhals. The study, published in Nature, makes use of a nanobody-based cocktail that targets common mechanisms across venoms – and which is also more effective at preventing the tissue damage that leads to amputations.
A huge obstacle to creating broad-spectrum antivenoms is the enormous diversity of venomous snakes and the complexity of their venoms – a single species’ venom may contain 100 toxins from multiple different protein families. Listen to our podcast to hear a deep dive into Africa’s snakebite burden and how the international team of researchers accomplished their feat:
