From bite to breakthrough: How AI and brave family helped save a child at KATH – Nsemkeka
In a powerful example of how compassion, clinical expertise, and artificial intelligence can come together to change lives, a 10-year-old boy was discharged in good health from the Komfo Anokye Teaching Hospital (KATH) in Kumasi just hours after suffering a snakebite.
What made this case extraordinary wasn’t just the recovery, it was the way it unfolded.
The child was bitten in the late afternoon while playing near the outskirts of Kumasi, an urban centre in Ghana’s Ashanti Region. His family acted immediately. In a decision that likely saved his life, they resisted the urge to apply any local remedies. There was no blood sucking, no application of herbs, no tourniquet, practices that, while common in many rural and peri-urban areas, can often worsen outcomes.
Instead, they brought him directly to KATH. And in a rare and commendable act, they also brought the snake, killed and carefully transported, to help clinicians identify the species. This was no ordinary visit to the emergency department.
The boy was received by Dr. Joseph Bonney, an Emergency Medicine Specialist and a leading AI in Health advocate. Dr. Bonney also serves as a researcher with the Global Health and Infectious Disease Research Group at KCCR–KNUST, where his team has been exploring the responsible use of artificial intelligence to support frontline care in Ghana.
AI at the bedside with the family involved
The case was presented in the evening, when resources and decision-making can be even more critical. Dr. Bonney used a structured approach combining clinical assessment with ChatGPT-4.0, an advanced AI model. The snake’s image and key clinical details were entered into the system. The AI rapidly processed the data, cross-referencing it with known local snake species, envenomation patterns, and regional clinical presentations.
The AI suggested a non-venomous bite and supported a 6-hour observation protocol. But what made this even more remarkable was the transparency: the family was shown the AI’s output and walked through the reasoning behind every step of care.
“This was not AI replacing clinical skills,” Dr. Bonney emphasized. “It was AI complementing clinical judgement. The technology helped identify the snake and linked it with the right treatment pathway. But the ultimate decision always rested with the care team and the family was with us all the way.”
Trust, transparency, and public acceptance
The involvement of the family in the decision-making process was a breakthrough in itself. Often, the public is hesitant about unfamiliar technologies. But in this case, they saw how AI could be a trusted partner, not a mysterious tool, but a transparent ally.
“There was calm,” said one relative. “They didn’t hide anything. They showed us what the computer said and explained what they were doing. We felt part of the solution.”
After the observation period, with no signs of envenomation, the child was discharged, no antivenom needed, no overnight stay, and no fear. Just relief.
A model for the North
The significance of this case extends far beyond Kumasi. While this happened in an urban tertiary facility, northern Ghana sees far more snakebites, often in rural settings with limited access to emergency care. Harmful first-aid practices are still widespread, and access to trained clinicians and antivenom remains uneven.
The success of this AI-assisted, community-engaged approach is now informing efforts to scale these tools and training to high-incidence regions in the north. With responsible AI, clinical mentorship, and public engagement, the model could transform snakebite management across Ghana and beyond.
“This is proof that AI can work in our context,” said Dr. Bonney. “It’s not about replacing our systems. It’s about enhancing them bringing safety, speed, and clarity where it matters most.”
In a country where technology often feels distant from the patient, this case is a vivid reminder that innovation, when grounded in empathy and guided by expertise, can bring healthcare home.