How AI could help doctors predict cardiac problems in critically ill children
A unique collaboration between 91³Ô¹Ï Engineering researchers and hospital physicians is pioneering the use of artificial intelligence â similar to an AI that helps detect earthquakes â to diagnose heart rhythm abnormalities at Torontoâs Hospital for Sick Children.
The innovative approach, which combines specially trained AI with the expertise of SickKids clinicians, could lead to significantly better health outcomes for critically ill children by providing faster and more accurate diagnosis of heart problems, the researchers say, as well as easing demands on cliniciansâ time.
âThis could help some of our most vulnerable patients, while also reducing stress on the health-care system,â says , a staff physician at SickKids, associate professor in the department of paediatrics at U of Tâs Temerty Faculty of Medicine and research co-lead at the .
When the heart is functioning as it should, it beats to a regular rhythm â the familiar vertical spike followed by ripples that appear on a heart monitor. A heartbeat that is too fast, too slow or chaotic can cause severe complications and death.
Almost one in three children admitted to an intensive care unit experience a heart rhythm anomaly â at SickKids, this affects as many as 700 children a year. These patients require constant monitoring, which places a high demand on hospital staff who are typically caring for other patients at the same time.
âThe challenge is that clinicians cannot continuously monitor every bedside,â says , an assistant professor in 91³Ô¹Ïâs department of civil and mineral engineering and a principal investigator at the . This can lead to a delay in detecting or diagnosing an abnormal heart rhythm, resulting in a worse outcome for the patient.
He and Mazwi, who is SickKidsâ director of translational engineering in critical-care medicine, are developing what they believe will be a game-changing solution.
Prior to joining the Faculty of Applied Science & Engineering, Goodfellow worked at a mining startup where he helped build AI models to scan geological data for certain patterns. In 2017, he was invited to enter a âcomputing in cardiologyâ challenge with a team from , a research group at SickKids. There, he met Mazwi, who was interested in using AI to detect heart arrhythmias and was looking for help with the complex challenge of deploying it in the hospital. Goodfellowâs experience made him a natural collaborator.
The AI they are developing is being trained to recognize the warning signs of impending arrhythmia based on cliniciansâ expertise and more than 10,000 electrocardiogram readings â a far greater number than even the most experienced clinicians would encounter during their career. Before being deployed with patients, the AI needs to be able to match or exceed the performance of a clinician, and accurately sound the alarm when one of these arrhythmia warning signs appears.
âWe want this AI to partner with the best of human intelligence in a kind of collaborative intelligence,â Mazwi says. âWe donât believe that AI will replace clinicians, but we do believe that clinicians who use AI will outperform and replace clinicians who do not.â
The researchers are initially focusing on a specific type of irregular cardiac activity called Junctional Ectopic Tachycardia, or JET, that is especially tricky to detect because it involves subtle changes in the patientâs electrocardiogram. In those who have recently had corrective heart surgery, JET poses a significant risk of injury or death.
Detecting and treating JET early reduces this risk and also helps shorten the patientâs hospital or ICU stay, benefiting the entire health-care system, Mazwi says. Eventually, the researchers hope to develop AI models for detecting every kind of heart rhythm anomaly.
Although AI is making rapid inroads into many areas of life, including medicine, Mazwi says the process in health care is necessarily slower and more careful. An AI model must be tested and retested to ensure it will improve both patient outcomes and overall performance in the health-care system before it is used on actual patients.
âWeâre held to a much higher standard,â he says. âYou donât deploy an AI until you are perfectly sure it will provide gains over the current process.â
The research team at 91³Ô¹Ï and SickKids is collaborating with clinicians and researchers at other pediatric hospitals in England, Israel and Australia to test the AI models being developed in Toronto. Their two goals: to ascertain if the models work as well on similar patient populations in other hospitals and to sow the seeds for expanding far beyond Canada.
âThe timely detection and diagnosis of heart arrhythmias is a challenge â itâs an even greater challenge for hospitals that do not have the funding and expertise that SickKids does,â Goodfellow says. âThe real impact will be when we take this technology to underserved communities.â