Kawasaki disease (KD) is the leading cause of acquired heart disease in children in developed countries, yet it has long defied easy understanding, with diverse traits and multiple triggers, and an unknown cause.
During the COVID-19 pandemic, Kawasaki disease case rates declined but a different illness emerged: multisystem inflammatory syndrome in children, or MIS-C, which shares many symptoms with KD, but is linked to a single pathogen, the SARS-CoV-2 virus that causes COVID-19.
In a new study, published September 20, 2022 in The Lancet Digital Health, a national team of scientists led by researchers at University of California San Diego School of Medicine, has created a machine-learning algorithm for diagnosing both MIS-C and KD.
“For 40 years, the Kawasaki research community has tried to create a diagnostic test for KD and failed,” said co-senior study author Jane C. Burns, MD, a pediatrician at Rady Children’s Hospital-San Diego and director of the Kawasaki Disease Research Center at UC San Diego School of Medicine.
“But now, in just the space of 18 months, we have created a physician support tool that differentiates MIS-C from KD in children using simple test results and five features of the physical exam that any health care provider, clinic or hospital can do, with accuracy exceeding 90 percent.”
MIS-C, KD and COVID-19 share similar underlying molecular patterns and immune responses. A published study earlier this year by UC San Diego scientists found that all three inflammatory disorders were on the same immune response continuum, with MIS-C being a more severe version of the response than KD.
MIS-C and KD share many symptoms, including fever, rash and bloodshot eyes, but KD can also lead to coronary artery aneurysms and heart attacks if untreated. It remains unclear how MIS-C affects children in the long-term, but early data suggest complete recovery. The condition develops only in some children, infected by SARS-CoV-2. With both KD and MIS-C, however, early diagnosis is crucial but physicians have lacked any precise way to differentiate MIS-C from KD or other acute febrile childhood illnesses.
The new study used data from 1,517 patients diagnosed with MIS-C, KD or other febrile illnesses at Rady Children’s between January 1, 2009 and June 7, 2021, with additional patient data from Connecticut Children’s Medical Center in Hartford, CT (16 patients) and Children’s Hospital Los Angeles (50 patients).
A novel deep-learning algorithm, dubbed KIDMATCH and developed by the study’s first author Jonathan Y. Lam, a Ph.D. candidate in the lab of Shamim Nemati, Ph.D., associate professor of medicine at UC San Diego School of Medicine, was used to compare MIS-C and KD using patient age, the five classic signs of clinical KD and 17 laboratory measurements.
“Deep-learning algorithms have shown high performance capabilities in industrial applications, such as voice recognition or machine translation, and are good at identifying multiplicative risk factors. For example: the interaction between immunosuppression and hypothermia in the presence of an infection that may be indicative of risk,” said Nemati.
Nemati also noted the benefit of overcoming the issue of biased datasets in developing machine learning.
“One of the main sources of bias is lack of diversity in the training dataset, which causes a model to work better on some patient populations than others. Building a diverse training population that leverages national datasets, as was done for this project, helps to mitigate the bias of the model.
“To further address bias the machine learning experts included a boundary around the algorithm, which enables the model to identify whether it has enough prior knowledge of similar cases to reliably determine whether a patient is at risk for MIS-C. If the algorithm finds the data lacking, it will flag the case as an indeterminate result. These flags reduced false alarms for similar machine learning models by 75 percent. This reduction of false alarms can greatly reduce the burden of resources or time spent on a false diagnosis.”
The algorithm’s conclusions were externally validated on patient cohorts from Boston Children’s Hospital, Children’s National Hospital in Washington, D.C. and the CHARMS Study Group Consortium of 14 hospitals in the United States.
“The hope here, of course, is that KIDMATCH can help front-line clinicians distinguish between MIS-C, Kawasaki disease and other febrile illnesses so that they can provide earlier, appropriate treatment and prevent severe complications,” said co-senior study author Nemati.
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