Health providers say AI chatbots could improve care. But research says some are perpetuating racism
As hospitals and health care systems turn to artificial intelligence to help summarize doctors’ notes and analyze health records, a new study led by Stanford School of Medicine researchers cautions that popular chatbots are perpetuating racist, debunked medical ideas, prompting concerns that the tools could worsen health disparities for Black patients.
Powered by AI models trained on troves of text pulled from the internet, chatbots such as ChatGPT and Google’s Bard responded to the researchers’ questions with a range of misconceptions and falsehoods about Black patients, sometimes including fabricated, race-based equations, according to the study published Friday in the academic journal Digital Medicine.
Experts worry these systems could cause real-world harms and amplify forms of medical racism that have persisted for generations as more physicians use chatbots for help with daily tasks such as emailing patients or appealing to health insurers.
“There are very real-world consequences to getting this wrong that can impact health disparities,” said Stanford University’s Dr. Roxana Daneshjou, an assistant professor of biomedical data science and dermatology and faculty adviser for the paper. “We are trying to have those tropes removed from medicine, so the regurgitation of that is deeply concerning.”
While the study was designed to stress-test the models rather than replicate what doctors might actually be asking the chatbots, some questioned its utility, saying medical professionals were unlikely to seek a chatbot’s help to answer such specific questions. Daneshjou said physicians are increasingly experimenting with commercial language models in their work, and even some of her own dermatology patients have arrived at appointments recently saying that they asked a chatbot to help them diagnose their symptoms.
Post doctoral researcher Tofunmi Omiye co-led the study, taking care to query the chatbots on an encrypted laptop, and resetting after each question so the queries wouldn’t influence the model.
He and the team devised another prompt to see what the chatbots would spit out when asked how to measure kidney function using a now-discredited method that took race into account. ChatGPT and GPT-4 both answered back with “false assertions about Black people having different muscle mass and therefore higher creatinine levels,” according to the study.
Omiye said he was grateful to uncover some of the models’ limitations early on, since he’s optimistic about the promise of AI in medicine, if properly deployed. “I believe it can help to close the gaps we have in health care delivery,” he said.
Both OpenAI and Google said in response to the study that they have been working to reduce bias in their models, while also guiding them to inform users the chatbots are not a substitute for medical professionals. Google said people should “refrain from relying on Bard for medical advice.”
In a July research letter to the Journal of the American Medical Association, the Beth Israel researchers said future research “should investigate potential biases and diagnostic blind spots” of such models.
While Dr. Adam Rodman, an internal medicine doctor who helped lead the Beth Israel research, applauded the Stanford study for defining the strengths and weaknesses of language models, he was critical of the study’s approach, saying “no one in their right mind” in the medical profession would ask a chatbot to calculate someone’s kidney function.
“Language models are not knowledge retrieval programs,” Rodman said. “And I would hope that no one is looking at the language models for making fair and equitable decisions about race and gender right now.”
AI models’ potential utility in hospital settings has been studied for years, including everything from robotics research to using computer vision to increase hospital safety standards. Ethical implementation is crucial. In 2019, for example, academic researchers revealed that a large U.S. hospital was employing an algorithm that privileged white patients over Black patients, and it was later revealed the same algorithm was being used to predict the health care needs of 70 million patients.
“Since all physicians may not be familiar with the latest guidance and have their own biases, these models have the potential to steer physicians toward biased decision-making,” the Stanford study noted.
Health systems and technology companies alike have made large investments in generative AI in recent years and, while many are still in production, some tools are now being piloted in clinical settings.
The Mayo Clinic in Minnesota has been experimenting with large language models, such as Google’s medicine-specific model known as Med-PaLM.
Mayo Clinic Platform’s President Dr. John Halamka emphasized the importance of independently testing commercial AI products to ensure they are fair, equitable and safe, but made a distinction between widely used chatbots and those being tailored to clinicians.
“ChatGPT and Bard were trained on internet content. MedPaLM was trained on medical literature. Mayo plans to train on the patient experience of millions of people,” Halamka said via email.
Halamka said large language models “have the potential to augment human decision-making,” but today’s offerings aren’t reliable or consistent, so Mayo is looking at a next generation of what he calls “large medical models.”
“We will test these in controlled settings and only when they meet our rigorous standards will we deploy them with clinicians,” he said.
In late October, Stanford is expected to host a “red teaming” event to bring together physicians, data scientists and engineers, including representatives from Google and Microsoft, to find flaws and potential biases in large language models used to complete health care tasks.
“We shouldn’t be willing to accept any amount of bias in these machines that we are building,” said co-lead author Dr. Jenna Lester, associate professor in clinical dermatology and director of the Skin of Color Program at the University of California, San Francisco.