AI health warning as researchers say algorithms could discriminate against patients

Independent

12-04-2025

Artificial intelligence in healthcare has left experts urging caution that a focus on predictive accuracy over treatment efficacy could lead to patient harm.
Researchers in the Netherlands warn that while AI -driven outcome prediction models (OPMs) are promising, they risk creating "self-fulfilling prophecies" due to biases in historical data.
OPMs utilise patient-specific information, including health history and lifestyle factors, to assist doctors in evaluating treatment options. AI's ability to process this data in real-time offers significant advantages for clinical decision-making.
However, the researchers' mathematical models demonstrate a potential downside, namely if trained on data reflecting historical disparities in treatment or demographics, AI could perpetuate these inequalities, leading to suboptimal patient outcomes.
The study highlights the crucial role of human oversight in AI-driven healthcare. Researchers emphasise the "inherent importance" of applying "human reasoning" to AI's decisions, ensuring that algorithmic predictions are critically evaluated and do not inadvertently reinforce existing biases.
The team then created mathematical scenarios to test how AI may harm patient health and suggest that these models "can lead to harm".
'Many expect that by predicting patient-specific outcomes, these models have the potential to inform treatment decisions and they are frequently lauded as instruments for personalised, data-driven healthcare,' researchers said.
'We show, however, that using prediction models for decision-making can lead to harm, even when the predictions exhibit good discrimination after deployment.
'These models are harmful self-fulfilling prophecies: their deployment harms a group of patients, but the worse outcome of these patients does not diminish the discrimination of the model.'
The article, published in the data-science journal Patterns, also suggests the development of AI model development 'needs to shift its primary focus away from predictive performance and instead toward changes in treatment policy and patient outcome'.
Reacting to the risks outlined in the study, Dr Catherine Menon, a principal lecturer at the University of Hertfordshire's department of computer science, said: 'This happens when AI models have been trained on historical data, where the data does not necessarily account for such factors as historical under-treatment of some medical conditions or demographics.
'These models will accurately predict poor outcomes for patients in these demographics.
'This creates a 'self-fulfilling prophecy' if doctors decide not to treat these patients due to the associated treatment risks and the fact that the AI predicts a poor outcome for them.
'Even worse, this perpetuates the same historic error: under-treating these patients means that they will continue to have poorer outcomes.
'Use of these AI models therefore risks worsening outcomes for patients who have typically been historically discriminated against in medical settings due to factors such as race, gender or educational background.
'This demonstrates the inherent importance of evaluating AI decisions in context and applying human reasoning and assessment to AI judgments.'
AI is currently used across the NHS in England to help clinicians read X-rays and CT scans to free up staff time, as well as speeding up the diagnosis of strokes.
In January, Prime Minister Sir Keir Starmer pledged that the UK will be an 'AI superpower' and said the technology could be used to tackle NHS waiting lists.
Ian Simpson, a professor of biomedical informatics at the University of Edinburgh, highlighted that AI OPMs 'are not that widely used at the moment in the NHS'.
'Here they tend to be used in parallel with existing clinical management policies and often either for assisting diagnostics and/or speeding up processes like image segmentation,' he said.
Ewen Harrison, a professor of surgery and data science and co-director of the centre for medical informatics at the University of Edinburgh, said: 'While these tools promise more accurate and personalised care, this study highlights one of a number of concerning downsides: predictions themselves can unintentionally harm patients by influencing treatment decisions.
'Say a hospital introduces a new AI tool to estimate who is likely to have a poor recovery after knee replacement surgery. The tool uses characteristics such as age, body weight, existing health problems and physical fitness.
'Initially, doctors intend to use this tool to decide which patients would benefit from intensive rehabilitation therapy.
'However, due to limited availability and cost, it is decided instead to reserve intensive rehab primarily for patients predicted to have the best outcomes.
'Patients labelled by the algorithm as having a 'poor predicted recovery' receive less attention, fewer physiotherapy sessions and less encouragement overall.'
He added that this leads to a slower recovery, more pain and reduced mobility in some patients.
'These are real issues affecting AI development in the UK,' Prof Harrison said.