Machine learning for precision psychiatry

The nature of mental illness remains a conundrum. Traditional disease categories are increasingly suspected to mis-represent the causes underlying mental disturbance. Yet, psychiatrists and investigators now have an unprecedented opportunity to benefit from complex patterns in brain, behavior, and genes using methods from machine learning (e.g., support vector machines, modern neural-network algorithms, cross-validation procedures). Combining these analysis techniques with a wealth of data from consortia and repositories has the potential to advance a biologically grounded re-definition of major psychiatric disorders. Within the next 10-20 years, incoming patients could be stratified into distinct biological subgroups that cut across classical diagnostic boundaries. In a new era of evidence-based psychiatry tailored to single patients, objectively measurable endophenotypes could allow for individualized prediction of early diagnosis, treatment selection, and dosage adjustment to reduce the burden of disease. This primer aims to introduce clinicians and researchers to the opportunities and challenges in bringing machine intelligence into psychiatric practice.