Substance-induced manic psychosis in which delusions were corroborated by a chatbot - case report.
BMC psychiatry June 4, 2026 Peer reviewed DOI: 10.1186/s12888-026-08137-3 via PubMed
Summary
A man in his 30s experienced a substance-induced manic episode with psychotic features after using various drugs, including psilocybin and cocaine. His interactions with an AI chatbot appeared to reinforce his delusions and contradict medical advice, discouraging him from taking prescribed antipsychotics. Following treatment with olanzapine and a care plan that restricted AI use, his symptoms improved over several weeks. This case highlights potential risks of AI chatbots for individuals with mental illness.
Study at a glance
| Design | case report |
|---|---|
| Sample size | 1 |
| Population | a man in his 30s with a substance-induced manic episode |
| Key finding | AI chatbots may reinforce delusional beliefs and interfere with treatment engagement in patients with psychotic symptoms. |
Abstract
This case describes a substance-induced manic episode with psychotic features in which interaction with an AI (artificial intelligence) chatbot appeared to corroborate and reinforce the patient's delusional thought content and to contradict medical advice. Excerpts from the patient's interactions with the AI chatbot provide novel clinical insight into this phenomenon, which to date has primarily been reported in news media. A man in his 30s presented to the emergency department with a one-week history of escalating behavioural disturbance, severe insomnia, pressured and overinclusive speech, and grandiose beliefs. Symptom onset followed heavy polysubstance use at a recreational event, including psilocybin (dried mushrooms and liquid preparation), ketamine, cocaine, and alcohol. During this period, the patient reported extensive interaction with an AI chatbot (ChatGPT). The AI chatbot reportedly affirmed his perceived "spiritual awakening," minimised the possibility that his presentation represented a manic episode, and provided medical advice, including discouragement of prescribed antipsychotic medication, though it cannot be determined to what extent, if any, these statements contributed to his existing presentation. Mental state examination was consistent with a manic episode with psychotic features, without evidence of perceptual disturbance. He was detained under mental health legislation for further assessment and commenced on olanzapine, with adjunctive sleep restoration and psychological interventions. Behavioural management included implementation of a care plan restricting AI chatbot use, as a form of environmental containment. Over several weeks, psychotic symptoms and behavioural disinhibition diminished, with subsequent improvement in insight. Concerns regarding potentially harmful interactions between AI chatbots and individuals with mental illness have largely been raised in news media. This case demonstrates that, in patients with psychotic symptoms, AI chatbots may reinforce delusional beliefs and impair the development of insight, and may also interfere with engagement with treatment by providing advice that conflicts with clinical recommendations. These observations raise clinical, ethical, and risk-management considerations regarding AI chatbot use during acute psychiatric illness. As AI chatbot use becomes increasingly widespread, clinicians should consider assessing their use and impact within clinical assessments and, where clinically indicated, implementing interventions to mitigate associated risks, ranging from psychoeducation to use-restriction strategies. Future population-level studies are required to establish the epidemiology of AI-associated mental health harms, and AI companies must bolster efforts to implement harm minimisation strategies and safeguards.