Does Reinforcement Learning Improve Outcomes for Critically Ill Patients? A Systematic Review and Level-of-Readiness Assessment

Otten, Martijn; Jagesar, Ameet R.; Dam, Tariq A.; Biesheuvel, Laurens A.; den Hengst, Floris; Ziesemer, Kirsten A.; Thoral, Patrick J.; de Grooth, Harm-Jan; Girbes, Armand R.J.; François-Lavet, Vincent; Hoogendoorn, Mark; Elbers, Paul W.G.

doi:10.1097/ccm.0000000000006100

Cited by 2 publications

(2 citation statements)

References 52 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…More specifically, these are algorithms that are capable of providing sequential suggestions for treatment within the ICU, such as ventilator settings or the optimal balance between vasopressors and fluids. While the results of reinforcement learning algorithms in retrospective databases are promising, there are no studies published that study performance in a prospective setting [ 23 ▪ ].…”

Section: Artificial Intelligence In the Icumentioning

confidence: 99%

Artificial intelligence to advance acute and intensive care medicine

Biesheuvel,

Dongelmans,

Elbers

2024

Current Opinion in Critical Care

Self Cite

View full text Add to dashboard Cite

Purpose of review This review explores recent key advancements in artificial intelligence for acute and intensive care medicine. As artificial intelligence rapidly evolves, this review aims to elucidate its current applications, future possibilities, and the vital challenges that are associated with its integration into emergency medical dispatch, triage, medical consultation and ICUs. Recent findings The integration of artificial intelligence in emergency medical dispatch (EMD) facilitates swift and accurate assessment. In the emergency department (ED), artificial intelligence driven triage models leverage diverse patient data for improved outcome predictions, surpassing human performance in retrospective studies. Artificial intelligence can streamline medical documentation in the ED and enhances medical imaging interpretation. The introduction of large multimodal generative models showcases the future potential to process varied biomedical data for comprehensive decision support. In the ICU, artificial intelligence applications range from early warning systems to treatment suggestions. Summary Despite promising academic strides, widespread artificial intelligence adoption in acute and critical care is hindered by ethical, legal, technical, organizational, and validation challenges. Despite these obstacles, artificial intelligence's potential to streamline clinical workflows is evident. When these barriers are overcome, future advancements in artificial intelligence have the potential to transform the landscape of patient care for acute and intensive care medicine.

show abstract

Section: Artificial Intelligence In the Icumentioning

confidence: 99%

Artificial intelligence to advance acute and intensive care medicine

Biesheuvel,

Dongelmans,

Elbers

2024

Current Opinion in Critical Care

Self Cite

View full text Add to dashboard Cite

show abstract

“…It is important to note that serial ABGs in patients are not statistically independent. Indeed, a future computerized CDS system could use modern machine learning methods like reinforcement learning (9) to adjust the system’s recommendation for subsequent ventilator changes based on whether a Pa co 2 after an index ventilator change resulted in an ABG that was higher or lower than expected, much as clinicians do at the bedside.…”

mentioning

confidence: 99%