Intrahospital trauma flowcharts - Cognitive aids for intrahospital trauma management from the French Society of Anaesthesia and Intensive Care Medicine (SFAR) and the French Society of Emergency Medicine (SFMU)

Current knowledge and availability of machine learning across the spectrum of trauma science

PURPOSE OF REVIEW

Recent technological advances have accelerated the use of Machine Learning in trauma science. This review provides an overview on the available evidence for research and patient care. The review aims to familiarize clinicians with this rapidly evolving field, offer perspectives, and identify existing and future challenges.

RECENT FINDINGS

The available evidence predominantly focuses on retrospective algorithm construction to predict outcomes. Few studies have explored actionable outcomes, workflow integration, or the impact on patient care. Machine Learning and data science have the potential to simplify data capture and enhance counterfactual causal inference research from observational data to address complex issues. However, regulatory, legal, and ethical challenges associated with the use of Machine Learning in trauma care deserve particular attention.

SUMMARY

Machine Learning holds promise for actionable decision support in trauma science, but rigorous proof-of-concept studies are urgently needed. Future research should assess workflow integration, human-machine interaction, and, most importantly, the impact on patient outcome. Machine Learning enhanced causal inference for observational data carries an enormous potential to change trauma research as complement to randomized studies. The scientific trauma community needs to engage with the existing challenges to drive progress in the field.

[Intrahospital trauma flowcharts : Cognitive support for optimization and acceleration of resuscitation room management of patients with severe injuries and polytrauma]

Morbidity and mortality after severe injury remain high despite substantial improvements in management and care over the past two decades, especially in the early phase of treatment. This is mainly due to still existing and insufficient adherence to evidence-based guidelines. The latter are considered the backbone of optimum treatment of the severely injured; however, the complexity and format often still preclude their clinical acceptance and immediate use in the resuscitation room. As a result of a close colaboration between two French medical societies a series of user-friendly flowcharts were developed as cognitive aids to support early acute diagnosis and treatment for the resuscitation room management of severely injured patients. These have been translated and adapted to the current "S3 Guideline on the Clinical Management of Severe Injuries and Polytrauma" coordinated by the Association of Scientific Medical Societies in Germany (AWMF).