User contributions for Husam Shakour

17 March 2025

• 06:0606:06, 17 March 2025 diff hist +6‎ m Development and validation of a reinforcement learning algorithm to dynamically optimize mechanical ventilation in critical care ‎ →‎Major Points
• 06:0606:06, 17 March 2025 diff hist +5‎ m Development and validation of a reinforcement learning algorithm to dynamically optimize mechanical ventilation in critical care ‎ →‎Criticisms
• 06:0606:06, 17 March 2025 diff hist +10‎ m Development and validation of a reinforcement learning algorithm to dynamically optimize mechanical ventilation in critical care ‎ →‎Secondary Outcomes
• 06:0506:05, 17 March 2025 diff hist +3‎ Development and validation of a reinforcement learning algorithm to dynamically optimize mechanical ventilation in critical care ‎ →‎Primary Outcomes
• 06:0506:05, 17 March 2025 diff hist +4‎ Development and validation of a reinforcement learning algorithm to dynamically optimize mechanical ventilation in critical care ‎ →‎Interventions
• 06:0506:05, 17 March 2025 diff hist +2‎ m Development and validation of a reinforcement learning algorithm to dynamically optimize mechanical ventilation in critical care ‎ →‎Baseline Characteristics
• 06:0506:05, 17 March 2025 diff hist +2‎ m Development and validation of a reinforcement learning algorithm to dynamically optimize mechanical ventilation in critical care ‎ →‎Exclusion Criteria
• 06:0406:04, 17 March 2025 diff hist +2‎ Development and validation of a reinforcement learning algorithm to dynamically optimize mechanical ventilation in critical care ‎ →‎Inclusion Criteria
• 06:0406:04, 17 March 2025 diff hist +6‎ Development and validation of a reinforcement learning algorithm to dynamically optimize mechanical ventilation in critical care ‎ →‎Design
• 01:5501:55, 17 March 2025 diff hist +5,636‎ N Development and validation of a reinforcement learning algorithm to dynamically optimize mechanical ventilation in critical care ‎ The study showed a 40-42% improvement in performance return compared to clinician-guided ventilation, with VentAI following lung-protective strategies more effectively and making more frequent adjustments. However, as a retrospective study, it lacks real-world validation, and prospective clinical trials are needed to confirm its safety and effectiveness before clinical implementation.