Optimized Emergency Ventilation for All Environments: The Dräger Oxylog® 2000 plus
The Dräger Oxylog 2000 plus is a transport and emergency ventilator that stands out for its reliability, durability, and ease of use. Specially designed to meet the demands of critical situations, it supports healthcare professionals in the field, in hospitals, ambulances, or rescue helicopters. This device provides high-quality invasive and non-invasive ventilation through multiple ventilation modes, safety alarms, and a clear user interface.
Its compact, ergonomic design ensures easy transport and rapid setup while maintaining excellent handling. Made with ultra-resistant materials, it withstands extreme environments and potential transport shocks. The Oxylog 2000 plus is equipped with an internal battery providing up to 4 hours of autonomy, ensuring uninterrupted therapy during transfers or in situations where no power source is available.
The ventilator offers several ventilation modes: VC-CMV, VC-AC, VC-SIMV, and SpnCPAP, and includes advanced functions such as apnea ventilation and pressure support for improved patient comfort and reduced need for intubation. The non-invasive ventilation (NIV) function allows early and effective management of respiratory failure, reducing the risk of complications.
The large screen displays key clinical data such as airway pressure, expired tidal volume, respiratory rate, inspiratory flow, and PEEP and FiO2 values. This real-time data enables rapid and accurate assessment of the patient’s condition, even in noisy or chaotic environments. Its intuitive interface allows startup in seconds, which is crucial in emergency scenarios.
The Oxylog 2000 plus integrates seamlessly into medical environments through its standard use of consumables shared with other models in the Oxylog line, such as the 3000 plus. This compatibility simplifies inventory management and staff training.
The Oxylog 2000 plus is a complete, reliable, and ready-to-use ventilator designed to meet the most demanding situations with efficiency. It ensures patient safety and user comfort, securing its place as an essential device for emergency and critical care ventilation during transport.
