At RETTmobil 2025, Ferno, a global leader in emergency medical solutions, introduced its latest generation of EMS transport systems, reflecting a significant step forward in pre-hospital care. The newly showcased equipment includes upgraded stretchers, integrated loading systems, and modular ambulance configurations designed with advanced ergonomics and smart technologies. These innovations aim to improve patient handling, optimize safety for EMS personnel, and streamline operations during emergency responses.

Ferno’s next-gen systems are built to address the increasing demands of emergency medical services worldwide. With features such as automated lift-assist mechanisms, real-time data integration, and customizable layouts, the solutions reduce physical strain on responders and enhance patient stabilization during transport. This modernization is particularly crucial as EMS teams face growing call volumes and evolving patient care standards that require agility, precision, and reliability in the field.

Ferno’s display at RETTmobil 2025 not only reaffirmed its commitment to EMS innovation but also highlighted the company’s role in shaping the future of emergency care logistics. As global healthcare systems emphasize faster, safer, and more efficient medical response, Ferno’s latest advancements stand to redefine how critical care is delivered from the point of contact to the hospital.

MedTech Spectrum's Summary

Ferno introduced its next-generation EMS transport systems featuring advanced technologies such as automated lift-assist stretchers, modular ambulance layouts, and real-time data integration tools to enhance both patient safety and provider efficiency.

The systems are designed for emergency responders, offering ergonomic solutions that reduce physical strain, streamline patient loading/unloading, and improve overall workflow during high-pressure medical transport scenarios.

With increasing global demands on EMS services, Ferno’s solutions play a critical role in advancing pre-hospital care by improving safety, reducing injury risks for EMS personnel, and supporting faster, more effective patient outcomes in emergencies.