[Explanation] Recently, in the simulated operating room of the Teaching and Training Building of the Army Characteristic Medical Center, members of the field medical team completed a combined thoracic-abdominal injury control operation in more than 40 minutes on the highly-simulated simulated surgical system.

This simulated surgery system developed by Zhang Rong's team, director of the War Service Research Office, fills the gaps in the simulation of human body surgery in the country and the military.

  [Explanation] The reporter saw that based on the true restoration of war trauma injuries, the Zhang Rong team of the Army Characteristic Medical Center divided each organ into modules, and controlled the state engine, simulated the system state engine, and the physiology engine to enable surgical trainees It can not only treat various organs in a targeted manner, but also train complex injuries such as multiple injuries and compound injuries.

After more than a year of hard work, it has developed a simulated surgical system that can complete the life-saving field surgical training from airway management to combined thoracic-abdominal injury.

  [Concurrent] Deng Bo, Professor of General Surgery, Army Characteristic Medical Center

  Its touch and texture are very real. When I made the first cut, I felt like I was on the scene, just like doing an operation in a real situation, its blood flow, its blood supply They are very real and very sensible.

  [Explanation] It is understood that traditional combat rescue technology training generally involves drawing circles on the dummy, and most invasive treatments are done verbally, or using large animals as war trauma models, but the cost of large animal war trauma models is high. It is often performed by one person, and everyone is watching. It is difficult to obtain clinical surgical experience, and the improvement of training results is limited.

  [Concurrent] Zhang Rong, Director of War Injury Treatment Service Research Office, Army Characteristic Medical Center

  The simulated surgery system is composed of a control state engine, a physiological engine, a simulated state engine, and a highly simulated organ system. The cost is relatively low. The injury model has become a platform for military hospitals, military health battalions, and surgical clinical skills training. It also allows interns to repeatedly perform standardized surgical training on the simulated surgical system, gaining experience equivalent to clinical surgery, and shortening the training cycle.

  Gao Tao Jia Nan reports from Chongqing

Editor in charge: [Wang Kai]