Significant acceleration of emergency response using smartphone geolocation data and a worldwide emergency call support system.

IMPORTANCE: When patients are disorientated or experience language barriers, it is impossible to activate the emergency response system. In these cases, the delay for receiving appropriate help can extend to several hours. OBJECTIVES: A worldwide emergency call support system (ECSS), including geolocation of modern smartphones (GPS, WLAN and LBS), was established referring to E911 and eCall systems. The system was tested for relevance in quickly forwarding abroad emergency calls to emergency medical services (EMS). DESIGN: To verify that geolocation data from smartphones are exact enough to be used for emergency cases, the accuracy of GPS (global positioning system), Wi-Fi (wireless LAN network) and LBS (location based system) was tested in eleven different countries and compared to actual location. The main objective was analyzed by simulation of emergencies in different countries. The time delay in receiving help in unsuccessful emergency call cases by using the worldwide emergency call support system (ECSS) was measured. RESULTS: GPS is the gold standard to locate patients with an average accuracy of 2.0 ± 3.3 m. Wi-Fi can be used within buildings with an accuracy of 7.0 ± 24.1 m. Using ECSS, the emergency call leads to a successful activation of EMS in 22.8 ± 10.8 min (Median 21 min). The use of a simple app with one button to touch did never cause any delay. CONCLUSIONS AND RELEVANCE: The worldwide emergency call support system (ECSS) significantly improves the emergency response in cases of disorientated patients or language barriers. Under circumstances without ECSS, help can be delayed by 2 or more hours and might have relevant lifesaving effects. This is the first time that Wi-Fi geolocation could prove to be a useful improvement in emergencies to enhance GPS, especially within or close to buildings.

Air Repatriation With a Medium-sized Pneumothorax Without Thoracic Tube: A Special Case of a Repatriation Accompanied by an Experienced Surgeon.

We report on the repatriation of a 28-year old female from Germany, who was involved in a serious bus accident and was transported to the nearest hospital in Oruro, Bolivia. CT scans and x-rays performed in this hospital demonstrated a complete pneumothorax right. Thorax drainage was inserted, which was removed after 5 days. Since the hospital refused to acknowledge the presence of a residual middle-sized pneumothorax on the repatriation day and did not want to insert another tube, the decision was made to repatriate the patient on commercial flight back home to Germany without a thoracic tube.