The effectiveness of a 'Code Red' transfusion request policy initiated by pre-hospital physicians.

BACKGROUND: Major trauma is a leading cause of mortality and serious morbidity. Recent approaches to life-threatening traumatic haemorrhage have emphasized the importance of early blood product transfusion. We have implemented a pre-hospital transfusion request policy where a pre-hospital physician can request the presence of a major transfusion pack on arrival at the destination trauma centre. OBJECTIVES: This study was performed to establish whether three simple criteria (1) suspicion or evidence of active haemorrhage (2) systolic BP<90 mmHg (3) failure of blood pressure to respond to an intravenous fluid bolus) which were used to activate a pre-hospital 'Code Red' transfusion request accurately identified seriously injured patients who required transfusion on arrival at hospital. METHODS: Prospective evaluation of all pre-hospital 'Code Red' requests over a 30-month period (August 2008-May 2011) was performed for patients transported to a major trauma centre. Mechanism of injury, Injury Severity Score, hospital mortality, and use of blood products were recorded. Patients were followed up to hospital discharge. RESULTS: 176 'Code Red' activations were made in the study period. 129 patients were transported to the Trauma Centre. Mechanism of injury was penetrating trauma in 39 (30%) cases, road traffic collision in 58 (45%), falls in 18 (14%) and 'other' in 14 (10.8%). Complete data was available for 126 patients. Of the patients reaching hospital, 20 died in the emergency department or operating theatre, 22 died following admission and 84 survived to hospital discharge. Mean Injury Severity Score (ISS) was 29.1. (range 0-66). Overall, 115 (91%) of the patients declared 'Code Red' pre-hospital received blood product transfusion after arrival in hospital. Eleven patients did not receive any blood products following hospital admission. In patients declared 'Code Red' pre-hospital, mean packed red blood cell transfusion in the first 24-h was 10.4 unit (95% CI 8.4-12.3 unit). CONCLUSIONS: The use of simple pre-hospital criteria allowed physicians to successfully identify trauma patients with severe injury and a requirement for blood product transfusion. This allowed blood products to be ready on the patient's arrival in a major trauma centre with the potential for earlier transfusion.

Case studies in prehospital care from London HEMS: pre-hospital administration of prothrombin complex concentrate to the head-injured patient.

A case of pre-hospital administration of prothrombin complex concentrate to a patient anticoagulated with warfarin and with suspected intracranial haemorrhage is described. Effective, early reversal of anticoagulation by the time of arrival at hospital was achieved.

Practical translation of hemorrhage control techniques to the civilian trauma scene.

This article examines how established and innovative techniques in hemorrhage control can be practically applied in a civilian physician-based prehospital trauma service. A "care bundle" of measures to control hemorrhage on scene are described. Interventions discussed include the implementation of a system to achieve simple endpoints such as shorter scene times, appropriate triage, careful patient handling, use of effective splints and measures to control external hemorrhage. More complex interventions include prehospital activation of massive hemorrhage protocols and administration of on-scene tranexamic acid, prothrombin complex concentrate, and red blood cells. Radical resuscitation interventions, such as prehospital thoracotomy for cardiac tamponade, and the potential future role of other interventions are also considered.