Traumatic cardiac arrests - the action or the provider, what makes the difference?

What we already know is that prehospital medical cardiac arrest (MCA) survival is approximately 9.8%, with in-hospital cardiac arrest survival at 24.2% [4]. In MCA, chest compressions, defibrillation, medication, and oxygenation are the mainstay treatment tools. Where the TCA patient differs is that many do not have extensive co-morbidities or coronary artery disease; their arrest is primarily due to one of or a combination of factors: hypovolemia, obstruction of blood flow and hypoxia [5]. In the patient with thoracic trauma, these causes are addressed by well described techniques of thoracostomies, endotracheal intubation and blood products. This is followed by a clamshell thoracotomy, allowing for a better chance for hemorrhage control and treatment of hemopericardium if found. Sherren and colleagues discuss a very well outlined pathophysiology and rationale for TCA survivorship in their article.

Although MCA and TCA are not the same diseases, their survival statistics are interesting and possibly some inference can be made when MCA data are more closely observed. It appears that the differences between MCA survival in the prehospital versus a hospital setting, where admitted patients are older with increased morbidities, might be due to the personnel performing the resuscitation. Staffing models for emergency medical services (EMS), especially for HEMS, differ between the US system and the European model. In the US, pre-hospital EMS systems (including most HEMS) are staffed by allied health professionals and not by physicians. In the European model (including Australia) HEMS are staffed by well trained physician/paramedic/nurse teams and this is possibly where the difference occurs for survival for TCA patients.

In multiple European studies it was noted that there was a decrease in mortality of trauma patients without a decrease in scene time when a physician was part of the flight crew [6–9]. In the US, less than 5% of HEMS are staffed by physicians, and most of those involved in such teams are in their first few years out of medical school [10]. Thus, no US EMS systems have fully trained physicians as part of their standard ambulance crew. A reasonable question to consider is whether staffing is the reason why TCA statistics differ between the US and European models? Paramedic training teaches needle thoracostomy for suspected tension pneumothorax, which in many jurisdictions do not need online direct physician permission as it is deemed life saving and with limited risk [11]. However, it is well known that in patients with larger chest walls, almost 50% of the time the needle fails to reach the plural space to relieve the obstruction of blood flow caused by the tension pneumothorax. On the contrary, the placement of a tube or finger thoracostomy are very successful and fairly routine in EMS systems staffed with experienced physicians with excellent results [12].

The HEMS algorithm of Sherren and colleagues is specific for flight physicians. It cannot be fully applicable to HEMS not staffed by a well trained physician, as the proficiency of thoracotomy is an advanced skill that takes practice and years of anatomical training to be able to perform well. As the authors stated, more study is needed to see if it is the depth of training or the protocols that are the reason for the increases in survivorship from TCA. I do not believe that this algorithm will be promoted in HEMS systems staffed only by paramedics and nurses, as their level of training does not allow for advanced procedures such as these. Therefore, one should expect that prehospital attempts at the resuscitation of the TCA in those systems without physicians on board will remain futile.