Abstract
PurposeIn the past decade blast injuries have become more prevalent. Blast trauma may cause extensive injuries requiring improved early resuscitation and prevention of haemorrhage. Randomized prospective trials are logistically and ethically challenging, and large animal models are important for further research efforts. Few severe blast trauma models have been described, which is why we aimed to establish a comprehensive polytrauma model in accordance with the criteria of the Berlin definition of polytrauma and with a survival time of > 2 h. Multiple blast injuries to the groin and abdomen were combined with hypoperfusion, respiratory and metabolic acidosis, hypoventilation, hypothermia and inflammatory response. The model was compared to lung contusion and haemorrhage.Methods16 landrace swine (mean weight 60.5 kg) were randomized to “control” (n = 5), “chest trauma/hem” by lung contusion and class II haemorrhage (n = 5), and “blast polytrauma” caused by multiple blast injuries to the groin and abdomen, class II haemorrhage, lipopolysaccharide (LPS) infusion and hypothermia 32 °C (n = 6).ResultsThe blast polytrauma group had an Injury Severity Score of 57 which resulted in haemodynamic shock, hypothermia, respiratory and metabolic acidosis and inflammatory response. The chest trauma/hem group had an Injury Severity Score of 9 and less profound physiologic effects. Physiologic parameters presented a dose–response relationship corresponding to the trauma levels.ConclusionA comprehensive blast polytrauma model fulfilling the Berlin polytrauma criteria, with a high trauma load and a survival time of > 2 h was established. A severe, but consistent, injury profile was accomplished enabling the addition of experimental interventions in future studies, particularly of immediate resuscitation efforts including whole blood administration, trauma packing and haemostasis.
Highlights
Injury is a serious threat to public health, contributing to 1 in 10 mortalities and resulting in annual worldwide death of more than 5.8 million people [1, 2]
The chest trauma/hem resulted in Injury Severity Score 9, and the polytrauma in Injury Severity Score 57
MAP decreased in chest trauma/hem
Summary
Injury is a serious threat to public health, contributing to 1 in 10 mortalities and resulting in annual worldwide death of more than 5.8 million people [1, 2]. Blast injures account for an increasing number of deaths in both military and civilian life. In Iraq and Afghanistan, more than 71% of combat casualties in the US military were caused by explosions [3], and more than 1300 bombing incidents occur annually in the US [4]. Sudden mass casualties due to bombings have become prevalent [2]. Blast events cause extensive injuries to multiple locations in the body leading to severe complications such as catastrophic haemorrhage and traumainduced coagulopathy [2, 5].
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