Stable, nondisplaced rib fractures can usually be treated conservatively without any problems. There is also broad consensus on this in the literature. For the treatment of unstable chest wall injuries ("flail chest"), however, optimal care and the advantages or disadvantages of surgical treatment have been discussed for a long time. In addition to an international consensus statement (Pieracci et al.), there are no national or international guidelines available so far and a comparison of the literature is elusive by very inconsistent treatment strategies [9–14].
In principle, the surgical stabilization of displaced rib fractures is a suitable means and a method that has been known for decades to achieve a reconstruction of the chest wall and the restoration of adequate respiratory mechanics while reducing pain at the same time [15]. Recent studies have shown a positive effect on survival and outcome [16]. Nevertheless, it is still unclear whether a demonstrably positive effect can be achieved at with a surgical stabilization and for which patients overall or for which parameters there is a benefit [17].
The significant lower mortality that can be demonstrated in the present study for patients undergoing surgical stabilization, both in the total collective (4.6% vs. 14.1%) and in the matched pair subgroup (3.3% vs. 7.6 %), corresponds to a large number of studies carried out in recent years. E.g. DeFreest et al. showed in their study, also carried out as a matched pair analysis, a lower mortality of 2.4% vs. 11.1% and demonstrated a similar positive effect from surgical treatment [15]. The meta-analysis´ by Beks et al. and Liu et al. were able to show a significantly lower mortality rate for the group of operated patients. The determined risk ratio of mortality in Beks publication was 0.41, the odds ratio for mortality stated by Liu was 0.28. Both included several randomized and controlled studies [18, 19].
In contrast, review articles such as the Cochrane analysis by Cataneo et al. as well as the systematic review of existing review articles by Ingoe et al. could not prove any survival advantage for surgical stabilization of unstable chest injuries. The predominantly low level of evidence of the available studies was criticized as a limiting factor in both papers [5, 17].
In addition to the lower mortality rate, the Glasgow Outcome Scale showed a slightly better, non significant, outcome for patients after surgical treatment. The rate of slightly disabled and well-recovered patients was unchanged in comparison. De Moya et al. came to similar results without evidence of a relevant improvement in outcome as well as the study by Cataneo and Marasco. Pieracci et al. on the other hand showed a daily increasing risk of approx. 30% for pneumonia, 27% for long-term ventilation and 26% for tracheotomy with unstable thorax without surgery. In accordance with this, the tendency towards the advantage of the operative group is described predominantly in the first weeks after trauma, but so far there is no reliable evidence of a long-term improvement in outcome compared to non-operative treatment in the literature [5, 20–22]. Most of the patients in this study were operated significantly later than the recommended 48 hours after trauma. This may have masked a potential benefit of surgical care.
Our analysis showed a significantly longer duration of ventilation time, the length of stay in the intensive care unit, and the total hospital stay, than in most publications.
These prolonged times could be seen in the data set of the TraumaRegister DGU® both in the overall collective and in the matched pair analysis for the operative treatment. In the data analysis, however, no explanation could be found in the data set for this observation. These results are in contrast to almost all available studies, which were able to demonstrate a significant reduction in the respective times for all three parameters [18, 23–27, 17, 1, 14, 28, 29]. However, some studies were also able to show similar results with longer ventilation and length of stay [21, 15, 20]. Contrary to the current recommendations in the literature, a delay in the time for operative care of well over 48 hours in the examined collective could represent a possible cause in combination with the then known increased complications (pneumonia rate, long-term ventilation, increased tracheostomy rate). This will be the subject of further investigations by our working group.
There is a possible bias in the data set of the TraumaRegister DGU® that many hospitals do not (yet) carry out surgical stabilization in the examined period 2008–2017 according to the recommended indications and time of surgery from the literature of the last years, but rather in patients with a difficult course and prolonged weaning. These patients more likely show a rather poor outcome overall and therefore no difference can be demonstrated.
In addition, it cannot be tracked whether and, if so, at what point after the initial trauma the indication for a stabilization of the chest wall was considered. In addition, patients who died early or who were moribund were mostly not operated on and are therefore assigned to the non-operative group.
These factors may contribute to the longer time of intubation and intensive care treatment as well as the longer hospital stay in the operated group.
While the literature recommends surgery after 24–48 hours, we see a significantly later point in time in the present collective. It is therefore to be expected that the operation will result in a “second hit” for the patient who will subsequently have to remain in the intensive care unit for a longer period of time before he finally recovers.