Patients with blunt chest trauma commonly experience rib fractures. In turn, these fractures are associated with sequelae and organ damage, thus increasing the morbidity and mortality risks. It has been reported that >250,000 individuals attend the emergency services in the United States, annually, due to rib fractures (1). Most patients with rib fractures are treated with conservative care. On the other hand, >30% of the above patients suffer from long-term disability that prevents them from holding down a full-time job, while up to 50% of patients, particularly those with combination injuries, such as flail chest, can experience chronic pain or chest wall deformities (2). In addition, 10-20% of patients who suffer physical trauma have rib fractures, which is the most common type of bone fracture. In extreme situations, these fractures can cause concurrent damage to the abdominal organs (3). In addition to trauma, rib fractures can result from medical procedures or from coughing, particularly in individuals with low bone density (4). In addition, ~40% of patients with acute chest trauma present with rib fractures, which are commonly seen in cases of chest trauma (5).

Flail chest is known as the condition where one side of the chest has more than three successive rib fractures with at least two fracture lines per rib (6). Multiple rib fractures and flail chest are considered distinct injuries and are synthesized independently for every extracted result (7). Patients with rib fractures present with a wide range of clinical symptoms. Certain patients who meet the diagnostic criteria for a flail chest may not exhibit aberrant breathing and they are therefore well managed with respect to their discomfort (8). Multiple rib fractures with flail or non-flail chest should be clearly distinguished, as the latter is associated with a higher mortality rate and considerable morbidity (9). The use of plating systems for rib stabilization has shown promising results in reducing both the short- and long-term consequences of rib fractures, such as the occurrence of pneumonia, the requirement for a tracheostomy, prolonged hospital stay, increased dependence on painkillers and flail chest-related death (10).

In general, rib fractures are treated and managed with supportive measures, such as administration of local and systemic analgesics, airway clearance techniques, tube thoracostomy when pneumothorax or hemothorax is present and artificial breathing or surgery to reduce discomfort (11). A previous study demonstrated that the flail section was necessary for paradoxical chest wall motion; however, it was not sufficient for treating flail chest type rib fractures (12). The results of the most recent randomized controlled trial indicated that, although several previous small, non-randomized cohort studies supported the use of surgical fixation for improving pain and quality of life of patients with non-flail rib fractures, surgical stabilization of rib fractures allowed only a small proportion of patients to return to their work (13-15). Rib fixation for flail chest could improve the short-term outcomes, with the use of clinical results and implications of fixation. However, which patient subgroup is most likely to benefit from this technique has remained elusive (16).

Therefore, the present study aimed to analyze the effectiveness of the surgical treatment strategy in patients with non-flail chest type of multiple rib fractures at a multivariate level.

In the present study, the differences between conservative and surgical treatment approaches, which are commonly used to treat patients with non-flail multiple rib fractures, were evaluated in terms of pain and treatment outcomes using multivariate analysis. In this context, the study analyzed the baseline characteristics, clinical findings and discharge pain levels of patients who received one of the two treatment methods.

Previous studies on rib fractures indicated that the baseline characteristics of patients who underwent surgical treatment were similar with those receiving conservative therapy in terms of demographics (25-27). Therefore, studies on this subject did not reveal any significant differences in terms of age, sex or clinical history between the aforementioned therapy groups. In consistency with this, in the present study, patients in the surgery group and those in the conservative therapy group displayed similarities in terms of age, sex, number of fractured and displaced ribs, injury severity score, chest abbreviated score, FEV1, narcotic drug dose, long-term FEV and FVC levels, drug additives and ASA classification. The differences in the above scores were statistically insignificant between the conservative treatment and surgery groups. This finding suggested that none of the treatment strategies was associated with the baseline characteristics of patients with non-flail rib fractures.

Previous studies also demonstrated that there were no statistically significant differences in patient outcomes between the conservative treatment and surgery groups (28,29). However, a study by Zhang et al (8) reported that the surgical treatment option was more effective in terms of pain and quality of life. They recorded lower pain levels and higher quality of life in patients with non-flail multiple rib fractures who underwent surgery. In the present study, there were no significant differences between the conservative and surgical treatment groups regarding hospitalization duration, comfort level, follow-up duration, return to workplace, discharge pain score, and pneumothorax and pleural empyema incidence. This finding aligned with the existing literature when examined univariately. However, a multidimensional analysis within the framework of relational screening should be performed to provide a more comprehensive understanding.

Correlation analysis revealed that in the conservative treatment group, the pain level was significantly associated with the FEV1, drug additives and hospitalization duration. On the other hand, in the surgery group, the discharge pain level was notably associated with narcotic drug usage and drug additives. Regression analysis further indicated that the hospitalization duration had a statistically significant effect on discharge pain in the conservative treatment group, while in the surgery group, drug additives markedly affected discharge pain. The above results suggested that although surgery was able to offer greater pain management benefits, these outcomes could be largely affected by pain management medications. Considering the importance of pain, the results indicated that there were no statistically and clinically significant differences between the conservative and surgical treatment groups in patients with non-flail rib fractures. However, further research is needed to generalize these findings and better understand the effects of different treatment strategies. In addition, the preference for conservative treatment due to its lower invasiveness warrants further investigation. Overall, these results may have significant implications for both clinical practice and the existing literature.

The primary limitation of the present study was the scarcity of similar studies in the field, making it difficult to draw comprehensive comparisons. Although there are several studies on multiple rib fractures, research particularly focusing on non-flail rib fractures remains limited. In this respect, the majority of clinical studies in this area have relied on comparative rather than multivariate analyses (4,8,12,13). Therefore, more research on this subject is needed to strengthen the existing literature.

A key contribution of the present study was that it challenged the hypothesis, suggested in previous univariate analyses that surgery could provide superior pain management compared with the conservative treatment approach. The multivariate analysis results indicated that the observed advantage of surgery in pain management was primarily associated with drug additives.

From a clinical perspective, this study could aid physicians in determining the most appropriate treatment method based on the physical condition and clinical findings of patients. Given the lack of a significant difference between the two treatment methods, the choice should be guided by individual patient needs rather than a presumed superiority of surgical intervention. Although surgery is more attractive and it is most commonly chosen for pain management, the result of the present study indicated that this benefit could be effectively achieved through drug additives.

Although surgery could be more effective for pain management, the multivariate analysis revealed that this effect may be due to the use of drug additives. This observation indicated that findings from previous studies suggesting that the surgical method could improve the quality of life and reduce pain may have overlooked the role of drug additives due to their reliance on univariate analysis.

Therefore, it may be argued that there was no significant difference between surgical and conservative approaches in treating non-flail multiple rib fractures. However, further studies and clinical data are needed to verify this conclusion. In clinical practice, the conservative approach could be preferred due to the invasiveness and cost of the surgical approach. Overall, the above findings suggested that the most appropriate treatment decision should be based on the patient's current physical condition and clinical findings.