Compartment Syndrome of the Lower Limb in Adults and Children and Effective Surgical Intervention and Post-surgical Therapies: A Narrative Review.

Compartment syndrome (CS) can be defined as an acutely painful condition that occurs due to increased pressure within a compartment, resulting in reduced blood flow and oxygen to nerves and muscles within the limb. It is considered a surgical emergency, and a delayed diagnosis may result in ischemia and eventual necrosis of the limb. The majority of cases in adults are associated with high-energy trauma, more specifically, long bone fractures of the lower limb, while supracondylar fractures of the humerus are highly associated with CS in pediatric patients. CS may also develop gradually as a result of prolonged and ongoing physical activity such as running. In this narrative review, we discuss the anatomy, pathophysiology, methods of diagnosis, and effective management of CS in adults and children.

Pediatric Acute Compartment Syndrome in Long Bone Fractures: Who is at Risk?

INTRODUCTION: There is a paucity of large-scale data on the factors that suggest an impending or underlying extremity pediatric acute compartment syndrome (ACS). In addition, literature regarding the timing of operative fixation and the risk of ACS is mixed. We aimed to describe the factors associated with pediatric ACS. METHODS: Analysis of 2017-2019 Trauma Quality Improvement Program. We included patients aged <18 y diagnosed with upper extremity (UE) and lower extremity (LE) fractures. Burns and insect bites/stings were excluded. Multivariable regression analyses were performed to identify the predictors of ACS. RESULTS: 61,537 had LE fractures, of which 0.5% developed ACS. 76,216 had UE fractures, of which 0.16% developed ACS. Multivariable regression analyses identified increasing age, male gender, motorcycle collision, and pedestrian struck mechanisms of injury, comminuted and open fractures, tibial and concurrent tibial and fibular fractures, forearm fractures, and operative fixation as predictors of ACS (P value <0.05). Among LE fractures, 34% underwent open reduction internal fixation (time to operation = 14 [8-20] hours), and 2.1% underwent ExFix (time to operation = 9 [4-17] hours). Among UE fractures, 54% underwent open reduction internal fixation (time to operation = 11 [6-16] hours), and 1.9% underwent ExFix (time to operation = 9 [4-14] hours). Every hour delay in operative fixation of UE and LE fractures was associated with a 0.4% increase in the adjusted odds of ACS (P value <0.05). CONCLUSIONS: Our results may aid clinicians in recognizing children who are "at risk" for ACS. Future studies are warranted to explore the optimal timing for the operative fixation of long bone fractures to minimize the risk of pediatric ACS.

Risk factors for developing acute compartment syndrome in the pediatric population: a systematic review and meta-analysis.

PURPOSE: Acute compartment syndrome (ACS) is often difficult to diagnose in pediatric patients due to their erratic symptomatology. Therefore, it is of paramount importance to identify at-risk patients to facilitate a prompt diagnosis. This study aims to identify risk factors for the development of ACS in the pediatric population. METHODS: We included studies comprised of pediatric patients with traumatic ACS. We excluded studies evaluating compartment syndrome secondary to exertion, vascular insult, abdominal processes, burns, and snake bites. Heterogeneity was addressed by subgroup analysis, and whenever it remained significant, we utilized a random-effects meta-analysis for data pooling. The protocol has been registered at PROSPERO (ID = CRD42019126603). RESULTS: We included nine studies with 380,411 patients, of which 1144 patients were diagnosed with traumatic ACS. The average age was 10 years old, and 67% of patients were male. Factors that were significantly associated with ACS were: open radius/ulna fractures (OR 3.56 CI 1.52-8.33, p = 0.003), high-energy trauma (OR 3.51 CI 1.71-7.21, p = 0.001), humerus fractures occurring concurrently with forearm fractures (OR 3.49 CI 1.87-6.52, p < 0.001), open tibia fractures (OR 2.29 CI 1.47-3.55, p < 0.001), and male gender (OR 2.06 CI 1.70-2.51, p < 0.001). CONCLUSION: In the present study, open fractures, high-energy trauma, concurrent humerus and forearm fractures, and male gender significantly increased the risk of developing ACS in the pediatric population. Clinicians should raise their suspicion for ACS when one or multiple of these factors are present in the right clinical context. TYPE OF STUDY: Systematic review and meta-analysis. LEVEL OF EVIDENCE: III.