Subscribe to RSS
DOI: 10.1055/s-0032-1322541
Evaluation of Mangled Extremity Severity Score (MESS) as a Predictor of Lower Limb Amputation in Children with Trauma
Publication History
18 January 2012
12 May 2012
Publication Date:
17 August 2012 (online)
Abstract
Background Management of the severely injured lower limb in children remains a challenge despite advances in surgical techniques. Models that predict the risk of lower limb trauma patients are designed to provide an estimation of the probability of limb salvage. In this study, we validate Mangled Extremity Syndrome Index (Mangled Extremity Severity Score [MESS]) by measurement of its discrimination in children.
Materials and Methods From September 2009 to 2010, we collected the hospital records of all children who presented with lower extremity long bone open fractures. The inclusion criteria were I grade, II B, III C open fractures, severe injury to three of four organ systems, and severe injury to two of four organ systems with minor injury to two of four systems that require surgical interventions. Severity of limb injury was measured using MESS. Patients were followed up for 1 year. The discrimination of MESS model in differentiating of outcome in patients was assessed by calculating the area under the receiver operator characteristic plot.
Results We evaluated 200 children referred consecutively to our center. The mean MESS in the amputation group was 7.5 ± 1.59 versus 6.4 ± 2.02 in the limb salvage group (p = 0.04). Amputation rate was 7.5% (n = 15). Percentages of skeletal/soft-tissue injury was different between groups (p = 0.0001). Children in the amputation group showed more tissue injury compared with limb salvage group. The best clinical discriminator power was calculated as MESS ≥ 6.5 (sensitivity = 73%, specificity = 54%).
Conclusion We assumed that patients with a high risk of amputation can be identified early, and specific measures can be implemented immediately by using MESS with threshold of 6.5.
-
References
- 1 Price K, Hunter JB. Lower limb injuries in children. Surgery 2011; 29: 162-166
- 2 Lazarides MK, Georgiadis GS, Papas TT, Gardikis S, Maltezos C. Operative and nonoperative management of children aged 13 years or younger with arterial trauma of the extremities. J Vasc Surg 2006; 43 (1) 72-76 , discussion 76
- 3 Shanmuganathan R. The utility of scores in the decision to salvage or amputation in severely injured limbs. Indian J Orthop 2008; 42 (4) 368-376
- 4 Bonanni F, Rhodes M, Lucke JF. The futility of predictive scoring of mangled lower extremities. J Trauma 1993; 34 (1) 99-104
- 5 Russell WL, Sailors DM, Whittle TB, Fisher Jr DF, Burns RP. Limb salvage versus traumatic amputation. A decision based on a seven-part predictive index. Ann Surg 1991; 213 (5) 473-480 , discussion 480–481
- 6 Mommsen P, Zeckey C, Hildebrand F , et al. Traumatic extremity arterial injury in children: epidemiology, diagnostics, treatment and prognostic value of Mangled Extremity Severity Score. J Orthop Surg 2010; 5: 25
- 7 Durrant CA, Mackey SP. Orthoplastic classification systems: the good, the bad, and the ungainly. Ann Plast Surg 2011; 66 (1) 9-12
- 8 Hanley JA, McNeil BJ. The meaning and use of the area under the receiver operating characteristic (ROC) curve. Radiology 1982; 143 (1) 29-36
- 9 Bondurant FJ, Cotler HB, Buckle R , et al. The medical and economic impact of severely injured lower extremities. J Trauma 1988; 28 (8) 1270-1273
- 10 Fagelman MF, Epps HR, Rang M. Mangled extremity severity score in children. J Pediatr Orthop 2002; 22 (2) 182-184
- 11 Lin CH, Wei FC, Levin LS, Su JI, Yeh WL. The functional outcome of lower-extremity fractures with vascular injury. J Trauma 1997; 43 (3) 480-485
- 12 Karami M, Sadat MM, Tavakkoli H, Taghavi M, Golbakhsh MR. Predictive validity testing of severely injured limb scoring systems. Arch Iran Med 2004; 7: 31-36