RSS-Feed abonnieren
DOI: 10.1055/s-0035-1566108
Influence of Immobilization Time on Functional Outcome in Radial Neck Fractures in Children
Publikationsverlauf
10. April 2015
18. September 2015
Publikationsdatum:
05. November 2015 (online)
Abstract
Background Radial neck fractures represent 20 to 30% of elbow fractures in children. Incorrect treatment can lead to significant permanent functional impairment. Posttraumatic avascular necrosis may cause a deformity of the radial head and neck. Deformation of the radial head and neck can be more severe after open rather than closed reduction or orthopedic treatment without reduction. The aim of our study was to analyze the influence of immobilization time on functional outcome.
Patients and Methods Retrospective, descriptive study of all children who had been treated for a radial neck fracture between 1999 and 2013 at the University Children's Hospital Basel. Patients were allocated to two groups (group 1: patients treated between 1999 and 2008, group 2: patients treated between 2009 and 2013). The fractures were classified according to the classification of Metaizeau. The primary endpoint was the percentage of patients who reached the full range of elbow motion at the end of the treatment period or the last follow-up. Secondary endpoints were immobilization time and number of patients with persistent physical restrictions of the elbow range of motion as well as the type of restrictions and subjective complaints.
Results A total of 67 patients treated for radial neck fracture were included in the first group (1999–2008). A total of 47 patients were allocated to the second group (2009–2013). Overall, 59 patients in group 1 and 39 patients in group 2 were treated nonoperatively. Average immobilization time was 22.7 days (range, 6–60 days) in group 1 and 13.2 days (range, 0–27 days) in group 2. Full range of motion was observed in 50 to 72.7% of patients in group 1 and in 71.4 to 92% of patients in group 2, depending on the grade of fracture displacement. Overall, 21 patients (31%) of group 1 showed a persistent functional restriction. In group 2, only six patients (12%) suffered from a persistent functional restriction of the elbow range of motion.
Conclusion Aside from the severity of fracture displacement and treatment modality (conservative vs. operative, closed vs. open reduction), the duration of immobilization may also influence the functional outcome. Further prospective studies are required to confirm our results.
-
References
- 1 Radomisli TE, Rosen AL. Controversies regarding radial neck fractures in children. Clin Orthop Relat Res 1998; 353 (353) 30-39
- 2 Zimmerman RM, Kalish LA, Hresko MT, Waters PM, Bae DS. Surgical management of pediatric radial neck fractures. J Bone Joint Surg Am 2013; 95 (20) 1825-1832
- 3 Kovar FM, Jaindl M, Thalhammer G , et al. Incidence and analysis of radial head and neck fractures. World J Orthod 2013; 4 (2) 80-84
- 4 Newman JH. Displaced radial neck fractures in children. Injury 1977; 9 (2) 114-121
- 5 Schmittenbecher PP, Haevernick B, Herold A, Knorr P, Schmid E. Treatment decision, method of osteosynthesis, and outcome in radial neck fractures in children: a multicenter study. J Pediatr Orthop 2005; 25 (1) 45-50
- 6 Prathapkumar KR, Garg NK, Bruce CE. Elastic stable intramedullary nail fixation for severely displaced fractures of the neck of the radius in children. J Bone Joint Surg Br 2006; 88 (3) 358-361
- 7 Tibone JE, Stoltz M. Fractures of the radial head and neck in children. J Bone Joint Surg Am 1981; 63 (1) 100-106
- 8 Weinberg A-M, Schneidmüller D. Unterarm. In: Weinberg A-M, Schneidmüller D, eds. Unfallchirurgie bei Kindern, Kompendium der Kindertraumatologie. Köln: Deutscher Ärzteverlag; 2010: 103-136
- 9 Weise K, Schwab E, Scheufele TM. Ellenbogenverletzungen im Kindesalter. Unfallchirurg 1997; 100 (4) 255-269
- 10 Metaizeau JP, Lascombes P, Lemelle JL, Finlayson D, Prevot J. Reduction and fixation of displaced radial neck fractures by closed intramedullary pinning. J Pediatr Orthop 1993; 13 (3) 355-360
- 11 Eberl R, Saxena A, Fruhmann J, Höllwarth ME, Weinberg AM. Treatment of pediatric radial neck fractures: consideration of patient age and fracture dislocation [in German]. Chirurg 2010; 81 (10) 915-921
- 12 Nawabi DH, Kang N, Amin A, Curry S. Centromedullary pinning of radial neck fractures: length matters!. J Pediatr Orthop 2006; 26 (2) 278-279
- 13 Benz G, Roth H. Problem of fracture of the radius head in the child [in German]. Z Kinderchir 1985; 40 (5) 289-293
- 14 Stiefel D, Meuli M, Altermatt S. Fractures of the neck of the radius in children. Early experience with intramedullary pinning. J Bone Joint Surg Br 2001; 83 (4) 536-541
- 15 Weinberg AM, Kasten P, Castellani C , et al. Which axial deviation results in limitations of pro- and supination following diaphyseal lower arm fracture in childhood?. Eur J Trauma 2001; 27 (6) 309-316
- 16 Erickson M, Frick S. Fractures of the proximal radius and ulna. In: Beaty JH, Kasser JR, eds. Rockwood and Wilkins' Fractures in children. 7th ed. Philadelphia, PA: Lippincott, Williams and Wilkins; 2010: 405-444
- 17 Hell A, Weinberg A. Radiusköpfchen- und Radiushalsfrakturen. In: Weinberg AM, Tscherne H, eds. Unfallchirurgie im Kindesalter. Berlin, Heidelberg, Germany: Springer Verlag; 2006: 314-331
- 18 Von Laer L, Kraus R, Linhart WE. Proximaler Vorderarm Radiusköpfchen. In: Von Laer L, Kraus R, Linhart WE, eds. Frakturen und Luxationen im Kindesalter. 6th ed. Auflage, Berlin, Heidelberg: Springer Verlag; 2012: 182-191