Subscribe to RSS
DOI: 10.1055/s-0029-1246196
© Georg Thieme Verlag KG Stuttgart · New York
Salter (Rang) Type 6 Physeal Injury
Publication History
received November 10, 2009
accepted after revision December 01, 2009
Publication Date:
22 February 2010 (online)
Abstract
Introduction: Type 6 physeal injuries, described by Rang as a displacement of the perichondrial ring usually caused by a lawn-mower scalping mechanism or a closed trauma to the distal femoral physis avulsed by the lateral collateral ligament, are extremely rare. This type of injury was later included in Salter and Harris’ classification of physeal injuries as type 6. No large series of type 6 physeal injuries has been described in the literature. The aim of the study is to present a relatively large series of patients with this trauma and offer some new observations.
Material and Methods: Over a 20-year period, 36 children with a type 6 physeal injury were treated in the authors’ institution. The affected bone and physis, mechanism of injury, age, gender, method of treatment and sequelae are reported.
Results: Out of 36 patients with type 6 physeal injuries 21 were boys and 15 girls (mean age 11.6 years). The distal fibular physis was most commonly affected, followed by the distal femoral and distal tibial physis. In 29 cases the fracture was undisplaced, while 3 children suffered an open injury with a loss of soft tissue. No injuries were due to lawn-mowers. Two cases were due to gunshot wounds.
Discussion: Although no larger series of type 6 physeal injuries has been described to date, it is clear that the mechanism of trauma has changed from earlier reports of open lawn-mower injuries to closed soccer and athletic sports fractures. Closed type 6 injuries are usually not or only minimally displaced and do not require surgery. Open fractures were associated with soft tissue loss; they were caused by scraping of the ankle (knee, elbow) by a car or bicycle wheel on a road surface or the result of a gunshot injury with the projectile destroying the peripheral portion of the physis.
Key words
physeal injury - children's fracture - growth arrest
References
- 1 Foster BC, John B, Hasler C. Free fat interpositional graft in acute physeal injuries: the anticipatory Langenskiöld procedure. J Pediatr Orthop. 2000; 20 282-285
- 2 Lacroix P. Organizers and the growth of bone. J Bone Jt Surg. 1947; 29 292-296
- 3 Langenskiöld A. Role of the ossification groove of Ranvier in normal and pathologic bone growth: a review. J Pediatr Orthop. 1998; 18 173-177
- 4 Ogden JA. Skeletal Injury in the Child. 1st edition, Philadelphia: W.B. Saunders; 1990: 181-183
- 5 Peterson HA. Physeal fractures: Part 2. Two previously unclassified types. J Pediatr Orthop. 1994; 14 431-438
- 6 Peterson HA. Physeal fractures: Part 3. Classification. J Pediatr Orthop. 1994; 14 439-448
- 7 Peterson HA, Jacobsen FS. Management of distal tibial medial malleolus type 6 physeal fractures. J Child Orthop. 2008; 2 151-154
- 8 Rang M. Children's Fractures. 2nd edition, Philadelphia; Lippincott; 1983: 23-25
- 9 Rang M, Pring ME, Wenger DR. Rang's Children's Fractures. 3rd edition, Philadelphia: Lippincott Williams Wilkins; 2005: 21
- 10 Salter RW, Harris WR. Injuries involving the epiphyseal plate. J Bone Jt Surg. 1963; 45-A 587-622
Correspondence
Prof. Petr Havranek
Thomayer's Teaching Hospital
Department of Pediatric and Trauma Surgery
Videnska 800
14059 Prague
Czech Republic
Phone: +42 02 610 83770
Fax: +42 02 610 83369
Email: petr.havranek@ftn.cz