PURPOSE: This study was designed to evaluate the use of subatmospheric pressure dressings on high-energy open tibial shaft fractures in children. We hypothesized that the use of a negative-pressure dressing in these fractures would result in a decreased incidence of infection and decreased need for pedicled muscle flaps and free tissue transfer. METHODS: A retrospective case series of 15 consecutive pediatric patients with 16 type III open tibial shaft fractures (8 type IIIA, 7 type IIIB, and 1 type IIIC). The patients' age ranged from 2 to 17 years. All patients underwent a standard protocol of serial irrigation and debridement of the open wound with bony stabilization. Temporary coverage of the open wound was obtained with the use of a subatmospheric pressure dressing until definitive wound coverage or closure. RESULTS: Infection occurred in 5 of 16 fractures, 2 requiring antibiotics alone (1 type IIIA and 1 type IIIB) and 3 requiring surgical intervention (2 type IIIB and 1 type IIIC). Seven of 16 (3 type IIIA, 3 type IIIB, and 1 type IIIC) fractures required repeat surgical intervention to facilitate bony healing. Only 3 patients required free tissue transfers or rotational muscle flaps for coverage, a 50% decrease compared with the initial classification. CONCLUSIONS: Compared with other described methods, the use of subatmospheric pressure dressings in the temporary treatment of soft tissue wounds associated with high-energy open tibial shaft may reduce the need for major soft tissue coverage procedures. Its effect on infection and fracture healing rates requires further study. SIGNIFICANCE: A reduction in the need for major soft tissue coverage procedures with the use of negative-pressure dressings in this setting should result in decreased morbidity for these patients and in decreased social and financial costs.
PURPOSE: This study was designed to evaluate the use of subatmospheric pressure dressings on high-energy open tibial shaft fractures in children. We hypothesized that the use of a negative-pressure dressing in these fractures would result in a decreased incidence of infection and decreased need for pedicled muscle flaps and free tissue transfer. METHODS: A retrospective case series of 15 consecutive pediatric patients with 16 type III open tibial shaft fractures (8 type IIIA, 7 type IIIB, and 1 type IIIC). The patients' age ranged from 2 to 17 years. All patients underwent a standard protocol of serial irrigation and debridement of the open wound with bony stabilization. Temporary coverage of the open wound was obtained with the use of a subatmospheric pressure dressing until definitive wound coverage or closure. RESULTS:Infection occurred in 5 of 16 fractures, 2 requiring antibiotics alone (1 type IIIA and 1 type IIIB) and 3 requiring surgical intervention (2 type IIIB and 1 type IIIC). Seven of 16 (3 type IIIA, 3 type IIIB, and 1 type IIIC) fractures required repeat surgical intervention to facilitate bony healing. Only 3 patients required free tissue transfers or rotational muscle flaps for coverage, a 50% decrease compared with the initial classification. CONCLUSIONS: Compared with other described methods, the use of subatmospheric pressure dressings in the temporary treatment of soft tissue wounds associated with high-energy open tibial shaft may reduce the need for major soft tissue coverage procedures. Its effect on infection and fracture healing rates requires further study. SIGNIFICANCE: A reduction in the need for major soft tissue coverage procedures with the use of negative-pressure dressings in this setting should result in decreased morbidity for these patients and in decreased social and financial costs.
Authors: Katherine B Santosa; Matt Keller; Margaret A Olsen; Alexandra M Keane; Erika D Sears; Alison K Snyder-Warwick Journal: J Surg Res Date: 2018-11-30 Impact factor: 2.192
Authors: Mona Baharestani; Ibrahim Amjad; Kim Bookout; Tatjana Fleck; Allen Gabriel; David Kaufman; Shannon Stone McCord; Donald C Moores; Oluyinka O Olutoye; Jorge D Salazar; David H Song; Steven Teich; Subhas Gupta Journal: Int Wound J Date: 2009-08 Impact factor: 3.315