The use of negative-pressure wound therapy (NPWT) in the temporary treatment of soft-tissue injuries associated with high-energy open tibial shaft fractures.

OBJECTIVES: To evaluate the utility of negative-pressure wound therapy (NPWT) in the setting of high-energy open tibial shaft fractures. DESIGN, SETTING, AND PATIENTS/PARTICIPANTS: This was a retrospective consecutive series in a level 1 university-based trauma center. Forty-nine consecutive patients presenting to a level 1 trauma center between 1996 and 2004 with 50 grade/type III open tibial shaft fractures were assessed. INTERVENTION: The open wounds associated with each fracture were each treated with NPWT before definitive wound closure or coverage. MAIN OUTCOME MEASUREMENTS: Infection rate, need for amputation after attempted definitive coverage, problems with bony healing requiring surgical intervention, reoperation rate after definitive coverage, and the type of definitive coverage required. RESULTS: The overall infection rate for all grade/type III open fractures was 15 of 50 fractures (30%), with 11 of 50 (22%) requiring repeated surgery for infection. The infection rate was 12.5% for grade/type IIIA open fractures, 45.8% for grade/type IIIB, and 50% for grade/type IIIC. Twenty-four of 50 fractures (48%) required subsequent surgery to facilitate fracture healing. Five fractures required amputation after attempted coverage. Seven of 24 fractures initially classified as grade/type IIIA and 10 of 24 fractures initially classified as grade/type IIIB ultimately required free tissue transfer or rotational muscle flap coverage. CONCLUSIONS: Infection and nonunion rates with the use of NPWT for temporary coverage of wounds associated with grade/type III open tibial shaft fractures are similar to those of historical controls, but this technique may be beneficial in decreasing the need for free tissue transfer or rotational muscle flap coverage.

The hallucal sesamoid complex.

The hallucal sesamoids are vitally important to normal weight bearing and foot mechanics. The sesamoid complex of the hallux normally transmits up to 50% of body weight and during push-off can transmit loads >300%. These high stresses may lead to both acute and chronic pathologies of the hallucal sesamoids. Sesamoidal problems may occur in the weekend warrior or the elite-level athlete. Thus, patients with sesamoid pathology may present to a general orthopaedic surgeon, sports medicine physician, foot and ankle specialist, or podiatrist. Physical examination, radiographs, and other specialized studies assist with the classification of sesamoid pathology. Initial treatment almost always involves an accommodative orthosis, but surgical intervention may be necessary in recalcitrant cases. Surgical options for managing problems of the hallucal sesamoid complex include curettage, bone grafting, shaving, internal fixation, and partial or complete excision.

Subatmospheric pressure dressings in the temporary treatment of soft tissue injuries associated with type III open tibial shaft fractures in children.

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.

Repeat patellar tendon rupture in a child.

In summary, we present the first published case of a patellar tendon midsubstance rupture in an otherwise healthy 9-year-old with repeat rupture at age 10.

Function of skin grafts in children following acquired amputation of the lower extremity.

BACKGROUND: Investigators have recommended aggressive use of skin-grafting in order to preserve length and proximal joint function following an acquired amputation in children. However, there is little objective evidence to either support or refute that recommendation. METHODS: We performed a retrospective review of the cases of all children for whom a skin graft had been applied to the residual limb following an acquired lower-extremity amputation at our Limb Deficiency Clinic between 1984 and 2002. Skin graft dysfunction, defined as breakdown, contracture, and/or pain, was considered to be clinically relevant if it required the child to discontinue use of the prosthesis for any period of time or if it required revision surgery to facilitate continued prosthetic fitting. RESULTS: Twenty-three children (mean age at amputation, 4.4 years) with a total of thirty-one acquired lower-extremity amputations had been treated with skin-grafting. At a mean of 6.3 years after the operation, sixteen (52%) of the thirty-one extremities had had no episodes of skin graft dysfunction. The remaining fifteen extremities (48%) had had clinically relevant skin graft dysfunction (breakdown in thirteen and contracture and pain in one extremity each). Nine of the ten extensive skin grafts underwent clinically relevant breakdown, as did thirteen of the twenty-four grafts that were located distally on the residual limb. Subsequent surgical revision of the residual limb because of inadequate function of the skin graft was performed on seven extremities (23%), with revision to a more proximal limb-segment level required in five. CONCLUSIONS: Focal skin-grafting (involving < or = 25% of the surface area) of partial-thickness soft-tissue defects in order to optimize the length of the residual limb at the time of an amputation is an effective option for children with an acquired lower-extremity amputation. Limited skin-grafting (involving 26% to 50% of the surface area) is more likely to result in skin graft breakdown, particularly when it is done distally. Extensive skin-grafting, while technically possible, frequently requires revision and rarely results in an optimally functioning limb. Alternative treatment strategies should be considered for extremities that would require extensive, distal skin-grafting.