External Validation of the Radiographic Investigation of the Distal Extension of Fractures Into the Articular Surface of the Tibia (RIDEFAST Study).

OBJECTIVE: To test the external validity of the fracture to plafond (FTP-length of fracture/distance to plafond) ratio to rule out distal intra-articular fractures (DIA) in distal tibial shaft fractures at an independent tertiary trauma center. DESIGN: Retrospective cohort study. SETTING: Two Level 1 trauma centers. PATIENTS: Two hundred seventeen patients with a distal tibial shaft fracture in the model cohort and 146 patients in the validation cohort. INTERVENTION: Radiographic measurements to calculate FTP ratio. MAIN OUTCOME MEASUREMENTS: Calibration plots, area under receiver operating characteristic curve (AUC), and decision curve analyses to evaluate the external validity of FTP ratio to determine DIA. RESULTS: The AUC for the anteroposterior (AP) FTP ratio was 0.83 [95% confidence interval (CI) 0.78-0.88] in the model data set and 0.86 (95% CI 0.80-0.91) in the validation data set. The AUC for the lateral FTP ratio was 0.82 (95% CI 0.77-0.87) in the model data set and 0.82 (95% CI 0.75-0.88) in the validation data set. The previously established AP FTP cutoff ratio of 0.61 had a 94% negative predictive value in the model cohort and a 100% negative predictive value in the validation cohort. CONCLUSION: The FTP ratio is an effective and externally validated screening tool to rule out DIA in distal tibia shaft fractures. LEVEL OF EVIDENCE: Diagnostic Level III. See Instructions for Authors for a complete description of levels of evidence.

Novel Treatment for Recurrent Posttraumatic Hip Instability: A Case Report.

CASE: A 26-year-old woman sustained a traumatic right hip dislocation with posterior wall component in a motor vehicle collision. Initial treatment consisted of open reduction internal fixation of her posterior wall fracture. Six years later, she developed low-energy recurrent hip instability. Imaging demonstrated posterior capsular insufficiency and femoral retrotorsion. The patient underwent intertrochanteric femoral rotational osteotomy. Nine years postoperatively, the patient has returned to activity without restriction or subsequent dislocations. CONCLUSIONS: Recurrent posttraumatic hip instability requires careful identification of the etiology of instability. This case provides long-term follow-up after successful treatment with intertrochanteric femoral rotational osteotomy.

"Jelly VAC" for Negative-Pressure Therapy for Complex Wound Closure: A Report of Two Cases.

CASE: A 35-year-old man sustained an open calcaneal fracture with bone loss, and a 57-year-old woman sustained an avulsion of the entirety of the plantar skin. Both patients were treated with multiple debridements and soft-tissue coverage. "Jelly-VAC" (vacuum-assisted closure) therapy was used after each debridement and during the soft-tissue coverage. CONCLUSION: Jelly-VAC therapy is a promising alternative that allows negative-pressure therapy with the use of ultrasound jelly to prevent air leakage into the wound. We propose using this technique in areas where obtaining a seal is difficult, where VAC therapy is contraindicated because of adhesive dressings (i.e., with damaged or poor-quality skin), or when long-term VAC therapy is needed to prevent wound maceration or there is a need for "VAC holidays."

Patient Mortality in Geriatric Distal Femur Fractures.

OBJECTIVES: To estimate 1-year mortality rates in elderly patients who undergo operative treatment for distal femur fractures and identify potential risk factors for mortality. DESIGN: Retrospective chart review. SETTING: Level 1 and Level 2 trauma centers. PATIENTS/PARTICIPANTS: Two hundred eighty-three elderly patients (average age 76.0 years ± 9.8) who sustained distal femur fractures between 2002 and 2012. INTERVENTION: Fracture fixation of the distal femur. MAIN OUTCOME MEASURE: Survival up to 1 year after surgery. RESULTS: The 1-year mortality rate for distal femur fractures in elderly patients was 13.4%. There were no statistically significant differences in overall mortality between native bone and periprosthetic fractures, intramedullary nail or open reduction internal fixation, or across Orthopaedic Trauma Association fracture classifications. Overall patient mortality was significantly higher at 30 days (P = 0.036), 6 months (P = 0.019), and 1 year (P = 0.018), when surgery occurred more than 2 days from the injury. Mean Charlson Comorbidity Index scores were significantly lower in survivors versus nonsurvivors at all time intervals (30 days, P = 0.023; 6 months, P = 0.001 and 1 year P ≤ 0.001). A time to surgery of more than 2 days, regardless of baseline illness, did not result in improved survivability at 1 year. CONCLUSIONS: Overall mortality for distal femur fractures was 13.4% in the elderly population. A surgical treatment more than 2 days after injury was associated with increased patient mortality. LEVEL OF EVIDENCE: Prognostic Level III. See Instructions for Authors for a complete description of levels of evidence.

Intraosseous Plating for the Management of Cortical Defects.

The management of fractures with segmental bone loss or abundant comminution on the far cortex is often complicated by deformity or frank hardware failure. Using plate constructs that rely on off-axis loading may not be sufficient to support the limb until healing occurs. There are a number of techniques to mitigate this problem, notably the use of intramedullary nails and bicolumnar plating of the fracture. These techniques are not always possible and do come with the biologic cost of additional surgery. In this article, the authors present a technique along with 2 case examples of using plates in an intraosseous location that was described by Dr Mast in his classic orthopaedic text. By placing these plates in the intramedullary space and then interdigitating fixation from the standard cortical plate, a rigid "I-beam" of fixation can be created to mitigate the eccentric loading placed on extraosseous plates. This technique is especially useful in situations in which intramedullary nails are precluded (comminuted intraarticular and some periprosthetic fractures).

Inpatient soft tissue protocol and wound complications in calcaneus fractures.

BACKGROUND: Operative treatment of calcaneus fractures is associated with the risk of early wound complications. Though accepted practice dictates surgery should be delayed until soft tissues recover from the initial traumatic insult, optimal timing of surgery has not been delineated. METHODS: A retrospective chart and radiographic review at a level I trauma center was performed to determine if an aggressive inpatient soft tissue management protocol designed to decrease the time delay from injury to surgery is effective at reducing complications. Ninety-seven patients (17 female, 80 male; mean age, 39.7±14.0 years) with 102 calcaneus fractures treated between October 1995 and January 2005 were identified. Differences in complication rates and quality of reduction between the inpatient and outpatient treatment groups were analyzed. Quality of reduction was determined by measuring postoperative Bohler's angle and posterior facet articular step-off. RESULTS: Mean time from injury to surgery was 6.2 days for the inpatient group and 10.8 days for the outpatient group (p<0.0001). The overall complication rate was over twice as high in the outpatient group (27 versus 12%, p=0.04) and the serious complication rate was 6.5 times higher when patients were managed as outpatients (9% versus 1%, p=0.09). With the numbers available, there were no significant differences in the quality of reduction obtained at surgery. CONCLUSION: This study suggests that this inpatient soft tissue management protocol of calcaneal fractures is a feasible treatment option when a patient is kept in the hospital that offers a reduction in postoperative wound complications while enabling surgery 4 days earlier on average.

Normal tibiofibular relationships at the syndesmosis on axial CT imaging.

OBJECTIVES: Computed tomography (CT) is reported to be superior to plain radiography for imaging the syndesmosis, but CT criteria differentiating normal from abnormal tibiofibular relationships do not exist. The purpose of this study was to define normal tibiofibular relationships at the syndesmosis on axial CT imaging and to report the reliability of these measurements. METHODS: Thirty healthy volunteers underwent CT evaluation of bilateral ankles. Axial CT measurements consisted of tibiofibular clear space, tibiofibular overlap, anterior tibiofibular interval, and fibular rotation (θ(fib)). To assess reliability, 3 investigators independently made each CT measurement on 2 separate occasions. RESULTS: Sixty ankles were included for analysis. CT measurements demonstrated excellent intrarater and interrater reliability. There was significant anatomic variability between individuals. Specifically, statistically significant gender differences were discovered in CT measurements of tibiofibular overlap and anterior tibiofibular interval. Variance between ankles of each subject was calculated. In an uninjured population, tibiofibular intervals do not vary by more than 2.3 mm, and the rotation of the fibula does not vary by more than 6.5° between ankles of the same person. CONCLUSIONS: Measurements of tibiofibular relationships made on axial CT images are reliable. Because of significant anatomic variation between individuals, using a patient's contralateral ankle for comparison provides a precise definition of normal tibiofibular relationships. These criteria allow for the detection of subtle variations in the tibiofibular relationships indicating instability and provide a tool for postoperatively assessing the reduction of the injured syndesmosis.

Treatment of large segmental bone defects with reamer-irrigator-aspirator bone graft: technique and case series.

Treatment of large segmental defects using conventional autogenous iliac crest bone graft can be limited by volume of cancellous bone and donor site morbidity. The reamer-irrigator-aspirator (RIA) technique allows access to a large volume of cancellous bone graft containing growth factors with potency equal to or greater than autograft material from the iliac crest. The purpose of this study was to evaluate the effectiveness of RIA-harvested autogenous bone graft for treating large segmental defects of long bones.

An alternative source of autograft bone for spinal fusion: the femur: technical case report.

OBJECTIVE: Autograft bone obtained from the iliac crest remains the "gold standard" for spinal fusion. For various reasons, including previous harvesting or pelvic dysmorphism, the iliac crest bone graft may not be available to the spinal surgeon. We present a novel use of a common orthopedic procedure, intramedullary reaming, for obtaining autograft for revision spinal fusion. METHODS: A 47-year-old woman presented with failed back syndrome after multiple lumbar surgeries with previous bilateral iliac crest bone harvest. A commercially available reaming system (Synthes Reamer-Irrigator-Aspirator; Synthes USA, West Chester, PA) was introduced into the left intramedullary canal of the femur while the patient remained in the prone position. Using continuous irrigation and aspiration, the reaming debris was collected and used as autograft for the subsequent spinal fusion. RESULTS: The patient underwent a successful L4-L5, L5-S1 transforaminal lumbar interbody fusion with L3-S1 pedicle screw fixation. No complications from the femoral reaming were observed, and 6-month follow-up x-rays demonstrated osseous fusion. CONCLUSION: Femoral reaming provides an alternative source of autograft bone when other sources are unavailable.

Comparison of plate and screw fixation and screw fixation alone in a comminuted talar neck fracture model.

BACKGROUND: Talar neck fracture fixation has been studied in noncomminuted fracture models, but no large clinical series of comminuted fracture patterns have been published and no biomechanical studies have compared plate fixation with screw fixation in comminuted talar neck fractures. METHODS: Nine matched pairs of fresh frozen talar specimens were stripped of soft tissue and mounted in a cylindrical jig. The talar neck was fractured using a dorsally directed shear force at a rate of 200 mm/min, and dorsal comminution was simulated by removing a 2-mm section of bone from the distal fracture fragment. One specimen from each pair was fixed with either two solid 4.0-mm partially threaded cancellous screws posterior-to-anterior just lateral to the posterior process of the talus or with a four-hole 2.0-mm minifragment plate contoured to the lateral surface of the talar neck and secured with 2.7-mm screws. A 2.7-mm fully threaded cortical screw was placed medially using a lag technique. The specimens were then loaded to failure with a dorsally directed force at a rate of 200 mm/min. Failure was defined as the load producing 2 mm of displacement. A Student's t-test analysis was used with significance set at p < or = 0.05. RESULTS: Posterior-to-anterior screw fixation had a statistically significant higher load to failure than plate fixation (p < 0.05). Mean load to failure for the screw group was 120.7 +/- 68.5 N and 89.7 +/- 46.6 N for the plating group. CONCLUSIONS: Plate fixation may offer substantial advantages in the ability to control the anatomic alignment of comminuted talar neck fractures, but it does not provide any biomechanical advantage compared with axial screw fixation. Further, the fixation strength of both methods was an order of magnitude lower than those found in previous studies of noncomminuted fractures.