M. Bradford Henley

Randomized prospective study of humeral shaft fracture fixation: intramedullary nails versus plates.

OBJECTIVES To compare the clinical and radiographic results for locked intramedullary (IM) nails and plates used in the treatment of humeral diaphyseal fractures. DESIGN Prospective randomization by sealed-envelope technique of eighty-four patients into two study groups: those treated by intramedullary nailing (IMN group; n = 38) and those treated by compression plating (PLT group; n = 46). SETTING Patients admitted consecutively to a university-affiliated Level I trauma center. PATIENT/PARTICIPANTS All skeletally mature patients admitted to Harborview Medical Center with acute humeral shaft fractures requiring surgical stabilization. Fractures of the diaphysis were defined as being at least three centimeters distal to the surgical neck and at least five centimeters proximal to the olecranon fossa. INTERVENTION Treatment with locking antegrade intramedullary humeral nails (Russell-Taylor design [Smith and Nephew Richards]) or with 4.5-millimeter dynamic compression and limited contact dynamic compression plates (AO design [Synthes]). MAIN OUTCOME MEASUREMENTS Clinical outcome measurements included fracture healing, radial nerve recovery, infection, and elbow and shoulder discomfort. Radiographic measurements included fracture alignment, time to healing, delayed union, and nonunion. RESULTS Follow-up averaged thirteen months. Forty-two fractures (93 percent) in the PLT group were healed by sixteen weeks versus thirty-three fractures (87 percent) in the IMN group (p = 0.70). Shoulder pain and a decrement in shoulder range of motion (ROM) were significant associations with IMN (p = 0.007 for both variables) but not with PLT. A decrement in elbow ROM was significantly associated with PLT (p = 0.03), especially for fractures of the distal third of the diaphysis, whereas elbow pain was not (p = 0.123). The sum of other complications demonstrated nearly equal prevalence for both treatment groups. CONCLUSIONS For patients requiring surgical treatment of a humeral shaft fracture, intramedullary nailing and compression plating both provide predictable methods for achieving fracture stabilization and ultimate healing.

Complications associated with internal fixation of high-energy bicondylar tibial plateau fractures utilizing a two-incision technique

Objectives: Single incision open reduction and double plate fixation of complex tibial plateau fractures has been associated with high wound complication rates. Minimally invasive methods have been recommended to decrease the wound complication rates as compared with open techniques. Additionally, laterally applied fixed-angle devices appear to minimize late varus deformity without the need for additional medial stabilization. Accurate reduction of comminuted lateral and/or medial articular surfaces, however, often requires visualization through an open reduction. This study reports the complications, infection rate, and radiographic assessment of reduction associated with double plating complex AO/OTA 41-C3 tibial plateau fractures utilizing 2 incisions. Design: Retrospective clinical review. Setting: Urban level 1 university trauma center. Patients: Over a 77-month period, 83 patients were treated for a complex bicondylar tibial plateau fracture at our institution utilizing a 2-incision technique. Intervention: Dual plating using anterolateral and posteromedial incisions. Main Outcome Measure: Type and incidence of septic and non-septic complications and radiographic assessment of articular reduction and axial alignment. Results: Eleven fractures were open (13.3%) and classified according to Gustilo as type II (1 patient), type III-A (7 patients), type III-B (2 patients), and type III-C (1 patient). Compartment syndrome was diagnosed and treated with fasciotomies in 12 patients (14.5%). The average time interval from injury to definitive surgical treatment was 9 days. Seven patients developed deep wound infections (8.4%). Three of these had an associated septic arthritis (3.6%). Clinical resolution of infection occurred after an average of 3.3 additional procedures. The presence of a dysvascular limb requiring vascular reconstruction was statistically associated with a deep wound infection (P = 0.006). Secondary procedures for complications included 13 patients who required removal of implants secondary to local discomfort, 5 patients who required a knee manipulation, 2 patients that were managed with excision of heterotopic ossification to improve knee motion, 1 patient that required an equinus contracture release, and 1 patient treated for a metadiaphyseal nonunion. Sixteen patients (19.3%) incurred deep venous thromboses. No patient was diagnosed with pulmonary embolism. Sixty-two percent of patients demonstrated satisfactory articular reductions, 91% demonstrated satisfactory coronal alignment, 72% demonstrated satisfactory sagittal alignment, and 98% demonstrated satisfactory condylar width. Conclusions: Comminuted bicondylar tibial plateau fractures can be successfully treated with open reduction and medial and lateral plate fixation using 2 incisions. Dysvascular limbs requiring vascular repair are at increased risk for deep sepsis. The use of 2 incisions, temporary spanning external fixation, and proper soft-tissue handling may contribute to a lower wound complication rate than previously reported.

Functional outcomes of severe bicondylar tibial plateau fractures treated with dual incisions and medial and lateral plates.

BACKGROUND Plate fixation of comminuted bicondylar tibial plateau fractures remains controversial. This retrospective study was performed to evaluate the perioperative results and functional outcomes of medial and lateral plate stabilization, through anterolateral and posteromedial surgical approaches, of comminuted bicondylar tibial plateau fractures. METHODS Over a seventy-seven-month period, eighty-three AO/OTA type-41-C3 bicondylar tibial plateau fractures were treated with medial and lateral plate fixation through two exposures. Injury radiographs were rank-ordered according to fracture severity. Immediate biplanar postoperative radiographs were evaluated to assess the quality of the reduction. The Musculoskeletal Function Assessment (MFA) questionnaire was used to evaluate functional outcome. RESULTS Twenty-three male and eighteen female patients (average age, forty-six years) who completed the MFA questionnaire were included in the study group. The mean duration of follow-up was fifty-nine months. Two patients had a deep wound infection. Complete radiographic information was available for thirty-one patients. Seventeen (55%) of those patients had a satisfactory articular reduction (< or =2-mm step or gap), twenty-eight patients (90%) had satisfactory coronal plane alignment (medial proximal tibial angle of 87 degrees +/- 5 degrees ), twenty-one patients (68%) demonstrated satisfactory sagittal plane alignment (posterior proximal tibial angle of 9 degrees +/- 5 degrees ), and all thirty-one patients demonstrated satisfactory tibial plateau width (0 to 5 mm). Patient age and polytrauma were associated with a higher (worse) MFA score (p = 0.034 and p = 0.039, respectively). When these variables were accounted for, regression analysis demonstrated that a satisfactory articular reduction was significantly associated with a better MFA score (p = 0.029). Rank-order fracture severity was also predictive of MFA outcome (p < 0.001). No association was identified between rank-order severity and a satisfactory articular reduction (p = 0.21). The patients in this series demonstrated significant residual dysfunction (p < 0.0001), compared with normative data, with the leisure, employment, and movement MFA domains displaying the worst scores. CONCLUSIONS Medial and lateral plate stabilization of comminuted bicondylar tibial plateau fractures through medial and lateral surgical approaches is a useful treatment method; however, residual dysfunction is common. Accurate articular reduction was possible in about half of our patients and was associated with better outcomes within the confines of the injury severity.

Triangular osteosynthesis and iliosacral screw fixation for unstable sacral fractures: a cadaveric and biomechanical evaluation under cyclic loads.

Objective To conduct a biomechanical comparison of a new triangular osteosynthesis and the standard iliosacral screw osteosynthesis for unstable transforaminal sacral fractures in the immediate postoperative situation as well as in the early postoperative weight-bearing period. Design Twelve preserved human cadaveric lumbopelvic specimens were cyclicly tested in a single-limb-stance model. A transforaminal sacral fracture combined with ipsilateral superior and inferior pubic rami fractures were created and stabilized. Loads simulating muscle forces and body weight were applied. Fracture site displacement in three dimensions was evaluated using an electromagnetic motion sensor system. Intervention Specimens were randomly assigned to either an iliosacral and superior pubic ramus screw fixation or to a triangular osteosynthesis consisting of lumbopelvic stabilization (between L5 pedicle and posterior ilium) combined with iliosacral and superior pubic ramus screw fixation. Main Outcome Measures Peak loaded displacement at the fracture site was measured for assessment of initial stability. Macroscopic fracture behavior through 10,000 cycles of loading, simulating the early postoperative weight-bearing period, was classified into type 1 with minimal motion at the fracture site, type 2 with complete displacement of the inferior pubic ramus, or type 3 with catastrophic failure. Results The triangular osteosynthesis had a statistically significantly smaller displacement under initial peak loads (mean ± standard deviation [SD], 0.163 ± 0.073 cm) and therefore greater initial stability than specimens with the standard iliosacral screw fixation (mean ± SD, 0.611 ± 0.453 cm) (p = 0.0104), independent of specimen age or sex. All specimens with the triangular osteosynthesis demonstrated type 1 fracture behavior, whereas iliosacral screw fixation resulted in one type 1, two type 2, and three type 3 fracture behaviors before or at 10,000 cycles of loading. Conclusion Triangular osteosynthesis for unstable transforaminal sacral fractures provides significantly greater stability than iliosacral screw fixation under in vitro cyclic loading conditions. In vitro cyclic loading, as a limited simulation of early stages of patient mobilization in the postoperative period, allows for a time-dependent evaluation of any fracture fixation system.

The olecranon osteotomy: a six-year experience in the treatment of intraarticular fractures of the distal humerus.

Objectives The transolecranon exposure for distal humerus fractures is a suggested technique for improving articular visualization, allowing accurate reduction. Significant osteotomy complications such as nonunion and implant prominence have prompted recommendations for alternate exposures. The purposes of this study are to present the techniques and complications of the olecranon osteotomy for the management of distal humerus fractures, and to evaluate the adequacy of distal humeral and olecranon articular reductions. Design Retrospective review. Setting Urban level-1 University trauma center. Patients One hundred fourteen skeletally mature AO/OTA type 13-C distal humerus fractures were identified from the orthopedic trauma database and formed the study group. Intervention Seventy fractures (61%), including 42 open injuries, were managed using an intraarticular, chevron-shaped olecranon osteotomy. Osteotomy fixations were performed with an intramedullary screw and supplemental dorsal ulnar wiring, or plate stabilization. In the remaining 44 fractures (39%), soft-tissue mobilizing exposures were performed. Main Outcome Measure Patient records and radiographs were reviewed to determine injury and operative characteristics, complications, and adequacy of articular reductions. Patient interviews were conducted by telephone to identify any subsequent surgical procedures. Results The proportion of osteotomies performed increased as fracture complexity increased (P<0.001). Sixty-seven of 70 patients had adequate follow-up to determine osteotomy union. All osteotomies united. There was 1 delayed union. Sixty-one of 70 patients had adequate follow-up to determine complications associated with ulnar fixations. Five of these patients (8%) underwent elective removal of symptomatic osteotomy fixations. An additional 13 patients had olecranon implants removed in conjunction with other surgical procedures (11 elbow contracture releases, 1 humeral nonunion repair, and 1 chronic draining sinus excision). Symptomatic ulnar fixations in this group could not be reliably ascertained, but may have been present. A total of 18 of 61 patients (29.5%), therefore, had proximal ulna fixations removed. All patients treated using an olecranon osteotomy exposure demonstrated satisfactory radiographic distal humeral articular reductions. Two osteotomies required early revision osteosynthesis secondary to loss of osteotomy reduction. Conclusions In this study, no osteotomy nonunions were encountered in 67 patients, more than half of which were open injuries. Regardless of which type of fixation is used to secure the osteotomy, secure stabilization must be obtained. Isolated symptomatic olecranon fixation requiring removal occurred in approximately 8% of patients. Although not necessary for all fractures of the distal humerus, the olecranon osteotomy can be useful in the visualization of the complex articular injuries, allowing accurate articular reduction.

Influences of some design parameters on the biomechanics of the unreamed tibial intramedullary nail.

Summary: Several questions relating to the biomechanics of the AO unreamed tibial nail were addressed in this study. These included the effects of the location of the nail bend on the reduction of a high proximal fracture, and the relation of proximal locking screw hole orientation and fracture component cortical contact to the mechanical stiffness of the construct. To measure fracture site malalignment with nail insertion, a motion transducer mounted on the distal tibial shaft was used to track the position of the proximal component during and after insertion of the nail. For studying the effect of screw hole orientation, the intramedullary (IM) nail was modified by drilling a second set of proximal screw holes with oblique instead of parallel alignment. The axial, torsional, and varus-valgus stiffnesses of the constructs with parallel or oblique screws and with or without fracture site contact were determined. In an experimental model with an osteotomy located proximal to the position of the bend in the nail when fully inserted, anterior displacement of the proximal fracture component (or posterior displacement of the distal component) of up to 1 cm was measured. Oblique proximal locking screws significantly decreased both varus/valgus angulation and medial/lateral translation under load, compared with the parallel screws. Constructs were 117% and 55% as rigid as the intact tibia in axial loading with and without cortical contact, and 6.5% and 3.1% as stiff in torsion. This study led to the following conclusions: (a) If an unreamed tibial nail is used to stabilize a fracture located superior to the position of the bend of the nail when it is fully inserted, fracture malalignment may occur, (b) A pair of proximal locking screws oriented obliquely at 90° to each other produce a more rigid construct in varus/valgus loading than do a pair of parallel screws, (c) Cortical contact significantly improves the stiffness of the fixation, (d) More proximally positioned screws allow fixation of a larger range of fractures, but at a cost of decreasing the axial stiffness of the construct.

The association between supracondylar-intercondylar distal femoral fractures and coronal plane fractures

BACKGROUND Isolated coronal plane fractures of the distal femoral condyles (Hoffa fractures) occur uncommonly, are difficult to diagnose, and may be challenging to treat. The combination of supracondylar distal femoral fractures and these coronal plane fractures is thought to occur rarely. The purposes of the present study were to identify the frequency of the association between supracondylar-intercondylar distal femoral fractures and coronal fractures of the femoral condyle and to describe the radiographic evaluation of these injuries. METHODS One hundred and eighty-nine patients with 202 supracondylar-intercondylar distal femoral fractures were retrospectively evaluated clinically and radiographically. RESULTS Coronal plane fractures were diagnosed in association with seventy-seven (38.1%) of the 202 supracondylar-intercondylar distal femoral fractures. Fifty-nine (76.6%) of these coronal fractures involved a single condyle, and eighteen involved both the medial and lateral femoral condyles. Eighty-five percent of the coronal fractures involving a single condyle were located laterally. Patients with an open distal femoral fracture were 2.8 times more likely to have a coronal plane fracture than patients with a closed fracture were (95% confidence interval, 1.54 to 5.25). Coronal plane fractures were diagnosed in 47% of the 102 knees that were evaluated with computerized tomography, compared with 29% of the 100 knees that were not (p = 0.008). Ten coronal plane fractures that had been unrecognized preoperatively were identified only at the time of operative fixation of the distal femoral fracture; none of these fractures occurred in patients who had been evaluated with computerized tomographic scanning preoperatively. CONCLUSIONS Coronal plane fractures frequently occurred in association with high-energy supracondylar-intercondylar distal femoral fractures; in the present study, the prevalence of associated coronal plane fractures was 38%. The lateral condyle was involved more frequently than the medial condyle was. Coronal plane fractures of both condyles were observed commonly, and the majority of coronal plane fractures were associated with open wounds. Since the surgical tactic for the treatment of a supracondylar-intercondylar distal femoral fracture may be altered by the additional diagnosis of a coronal plane fracture component, preoperative computerized tomographic scanning of the injured distal part of the femur, particularly when there is an associated open wound, is strongly recommended.

Flexion distraction and chance injuries to the thoracolumbar spine

Summary Seat belt legislation has resulted in increased restraint use by passengers in automobiles in Washington State. At Harborview Medical Center in Seattle, we have observed an increased incidence of seat belt-related injuries. Twenty cases of Chance-type thoracolumbar flexion-distraction fractures were reviewed retrospectively. Thirteen patients (65%) had associated life-threatening intra-abdominal trauma. Twelve of these patients had bowel wall injury. Ninety percent of the children had combined abdominal and spinal injury. Operative treatment of the spinal injury resulted in correction of lumbar kyphosis and lower incidence of back pain than nonoperatively managed cases. We recommend careful physical and radiographic examination of all patients with significant abrasion or bruising about the pelvis or abdomen related to seat belts. Victims of automobile crashes who are treated for bowel injury require thoracolumbar radiographs. Similarly, patients with Chance-type fractures should undergo diagnostic peritoneal lavage or computerized abdominal tomography.

Extensor mechanism-sparing paratricipital posterior approach to the distal humerus

Adequate exposure of the articular surface of the distal humerus and elbow joint is required for operative stabilization of bicolumnar distal humerus fractures. The transolecranon approach, which provides complete posterior visualization and access to the distal humerus, is commonly used. Nevertheless, an olecranon osteotomy and other extensor mechanism-disrupting approaches have risks and possible complications. Alternative exposures have been described primarily for total elbow arthroplasty, but these involve extensive and potentially devascularizing dissections. In extra-articular (OTA type A) and simple articular distal humeral fractures with simple or multifragmentary metaphyseal involvement (OTA type C1 and C2), extensile approaches may not be necessary. For these fracture patterns, an alternative exposure is the extensor mechanism-sparing paratricipital posterior approach to the distal humerus through a midline posterior incision. This approach avoids an osteotomy and mobilizes the triceps and anconeus muscle off the posterior humerus and the intermuscular septae and provides adequate exposure for open reduction and internal fixation.

Early stabilization and decompression for incomplete paraplegia due to a thoracic-level spinal cord injury

All patients treated between 1985 and 1990 for acute incomplete spinal cord injury between T2 and T11 were retrospectively studied. This level was chosen for study because by excluding cervical cord, conus, and cauda equina injuries, neurologic improvement could be attributed to improvement of spinal cord function. Only 14 patients with incomplete thoracic level paraplegia were identified, representing 1.2% of all spinal injuries. All 14 patients were treated by early operative reduction, stabilization, or decompression. Tweive patients had surgery within 24 hours of neurologic injury, one at 36 hours, and one at 5 days. Twelve patients had initial posterior instrumentation and fusion, one of whom subsequently had an anterior decompression. Two patients had initial anterior decompression and fusion. Both later had posterior instrumentation and fusion to treat progressive deformity. Follow-up averaged 20 months (range, 9–65 months). Neural function before surgery and at follow-up was given a Frankel grade and lower extremity motor index score. Of 13 surviving patients, seven were initially Frankel B and six Frankel C. Of the seven patients initially Frankel B, four recovered to Frankel E, two improved to Frankel D, and one remained Frankel B. Of the six patients originally Frankel C, five recovered to Frankel E and one improved to Frankel D. Average neurologic improvement was 2.2 Frankel grades per patient, lower extremity motor index improved from an average of 7 to 44. Early surgical reduction, stabilization, and decompression is safe and improves neurologic recovery in comparison to historical controls treated by postural reduction or late surgical intervention.