Thomas G. Harris

The effect of obesity on early failure after operative syndesmosis injuries.

Objective: The goal of this investigation was to determine if obese patients with syndesmotic injuries have a higher incidence of early postoperative failure compared with nonobese patients. Design: Retrospective cohort study. Setting: Level 1 urban trauma center. Patients and Methods: Two hundred thirteen patients with operative syndesmotic injuries were divided into 2 cohorts: obese and nonobese. All syndesmotic injuries were confirmed by intraoperative stress testing, reduced, and stabilized with internal fixation. Intervention: Fixation of displaced syndesmosis injuries with solid 3.5- and 4.5-mm screws. Main Outcome Measures: The primary outcome was early failure of fixation, defined as revision surgery within 3 months for ankle mortise and/or syndesmosis displacement. Results: Two hundred thirteen patients were identified with operative syndesmosis injuries, of which 102 (48%) were obese and 111 (52%) were nonobese. Fifteen percent (n = 15) of patients in the obese cohort sustained a failure of fixation compared with 1.8% (n = 2) of patients in the nonobese cohort (P = 0.0005). Diabetes mellitus, smoking status, and the type of construct used (eg, screw caliber, number of screws, and number of cortices) were not predictive of loss of reduction. Adjusting for injury severity, obese patients were 12 times more likely to suffer a loss of reduction compared with nonobese patients (odds ratio = 12.0, P = 0.02). Conclusions: There is a strong association between obesity and loss of reduction after operative treatment of the syndesmosis. Further research is warranted to determine if a stronger mechanical construct or more conservative postoperative protocol can reduce the risk of loss of reduction in obese patients who sustain a syndesmotic injury. Level of Evidence: Prognostic Level II. See Instructions for Authors for a complete description of levels of evidence.

Correlation of weightbearing radiographs and stability of stress positive ankle fractures.

Background: A positive external rotation stress test has been used as an indication for operative treatment of fractures of the lateral malleolus. The objective of the current study was to ascertain the results of a protocol initially treating stress positive ankle fractures nonoperatively and utilizing weightbearing radiographs in surgical decision making. Methods: We performed a prospective study of lateral malleolar fractures with an associated medial ligamentous injury. All patients with fractures of the lateral malleolus with medial sided symptoms and/or signs, and an intact ankle mortise underwent an external rotation stress test to confirm injury to the deltoid ligament (stress positive). Patients with a positive stress test were placed in a short-leg walking cast and seen in 7 days where weightbearing radiographs of the ankle were obtained. If the radiographs demonstrated an intact mortise, then nonoperative treatment was continued. If the weightbearing radiographs demonstrated medial clear space widening, then the patient was offered operative treatment to restore the congruency of the ankle mortise. Patients were assessed for conversion to operative treatment, complications, and functional outcome. Thirty-eight patients were enrolled in the study. Using Lauge-Hansen classification 36 (95%) were stress positive supination-external rotation fractures and 2 (5%) were stress positive pronation-external rotation fractures. Followup assessment was performed at a minimum of 6 months and averaged 12 months. Results: Weightbearing radiographs at the first post-injury clinic visit had an average medial clear space of 2.9 ± 0.9 mm. Three (8%) patients met our criteria for medial clear space widening and underwent operative treatment. Of these three patients, two were pronation-external rotation fracture patterns. Therefore, 3% of the supination-external rotation IV fractures, and all of the pronation-external III/IV rotation fractures ultimately required operative treatment. At final followup, the average AOFAS hindfoot score was 92 ± 8.1. Conclusion: Ligamentous supination-external rotation Stage IV fractures with an intact mortise on static radiographs can be initially treated nonoperatively. Weightbearing radiographs should be utilized to assess congruency of the ankle mortise during an early post-injury visit. Utilizing this approach, a significant number of surgeries were avoided, and good to excellent results were obtained. From our early experience, nonoperative treatment of pronation-external rotation III/IV injuries using this protocol is not recommended. Level of Evidence: III, Prospective Comparative Study

Biomechanical Comparison of Syndesmotic Injury Fixation Methods Using a Cadaveric Model

Background: There is growing interest in suture-button devices for syndesmosis injury, which are intended to offer less rigid fixation than screw fixation. Methods: The fixation strength with 2 different suture-button devices, ZipTight and TightRope, were compared using 5 cadaveric leg pairs (n = 10). In an additional 5 pairs (n = 10), ZipTight was compared to 3.5 mm quadricortical screw fixation. Ankle motion was measured intact, then following simulated syndesmosis injury and fixation. Cyclic loads (peak 750 N, 7.5 Nm) were applied. Finally, external rotation to failure was measured and failure mode was documented. Results: Range of motion increased after simulated injury and fixation with all devices (max 14.5 degrees). In all groups, diastasis remained below 1.0 mm intact and below 2.0 mm during cyclic loading. Compared to intact, under load to failure, diastasis with ZipTight devices increased by 4.7 ± 1.3 mm and 7.6 ± 4.3 mm, with TightRope, 6.3 mm, and screw construct, 1.3 mm. ZipTight specimens rotated approximately 80 ± 22 degrees before failure, TightRope, 67 ± 13 degrees, screw constructs, 76 ± 27 degrees. Mean failure torque was between 22.2 ± 6.9 Nm and 28.1 ± 12.7 Nm for ZipTight, compared to 32.9 ± 8.0 Nm for TightRope (P = .07), and 30.1 ± 9.6 Nm for screw constructs (P = .03). The majority of suture-button constructs failed by fibular fracture (ZipTight = 6, TightRope = 4), the remaining by device pull-through (ZipTight = 3, TightRope = 1) and loosening (ZipTight = 1). Conversely, 3 of screw-fixed specimens failed by device failure, 2 from bone fracture. Conclusion: Suture-button devices provided torsional strength below that of screw fixation. However, all devices may provide failure torques well above 20 Nm, exceeding likely torques applied in casts during healing.1,2,4 Clinical Relevance: Suture-button devices appear to have provided adequate fixation strength for syndesmosis injuries.

CT Characterizing the Anatomy of Uninjured Ankle Syndesmosis

Although it is expert opinion that transsyndesmotic screws are placed obliquely 30° from posterolateral to anteromedial in the transverse plane, this has not been formally studied, and there is inconsistency regarding the congruency of the distal tibiofibular joint. Thirty-eight computed tomography (CT) scans of the lower extremity were used to examine the rotational profile of the axis of the syndesmotic joint in relation to the femoral transepicondylar axis and to describe the congruency of this joint. The axis of the distal tibiofibular joint was 32°±6° externally rotated in relation to the transepicondylar axis. The average anterior, central, and posterior widths of the syndesmotic joint space 10 mm superior to the joint line were statistically significantly different: 1.7±0.9 mm, 1.7±0.6 mm, and 2.3±1.1 mm, respectively (P=.004). This study demonstrates that the axis of the uninjured distal tibiofibular joint is approximately 30° externally rotated in relation to the transepicondylar axis. Therefore, reduction clamps and screws should be placed at this angle to avoid malreduction of the syndesmosis. The posterior joint space width is significantly wider than the anterior and central joint spaces. This studys results provide a description of the anatomy of the uninjured distal tibiofibular joint to guide reduction maneuvers and establish a baseline for evaluation of postreduction CT scans.

Case Series Using a Novel Implant and Accelerated Rehabilitation for Patients Undergoing an Isolated Talonavicular Arthrodesis.

Talonavicular (TN) arthrodeses for TN arthritis have a high rate of nonunions for an essential hindfoot joint. In this case series, 12 patients underwent an isolated TN arthrodesis using a novel implant (IO FiX) by a single surgeon with a minimum 1-year follow-up (30.1 ± 14.7 months; mean ± SD). All patients (62 ± 12 years) underwent an aggressive rehabilitation protocol given the strength and compression of the implant. There were no nonunions, nor were there any patients lost to follow-up. Time to radiographic union was 9.6 ± 1.4 weeks. The Visual Analog Scale pain level decreased from 7.3 ± 0.9 preoperatively to 2.1 ± 0.7 postoperatively (P < .001). The Short-Form-12 physical component improved from 27.9 ± 4.2 preoperatively to 42.2 ± 3.5 postoperatively (P < 0.001), while the Short-Form-12 mental component did not change from 50.8 ± 6.9 preoperatively to 54.4 ± 3.8 postoperatively (P > .05). Use of the novel fixation device for TN arthrodesis by a single surgeon with an accelerated rehabilitation protocol significantly decreased patients’ pain and improved their physical functional outcomes (P < .001). The IO FiX implant can potentially improve TN arthrodesis fusion rates and surgical outcomes. Levels of Evidence: Therapeutic, Level IV: Case series

Arthroscopic Ankle Arthrodesis After Tibial Pilon Open Reduction Internal Fixation

Ankle arthrodesis is an essential tool in the foot and ankle surgeon’s armamentarium. Despite the evolving technology and ongoing research in ankle arthroplasty, arthrodesis continues to be a proven and safe option for the majority of patients with ankle arthritis refractory to conservative management. Here, the authors present their technique of an arthroscopic ankle arthrodesis specifically in the setting of a previous open-reduction internal fixation (ORIF) for a tibia plafond type fracture. They have found this to be a reliable technique to achieve a solid ankle arthrodesis while minimizing soft-tissue trauma and dissection in an already compromised soft-tissue envelope.

Foot and ankle experience in orthopedic residency: an update.

Background: In 2003, a limited survey regarding the number of dedicated foot and ankle faculty and foot and ankle rotations at orthopaedic surgery residency programs was published. The purpose of this paper was to update the results of that previous survey and provide additional, more in-depth information. Materials and Methods: A survey questionnaire was emailed to the program directors and chairpersons of the 150 ACGME-accredited orthopaedic residency training programs in the United States. Results: Responses were obtained from all programs. One hundred thirty-seven (91.3%) programs had one or more orthopaedic surgeon faculty members with a predominantly foot and ankle practice (at least 50%), an increase of 5.5 percentage points from the survey performed 6 years previously. One hundred forty three (95.3%) programs had one or more orthopaedic surgeon faculty members with a practice consisting of at least 25% foot and ankle. One hundred twenty programs (80%) had one or more dedicated foot and ankle rotations, an increase of 15.1% from 6 years prior. Orthopaedic surgery residents were felt to spend a mean of 30.4% and a median of 20% of their time with board-certified/ board-eligible orthopaedic surgeons in rotations that include treatment of foot and ankle pathology but were not considered “dedicated” foot and ankle rotations. Conclusions: The number of orthopaedic surgery residency programs with rotations and faculty members dedicated to foot and ankle education has increased over the 6 years between surveys. Orthopaedic surgery residents’ experience and skill development in foot and ankle surgery during their 5 years of residency training are not limited to their time spent in dedicated foot and ankle rotations.

Distal fibula fracture fixation: Biomechanical evaluation of three different fixation implants

BACKGROUND The goal of this study was to evaluate the biomechanical performance of three distal fibula fracture fixation implants in a matched pair cadaveric fibula model: (1) a 5-hole compression plate with lag screw, (2) a 5-hole locking plate with lag screw, and (3) the 6-hole tabbed-plate with locking screws. METHODS Three-dimensional motions between the proximal and distal fibular segments were measured under cyclic valgus bending, cyclic compressive axial loading, and cyclic torsional external-rotation loading. During loading, strains were measured on the surfaces of each fibula near the simulated fracture site, and on the plate, to assess load transfer. Bone quality was quantified globally for each donor using bone mineral density (BMD) measured using Dual X-ray absorptiometry (DEXA) and locally at the fracture site using bone mineral content (BMC) measured using peripheral quantitative computed tomography (pQCT). RESULTS Mean failure loads were below 0.2Nm of valgus bending and below 4Nm of external-rotational torque. Mean failure angulation was below 1degree for valgus bending, and failure rotation was below 7degrees for external-rotation. In the compression plate group, significant correlations were observed between bone quality (global BMD and local BMC) and strain in every one of the five locations (Pearson correlation coefficients >0.95, p<0.05). In contrast, in the locking and tabbed-plate groups, BMD and BMC correlated with far fewer strain locations. CONCLUSIONS Overall, the tabbed-plate had similar construct stability and strength to the compression and locking plates. However, the distribution of load with the locking and tabbed-plates was not as heavily dependent on bone quality.

Distal Metatarsal Osteotomy for Moderate to Severe Hallux Valgus

Hallux valgus is the most common disorder of the hallux and often results in pain, functional disability, and impaired gait patterns. The goals of surgical management are to correct the deformity while improving patients’ pain and function. Traditional treatment of moderate to severe hallux valgus deformities consist of proximal osteotomy and/or arthrodesis given their powerful corrective ability. Despite their corrective power, proximal osteotomies are more technically demanding, have a higher rate of complications, and require a more restricted post-operative recovery. We present an alternative technique for the treatment of moderate to severe hallux valgus. With this operation, a single distal medial incision is utilized to create a chevron osteotomy and lateral release. This procedure can achieve and maintain the desired correction and outcome without the need for a protracted recovery period. Level of Evidence: Level V, expert opinion.

Delayed Open Reduction Internal Fixation of Missed, Low-Energy Lisfranc Injuries.

Background: The aim of this study was to determine the outcome of delayed presentation (at least 6 weeks from the time of injury) of low-energy Lisfranc injuries limited to the first and second tarsometatarsal joints treated with open reduction internal fixation. Methods: 8 patients with an average age at surgery of 39.8 years were retrospectively reviewed with a mean time to surgery from injury of 15.1 (range of 6.3 to 31.1) weeks. We used radiographic measurements, physical examination, SF-12 scores, Foot and Ankle Ability Measure (FAAM) scores, VAS scores and return to work or sports as outcome measures. Patients were treated with an open reduction and internal fixation as opposed to a formal arthrodesis with a variety of internal fixation. All 8 patients were available for follow-up and outcome reporting at an average of 3.1 years (minimum 2.0) postoperatively. Results: The mean VAS improved from 8.5 to 2.8 postoperatively. The mean postoperative physical and mental SF-12 scores were 46.8 and 57.1, respectively. The mean postoperative overall and sports FAAM scores were 75.4 and 65.9, respectively. There were no radiographic signs of a late diastasis at the Lisfranc joint. All patients including 2 workers compensation cases returned to work and all were able to return to their prior sporting activity. Conclusion: A delayed open reduction internal fixation of patients with missed, low-energy Lisfranc injury was performed and resulted in decreased pain. In this series, a fair to good functional outcome was observed, and the ability to return to work or previous sport was possible for all patients studied. Level of Evidence: Level IV, retrospective case series.