Surgeons' preferences for the operative treatment of fractures of the tibial shaft. An international survey

Demographic Differences in the Surgical Management of Tibial Shaft Fractures: A Retrospective Study

Background Tibial shaft fractures (TSFs) are the most common long bone fractures in the United States and are associated with significant morbidity and the potential need for revision surgeries, with many patients requiring reoperation. This can have significant physical, mental, and financial impacts on patients. A major complication faced by patients with TSF is nonunion (TSFN). The mainstay of surgical management of TSF is Intramedullary Nail (IMN), with some patients also being treated with Open Reduction Internal Fixation (ORIF). With the demographic makeup of the United States undergoing rapid change, a better understanding of patient characteristics of patients with TSF is useful to optimize patient care. This study aims to enhance our comprehension of the frequency and demographic variables associated with tibia fracture surgery and subsequent nonunion. Methods A retrospective study was conducted in August 2023, utilizing the TriNetX "Global Collaborative Network" database to form patient study cohorts. Data extracted included patient age, sex, ethnicity, race, smoking status, surgical management, and nonunion. Data was also extracted on specific surgical management utilized, comprising either IMN or ORIF. Results A total of 6,389 cases of TSFs were analyzed, with 65% (4,153) of patients undergoing ORIF compared to IMN (35%, or 2,236). The overall incidence of patients with TSF ORIF and IMN was highest among males and White patients. The incidence of patients with TSF ORIF was highest in the age groups of 40-64 and 64-90 years, while TSF IMN was highest in the age groups of 18-39 and 40-64 years. The overall rate of tibia nonunion among patients with a TSF ORIF was 4.6%, vs. 2.6% in patients who underwent IMN. Conclusion TSFs treated with IMN were found to have lower rates of nonunion compared to ORIF. IMN of TSF was more common in younger patients, while ORIF was more common in the older age groups. ORIF and IMN had similar rates of male-to-female utilization, indicating that both genders are being treated similarly with regard to the operative method of choice. White patients and those who were not Hispanic or Latino had much higher rates of both IMN and ORIF compared to all other racial groups, despite the increased complexity of fracture/injury characteristics and higher complication rates in minority patients.

External fixation as definitive treatment or external fixation followed by early fixation in open fractures of the tibial shaft: A descriptive study

INTRODUCTION

Treatment options for open tibial shaft fractures include external fixation with or without early conversion to internal fixation.

OBJECTIVES

The aim of this study was to describe 1) early conversion to internal fixation and definitive external fixation and 2) in case of conversion, to identify risk factors for complications.

METHODS

Seventy-two external fixations of open fractures of the tibial shaft (Gustilo classification, 7 fractures (9.7 %) grade I, 25 fractures (34.7 %) grade II, 40 fractures (55.6 %) grade III (31 grade IIIA and 9 grade IIIB)) were included in a continuous non-randomised study. Thirty-three fractures without infection signs were converted to internal fixation at a mean time of 40.5 +/-15 days (IF group). External fixation was maintened in the remaining 39 fractures (EF group).

RESULTS

In the "IF" group, the union rate was 69.7 % at 6.3 +/-3.6 months (3-16). All patients had complete union at 16 months, requiring 2.8 +/-0.8 reoperations. Fixation with external fixation only ("EF" group) showed a union rate of 51.3 % at 8.9 +/-4 (5-22) months and 96 % at 16 months after 3.7 +/-0.9 reoperations. Superficial infection (12.1 %; p = 0.011) and numerous surgeries (2.76; p = 0.004) were found to be risk factors for deep infection. Time to wound closure >7 days (p = 0.049), time to reoperation >28 days (p = 0.00), numerous surgeries (2.76; p = 0.004) and deep infection (6.1 %; p = 0.027) were found to be union failure factors.

CONCLUSION

Early conversion of external fixation to internal fixation is an effective option to achieve bone union of open tibial fractures in selected patients.

Approach to Tibial Shaft Nonunions: Diagnosis and Management

The tibia is the most common long bone at risk for nonunion with an annual incidence ranging from 12% to 19%. This topic continues to be an area of research as management techniques constantly evolve. A foundational knowledge of the fundamental concepts, etiology, and risk factors for nonunions is crucial for success. Treatment of tibial shaft nonunions often requires a multidisciplinary effort. This article provides guidance based on the most recent literature that can be used to aid the treating provider in the diagnosis, workup, and management of tibial shaft nonunions.

Promoting Flexibility and Functionality in a Surgically Managed Tibial Fracture: A Case Report on Physiotherapeutic Interventions for Postoperative Stiffness

This case study explains the complete care of a 45-year-old male patient who had a high-impact road injury that resulted in a displaced proximal tibial fracture. Substantial soft tissue damage was discovered during the initial assessment, requiring careful thought before undergoing surgery. A customized physiotherapy program was instituted after an incremental strategy involving open reduction and internal fixation. The patient made a satisfactory functional recovery, regaining nearly normal mobility and going back to daily activities within 12 weeks despite difficulties encountered during the rehabilitation phase, including temporary postoperative complications. The present study underscores the significance of a multidisciplinary approach involving Mulligan mobilization in the effective management of intricate proximal tibial fractures. It also underscores the importance of meticulous surgical intervention and organized rehabilitation protocols in enhancing patient outcomes and regaining functional abilities to improve patients' quality of life.

No Difference in Short-Term Complications following Treatment of Closed Tibial Shaft Fractures with Intramedullary Nailing versus Plate Fixation

Objectives

Tibial shaft fractures are treated with both intramedullary nailing (IMN) and plate fixation (ORIF). Using a large national database, we aimed to explore the differences in thirty-day complication rates between IMN and ORIF.

Methods

Patients in the American College of Surgeons National Surgical Quality Improvement Program (ACS NSQIP) database who had undergone either tibial IMN or ORIF for closed fractures from 2010 to 2018 were identified using current procedural terminology (CPT) codes. After excluding all patients with open fractures, the propensity score was matching. Univariate and multivariate logistic regressions were used to identify risk factors associated with the thirty-day incidence of complications in the two cohorts.

Results

A total of 5,400 patients were identified with 3,902 (72.3%) undergoing IMN and 1,498 (27.7%) ORIF. After excluding any ICD-10 diagnosis codes not pertaining to closed, traumatic tibial shaft fractures, 2,136 IMN and 621 ORIF cases remained. After matching, the baseline demographics were not significantly different between the cohorts. Following matching, the rate of any adverse event (aae) did not differ significantly between the IMN (7.08% (n = 44)) and ORIF (8.86% (n = 55)) cohorts (p=0.13). There was also no significant difference in operative time (IMN = 98.5 min, ORIF = 100 min; p=0.3) or length of stay (IMN = 3.7 days, ORIF = 3.3 days; p=0.08) between the cohorts.

Conclusion

There were no significant differences in short-term complications between cohorts. These are important data for the surgeon when considering surgical management of closed tibial shaft fractures.

Open tibial shaft fracture management in Argentina: an evaluation of treatment standards in diverse resource settings

Background

Argentina is a country with varying access to orthopedic surgical care. The Argentine Association of Trauma and Orthopedics (AATO) "Interior Committee" was developed to address potential regional differences and promote standardization of orthopedic trauma care. The paper assesses the level of national standardization of the management of open tibia fractures across 9 provinces in Argentina.

Methods

Utilizing a matched-comparison group design, management of these injuries were assessed and compared between 3 groups: an "AATO Exterior Committee" consisting of surgeons that practice in Buenos Aires, and 2 "Interior Committees," comprising surgeons that practice in outlying provinces, 1 of which is affiliated with the AATO, and 1 that is not affiliated with the AATO. The study was conducted in 2 phases: phase 1 assessed open tibia fracture management characteristics, and phase 2 evaluated the management of soft-tissue wound coverage following open fractures.

Results

Soft-tissue coverage procedures for Gustilo Anderson Type IIIB fractures were more commonly performed by orthopedic surgeons in Interior Committees than the AATO Exterior Committee. Greater rates of definitive wound coverage within 7 days post-injury were reported in both Interior Committees compared to the Exterior Committee. Plastic surgeons were reported as more available to those in the AATO Exterior Committee group than in the AATO Interior Committees.

Conclusion

While treatment patterns were evident among groups, differences were identified in the management and timing of soft-tissue coverage in Gustilo Anderson Type IIIB fractures between the Exterior Committee and both Interior Committees. Future targeted educational and surgical hands-on training opportunities that emphasize challenges faced in resource-limited settings may improve the management of open tibia fractures in Argentina.

Unreamed Intramedullary Nailing Versus External Fixation for the Treatment of Open Tibial Shaft Fractures in Uganda: A Randomized Clinical Trial

OBJECTIVE

To compare unreamed intramedullary nailing versus external fixation for the treatment of Gustilo-Anderson type II and IIIA open tibial fractures admitted to a hospital in rural Uganda.

DESIGN

Randomized clinical trial.

SETTING

Regional referral hospital in Uganda.

PATIENTS

Fifty-five skeletally mature patients with a Gustilo-Anderson type II or IIIA open tibia shaft fracture treated within 24 hours of injury between May 2016 and December 2019.

INTERVENTION

Unreamed intramedullary nailing (n = 31) versus external fixation (n = 24).

MAIN OUTCOME MEASUREMENTS

The primary outcome was function within 12 months of injury, measured using the Function IndeX for Trauma (FIX-IT) score. Secondary outcomes included health-related quality of life (HRQoL) using the 3-level version of the 5-dimension EuroQol instrument (EQ-5D-3L), radiographic healing using the Radiographic Union Scale for Tibia (RUST) fractures score, and clinical complications.

RESULTS

Treatment with an intramedullary nail resulted in a 1.0-point higher [95% credible intervals (CrI), 0.1 to 1.9] FIX-IT score compared with external fixation. Results were similar for the secondary patient-reported outcomes, EQ-5D-3L and the visual analog scale component of the EuroQol instrument (EQ-VAS). RUST scores were not different between groups at any time point. Treatment with an intramedullary nail was associated with a 22.1% (95% CrI, -42.6% to 1.7%) lower rate of malunion and a 20.8% (95% CrI, -44.0% to 2.9%) lower rate of superficial infection.

CONCLUSION

In rural Uganda, treatment of open tibial shaft fractures with an unreamed intramedullary nail results in marginal clinically important improvements in functional outcomes, although there is likely an important reduction in malunion and superficial infection.

LEVEL OF EVIDENCE

Therapeutic Level II. See Instructions for Authors for a complete description of levels of evidence.

Rates and timing of short-term complications following operative treatment of tibial shaft fractures

Introduction

Tibial shaft fractures are a relatively common injury in orthopaedic surgery, with management options including intramedullary nail (IMN) fixation or open reduction internal fixation (ORIF) with plate osteosynthesis. Using a large national database, we sought to compare the prevalence and timing of short-term complications following either IMN or ORIF for tibial shaft fractures.

Methods

The American College of Surgeons National Surgical Quality Improvement Program was used to identify patients undergoing IMN or ORIF for the treatment of tibial shaft fracture between 2012 and 2018. Multivariate Poisson hurdle regression models were utilized to determine predictors of postoperative complications as well as the timing of postoperative complications.

Results

A total of 4963 tibial shaft fracture were identified, with 3601 patients undergoing IMN (72.6%) and 1362 undergoing ORIF (27.4%). Patients undergoing IMN had a lower mean age of 48.8 compared with 53.9 for plate osteosynthesis (P < .001). IMN patients were also more likely to be male (53.5%) compared with ORIF patients (44.2%, P < .001). In multivariate analysis, ORIF patients were significantly more likely to experience surgical site complications, including dehiscence, superficial, and deep infections (OR 2.04, P = .003). There was no difference in probability of VTE between constructs; however, patients who underwent ORIF were diagnosed with VTE earlier than those who underwent IMN (relative rate 0.50, P < .001). There was no difference between ORIF and IMN with regard to probability or timing of subsequent blood transfusion, major complications, or return to the operating room. Many patient factors, such as higher American Society of Anesthesiologists score, congestive heart failure, and hypertension, were independently associated with an increased risk of postoperative complications.

Conclusions

Postoperative complications within 30 days are common after the surgical treatment of tibial shaft fractures. The risk of developing specific complications and the timing of these complications vary depending on numerous factors, including potentially modifiable risk factors such as the method of fixation or operative time, as well as nonmodifiable risk factors such as medical comorbidities.

Scoring systems for early prediction of tibial fracture non-union: an update

Purpose

To evaluate the available tibial fracture non-union prediction scores and to analyse their strengths, weaknesses, and limitations.

Methods

The first part consisted of a systematic method of locating the currently available clinico-radiological non-union prediction scores. The second part of the investigation consisted of comparing the validity of the non-union prediction scores in 15 patients with tibial shaft fractures randomly selected from a Level I trauma centre prospectively collected database who were treated with intramedullary nailing.

Results

Four scoring systems identified: The Leeds-Genoa Non-Union Index (LEG-NUI), the Non-Union Determination Score (NURD), the FRACTING score, and the Tibial Fracture Healing Score (TFHS). Patients demographics: Non-union group: five male patients, mean age 36.4 years (18–50); Union group: ten patients (8 males) with mean age 39.8 years (20–66). The following score thresholds were used to calculate positive and negative predictive values for non-union: FRACTING score ≥ 7 at the immediate post-operative period, LEG-NUI score ≥ 5 within 12 weeks, NURD score ≥ 9 at the immediate post-operative period, and TFHS < 3 at 12 weeks. For the FRACTING, LEG-NUI and NURD scores, the positive predictive values for the development of non-union were 80, 100, 40% respectively, whereas the negative predictive values were 60, 90 and 90%. The TFHS could not be retrospectively calculated for robust accuracy.

Conclusion

The LEG-NUI had the best combination of positive and negative predictive values for early identification of non-union. Based on this study, all currently available scores have inherent strengths and limitations. Several recommendations to improve future score designs are outlined herein to better tackle this devastating, and yet, unsolved problem.

Custom-made polyurethane-based synthetic bones mimic screw cut-through of intramedullary nails in human long bones

Intramedullary nails are considered the gold standard for the treatment of tibial shaft fractures. Thereby, the screw-bone interface is considered the weakest link. For biomechanical evaluation of osteosyntheses synthetic bones are often used to overcome the disadvantages of human specimens. However, commercially available synthetic bones cannot adequately mimic the local mechanical properties of human bone. Thus, the aim of this study was to develop and evaluate novel cortical bone surrogate materials that mimic human tibial shafts in the screw-loosening mechanisms of intramedullary nails. Bone surrogates, based on two different polyurethanes, were developed and shaped as simple tubes with varying cortical thicknesses to simulate the diaphyseal cortex of human tibiae. Fresh frozen human tibiae and commercially available synthetic bones with similar cortical thickness were used as references. All specimens were treated with a nail dummy and bicortical locking screws to simulate treatment of a distal tibia shaft fracture. The nail-bone construct was loaded in a combined axial-torsional-sinusoidal loading protocol to simulate the physiological load during human gait. The loads to failure as well as the number of load cycles were evaluated. Furthermore, the cut-through length of the screws was analysed by additional micro computed -tomography images of the tested specimens. The failure load of custom made synthetic bone tubes with 6 mm cortical thickness (3242 ± 136 N) was in accordance with the failure load of human samples (3300 ± 307 N, p = 0.418) with a similar cortical thickness of 4.9 ± 1.4 mm. Commercially available synthetic bones with similar cortical thickness of 4.5 ± 0.7 mm were significantly stronger (4575 ± 795 N, p = 0.008). Oval-shaped migration patterns were "cut" into the cortices by the screws due to the cyclical loading. The cut-through length of the self-developed synthetic bones with 6 mm cortices (0.8 ± 0.6 mm, p = 0.516) matched the cut-through of the human tibiae (0.7 ± 0.6 mm). The cut-through of commercially available epoxy-based synthetic bones deviated from the human reference (0.2 ± 0.1 mm, p < 0.001). The results of this study indicate that the novel bone surrogates realistically mimic the failure and screw migration behaviour in human tibiae. Thus, they offer a new possibility to serve as substrate for biomechanical testing. The use of commercially available surrogates is discouraged for biomechanical testing as there is a risk of drawing incorrect conclusions.

A new technology using a customized 3D printed fixator to assist fracture reduction and fixation: Technical note

BACKGROUND

Poor reduction can lead to complications such as deformity and delayed fracture healing. We introduce a 3D printed external fixator technology that can assist in fracture reduction and fixation.

METHODS

A fractured long bone was first fixed by a temporary external fixator and then scanned with computed tomography. Three-dimensional reconstruction of the contour and bone fragments of the affected limb was performed using Mimics software, and the fracture reduction was simulated. Subsequently, data were imported into SolidWorks software for customized external fixator design and 3D printing. Through the precise assembly of the 3D printed external fixator and external fixation pins, automatic fracture reduction.

RESULTS

The patient's fractures were well reduced, firmly fixed, and the postoperative fractures healed well with no complications.

CONCLUSION

The technique we introduce not only assists in fracture reduction for temporary external fixation but can also be used as a definitive treatment for long bone fractures.

Monoplanar external fixation of comminuted open tibial shaft fractures predicts loss of alignment by one year compared to a statically locked intramedullary SIGN nail

AIMS

This investigation develops a predictive model for loss of alignment (LOA) following fixation of open tibia fractures.

PATIENTS/METHODS

An analysis was performed of adults with diaphyseal open tibia fractures randomized to intramedullary nailing (IMN) or external fixation (EF) followed at 6, 12, 24, and 52 weeks postoperatively. Demographic data were collected at baseline. Pre-injury and follow-up EuroQol 5-Dimensions (EQ-5D) and pain score were measured. Radiographs, taken postoperatively and in follow-up, were assessed for coronal and sagittal angulation, and used to calculate the modified Radiographic Union Scale for Tibia fractures (mRUST). LOA was defined as an increase in angulation >5° by one year follow-up. Fracture comminution was defined using AO/OTA classification. Putative risk factors were assessed for association with LOA using bivariate logistic regression. Adjusted associations with LOA were estimated using multivariable logistic regression and marginal analysis.

RESULTS

Analyses included 129 patients (70 IMN, 59 EF), majority male, of mean age 33 years (range 17.7-73) and body mass index (BMI) 25.2 (range 15.5-45.1), with 48% Type A, 41% Type B, and 11% Type C fractures (AO/OTA classification). The likelihood of LOA with EF increased with greater fracture comminution; 45.21% (p<0.001), 77.50% (p<0.001), and 100% LOA for Type A, B, and C fractures respectively. Relative risk of LOA for EF compared to IMN was 3.87 (95% CI 1.36, 11.02), 3.75 (95% CI 1.77, 7.92), and 5.76 for Type A, B, and C fractures, respectively. Compared to patients who lost alignment, patients without LOA had improved fracture healing (p = 0.003) and higher EQ-5D scores (p = 0.03) at one year.

CONCLUSION

Increasing age and BMI are associated with LOA and segmental fracture amplifies the protective effect of IMN versus EF. The importance of LOA as a surrogate outcome after operative treatment of open tibial fractures is supported by its association with inferior radiographic and functional patient outcomes.

Lateral position: a friendly surgical position for intramedullary nailing of tibial shaft fractures via infrapatellar approach

BACKGROUND

The conventional infrapatellar approach to intramedullary nailing of tibial fractures adopts the supine high-flexion knee position. However, this has disadvantages including difficulty in obtaining the proximal tibial anteroposterior view during intraoperative fluoroscopy, prolonged duration of fluoroscopy. Accordingly, the present study investigated the utility of the lateral position in the infrapatellar approach to intramedullary nailing of tibial shaft fractures.

METHODS

The present study was a retrospective analysis of 112 patients who sustained closed tibial shaft fractures and treated with intramedullary nailing via the infrapatellar approach. Patients were divided into two groups according to surgical position: lateral or supine. The demographic and clinical data were collected and analyzed.

RESULTS

There were 54 patients in the lateral and 58 in the supine position groups. The duration of surgery and fluoroscopy was shorter in the lateral group than the supine group (p < 0.05). Blood loss during surgery was lower in the lateral compared with supine position group (p < 0.05). The malunion rate was lower in the lateral position group as compared with the supine position group (p < 0.05); moreover, fewer surgical assistants were needed than in the supine group (p < 0.05). There were no significant differences in fracture healing time, other complications between the two groups (p > 0.05).

CONCLUSIONS

The lateral position was a more convenient choice for intramedullary nailing of tibial shaft fractures via infrapatellar approach.

Utilization of Orthobiologics by Sports Medicine Physicians: A Survey-based Study

Introduction:

Investigations are rapidly increasing into products referred to as orthobiologics and their utility in the nonsurgical and surgical treatment of diverse orthopaedic pathology.

Methods:

Members (599) of the American Orthopaedic Society for Sports Medicine were sent a survey that assessed their usage, motivation for use, and perceived efficacy of the following orthobiologics: leukocyte-rich platelet-rich plasma, leukocyte-poor platelet-rich plasma (PRP-LP), bone marrow aspirate concentrate, amniotic membrane products, adipose-derived mesenchymal stromal cells, and umbilical cord–derived cells. Application of these orthobiologics for the following pathologies was assessed: osteoarthritis, muscle injuries, tendon injuries, ligament injuries, labral injuries, and focal articular cartilage tears.

Results:

The survey was completed by 165 respondents (27.5%), of which 66.1% reported using at least one orthobiologic in their practice. Orthobiologic users reported the following: 71.6% are increasing their use, and 23.9% advertise their use. PRP-LP is the most commonly used orthobiologic for 76.1%, with 30% of PRP-LP users reporting use due to competitor utilization. The pathology most commonly treated with orthobiologics is osteoarthritis, for 71.6% of users, who primarily use PRP-LP in the knee joint. Leukocyte-rich platelet-rich plasma is the most popular orthobiologic in muscle, ligament, tendon, and labral injuries, whereas bone marrow aspirate concentrate is most popular for focal articular cartilage injuries. Primary orthobiologic-eligible groups were adults and recreational noncompetitive athletes. More than half (>50%) of orthobiologic users perceived all but umbilical cord–derived cells to be efficacious.

Conclusion:

Orthobiologics are used by a significant number of sports medicine physicians and are likely increasing in popularity. Among orthobiologics, platelet-rich plasmas are the most popular, and osteoarthritis is the pathology most likely to be treated. Orthobiologics are sometimes used for reasons other than clinical efficacy, especially competitor utilization, and physicians are disparate in their application of these products.

Injury of the Tibial Nutrient Artery Canal during External Fixation for Lower Extremity Fractures: A Computed Tomography Study

The tibial nutrient artery (TNA) is the major diaphyseal artery of the tibia supplying two thirds of the inner osseous cortex. Hence, iatrogenic injury of the TNA endangers the integrity of the tibial blood supply and may compromise fracture healing. The incidence of its injury in the setting of external fixation for lower limb fractures has not been previously investigated. The aim of this study was to evaluate the incidence of TNA injury in the context of external fixation and to characterize the topography of the fixator pins in relation to the TNA canal (TNAC). Patients who underwent external fixation for distal femoral fractures and for tibial (proximal, shaft, and distal) fractures and had a postoperative computed tomography study were retrospectively included. The following parameters were retrieved: 1) Pin characteristics (orientation and cortical position of the pins), 2) The anatomic relationship between the TNAC and external fixation pin (topography above/below and at the level of the TNAC, and the distance between the pin and medial tibial plateau and/or the medial malleolus), and 3) The incidence of TNAC injury (complete/partial disruption of TNA lumen). A total of 105 patients with 214 tibial pins were analyzed. In 27 patients (26%), the TNAC was completely injured by the pins of the external fixator. In 13 patients (12%), the TNAC was partially injured. Of the 214 analyzed pins, 85 pins (40%) were located at the level of the TNAC (the TNAC and the pin are seen on the same axial slice). Most pins that were applied at the level of the TNAC belonged to a knee-bridging external fixator. Of those, ninety-three percent of the pins were anteromedially applied according to published surgical guidelines. Six percent of the pins were applied through the tibial crest and 1% anterolaterally. Of those 85 pins, 42 pins (49%) injured the TNAC at least partially. Based on the analyzed pins and the incidence of partial and complete injury of the TNAC, we observed that the tibial segment at which the tibial nutrient artery is endangered was located approximately (95% CI: 13–15 cm) from the medial tibia plateau and (95% CI: 22–25 cm) from the medial malleolus. Thus, TNAC injury by external fixation pins in the context of lower limb fractures can be considered common. Almost half of the pins applied at the middle third of the tibia injured the TNA, despite adherence to published surgical guidelines for external fixation. When possible, pin application at the middle third of tibia should be avoided to circumvent iatrogenic injury of the TNA and to safeguard tibial blood supply.

Complications and subsequent surgery after intra-medullary nailing for tibial shaft fractures: Review of 8110 patients

BACKGROUND

Intramedullary nailing of tibial shaft fractures has been common practice for decades. Nevertheless, complications occur frequently, and subsequent surgery is often required. To improve our understanding on how we may improve trauma care for patients with tibial shaft fractures, this study systematically reviewed all currently available evidence to assess the incidence of complications and rate of re-operations following intramedullary nailing of traumatic tibial fractures.

METHODS

Trip Database, Medline, Scopus and Cochrane Library were searched on September 7th, 2018. Searches were limited to English studies published after January 1st, 1998. Studies were included if authors included more than 50 patients treated with intramedullary nailing for traumatic tibial fractures. Inclusion of studies and critical appraisal of the evidence was performed by two independent authors. Incidence of complications and rate of re-operations were reported with descriptive statistics.

RESULTS

Fifty-one studies involving 8110 patients treated with intramedullary nailing for traumatic tibial fractures were included. Mean age of patients was 37.5 years. The most frequent complication was anterior knee pain (23%), followed by non-union (11%). Eighteen percent of patients required at least one subsequent surgery. The most frequent indication of subsequent surgery was screw removal due to pain or discomfort (9%). Dynamization of the nail to promote union was reported in 8% of the cases. Nail revision and bone-grafting to promote union were applied in 4% and 2% respectively.

DISCUSSION & CONCLUSION

Patients treated with intramedullary nailing for tibial fractures need to be consented for high probability of adverse events as anterior knee pain, subsequent surgical procedures and bone healing problems are relatively common. However, based on current data it remains difficult to identify specifiers and determinants of an individual patient with specific fracture characteristics at risk for complications. Future studies should aim to establish patient specific risks models for complications and re-operations, such that clinicians can anticipate them and adjust and individualize treatment strategies.

Surveying the POSNA Landscape: What Can We Learn From Society Survey Studies?

BACKGROUND

A growing trend of survey-based research has been seen in the field of pediatric orthopaedics. The purpose of this study was to describe patterns of surveys of Pediatric Orthopaedic Society of North America (POSNA) membership and evaluate for associations between study characteristics and response rates in order to inform future research efforts. We hypothesized that studies with fewer survey questions and study group or committee involvement would demonstrate higher response rates.

METHODS

A systematic review of the literature was performed to identify all peer-reviewed survey publications targeting POSNA members published up to December 2017. Included studies were reviewed to identify author and publication characteristics, survey development and methodology, survey distribution procedures, and response rates. Statistical analyses were performed to describe publication patterns and evaluate for associations between study characteristics and response rates.

RESULTS

Thirty-four studies published from 1991 to 2017 were identified as meeting inclusion criteria, with a substantial increase noted over the last 3 years. Studies included 4.6 (SD 1.9) authors and 14.7% had affiliations with study groups or committees. Survey development methodology was detailed in only 1 study. Surveys included a median of 19.5 questions (3 to 108) and were primarily electronically distributed. The mean survey response rate was 42% with a downward trend noted over the studied time period. None of the studied author, publication, and design characteristics were associated with increased response rates.

CONCLUSIONS

Survey-based studies of the POSNA membership have become increasingly popular study designs in recent years. Response rates are lower than reports in other physician cohorts, and appear to be declining, possibly representative of respondent fatigue. No associations were identified between response rates and the modifiable study characteristics evaluated (number of authors, committee or subgroup affiliation, number of questions, and mode of distribution). Efforts should be made to identify tactics to sustain participation as these studies become more widely utilized within our field. Optimizing study design and implementation features while valuing physician time and effort spent on survey completion is important to avoid member survey fatigue.

LEVEL OF EVIDENCE

Level V-systematic review of Level V research.

Study methodology in trauma care: towards question-based study designs

The randomized controlled trial (RCT) in surgery may not always be ethical, feasible, or necessary to address a particular research question about the effect of a surgical intervention. If so, properly designed and conducted observational (non-randomized) studies may be valuable alternatives for an RCT and produce credible results. In this paper, we discus differences between RCTs and observational studies and differentiate between three types of comparisons of surgical interventions. We assert that results of different designs should be regarded as complementary to each other when evaluating surgical interventions. Criteria for credible observational research are presented to provide guidance for future observational research of surgical interventions. We argue that the research question that is being asked should guide the discussion about the value of a particular study design.

Medical Robotics in Bone Fracture Reduction Surgery: A Review

Since the advantages of precise operation and effective reduction of radiation, robots have become one of the best choices for solving the defects of traditional fracture reduction surgery. This paper focuses on the application of robots in fracture reduction surgery, design of the mechanism, navigation technology, robotic control, interaction technology, and the bone-robot connection technology. Through literature review, the problems in current fracture reduction robot and its future development are discussed.

The Feasibility of a Randomized Controlled Trial for Open Tibial Fractures at a Regional Hospital in Uganda

BACKGROUND

The inclusion of low and middle-income country (LMIC) hospitals in multicenter orthopaedic trials expands the pool of eligible patients and improves the external validity of the evidence. Furthermore, promoting studies in LMIC hospitals defines the optimal treatments for low-resource settings, the conditions under which the majority of musculoskeletal injuries are treated. The objective of this study was to determine the feasibility of a randomized controlled trial comparing external fixation with intramedullary (IM) nailing in patients with an isolated open tibial fracture who presented to a regional hospital in Uganda.

METHODS

From July 2016 to July 2017, skeletally mature patients who presented to a Ugandan regional hospital with an isolated Gustilo-Anderson type-II or IIIA open fracture of the tibial shaft were eligible for inclusion. The primary feasibility outcomes were the enrollment rate, the recruitment rate, and the 3 and 12-month follow-up rates. The secondary outcomes included a comparison of 3 and 12-month follow-up rates between the treatment arms and a qualitative assessment of barriers to enrollment, timely treatment, and missed follow-up.

RESULTS

During the 12-month enrollment period, 37.5% (30 of 80) of eligible patients were successfully enrolled and operatively treated on the basis of their random allocation, with an enrollment rate of 2.5 patients per month. Of the 30 enrolled patients, 53% completed their 3-month follow-up appointment, and 40% completed their 1-year follow-up appointment. Rates of 1-year follow-up were significantly higher for patients receiving IM nails than for those receiving external fixation (absolute difference, 52%; 95% confidence interval [CI], 21 to 83, p < 0.01). The main reasons that patients declined to participate in the trial were preferences for treatment by traditional bonesetters and prehospital delays that were related to a disorganized referral system. Barriers to follow-up included prohibitive transportation costs and community pressure to turn to traditional forms of treatment.

CONCLUSIONS

A regional hospital in Uganda can successfully enroll, randomize, and operatively treat multiple patients with an open tibial fracture each month. Patient follow-up presents substantial concerns over trial feasibility in this setting. Cultural pressure to utilize traditional treatments remains a particularly common barrier to study-participant enrollment and retention.

Angle Stable Interlocking Intramedullary Nails for Tibial Plateau Fractures

OBJECTIVE

Angle stable interlocking intramedullary nail (ASIN), a novel technique, has rarely been used for treatment of tibial plateau fractures (TPF). This retrospective study was designed to introduce this novel technique, ASIN, as well as to describe the initial experience and verify the effectiveness when ASIN was used for the management for TPF.

METHODS

A cohort of 19 cases with closed TPF aged from 18-70 years with at least 23 months follow-up from November 2008 to September 2013 was analyzed retrospectively. All patients underwent the ASIN procedure, which was performed by the same group of surgeons. Perioperative and postoperative parameters like the measurement of radiographic pictures, surgical data, and clinical function were recorded including the changes in treatment. A modified Hohl-Luck radiological and functional score combined with the Hospital for Special Surgery (HSS) score were applied to evaluate the final results and to provide reliable data through the whole procedure when applying the ASIN procedure.

RESULTS

The patients were followed up regularly for an average of 26.3 (range, 23-34) months. All patients achieved a bony union at an average of 15.1 weeks with no incidences of malunion, nonunion, or infection. Anatomical reduction of the articular surface was obtained in 16 patients. No secondary failure of fixation occurred. The mean postoperative knee flexion was 122.9°. The modified Hohl-Luck radiological and functional score was excellent and good, respectively, in 16 patients. The mean HSS score was 89.4.

CONCLUSION

The angle stable interlocking intramedullary nail system turned out to be a viable alternative protocol in the treatment of tibia plateau fractures and provided satisfactory results, with good fracture reduction, biomechanical fixation, low rates of complications, and passable postoperative knee function.

Can Clinical and Surgical Parameters Be Combined to Predict How Long It Will Take a Tibia Fracture to Heal? A Prospective Multicentre Observational Study: The FRACTING Study

BACKGROUND

Healing of tibia fractures occurs over a wide time range of months, with a number of risk factors contributing to prolonged healing. In this prospective, multicentre, observational study, we investigated the capability of FRACTING (tibia FRACTure prediction healING days) score, calculated soon after tibia fracture treatment, to predict healing time.

METHODS

The study included 363 patients. Information on patient health, fracture morphology, and surgical treatment adopted were combined to calculate the FRACTING score. Fractures were considered healed when the patient was able to fully weight-bear without pain.

RESULTS

319 fractures (88%) healed within 12 months from treatment. Forty-four fractures healed after 12 months or underwent a second surgery. FRACTING score positively correlated with days to healing: r = 0.63 (p < 0.0001). Average score value was 7.3 ± 2.5; ROC analysis showed strong reliability of the score in separating patients healing before versus after 6 months: AUC = 0.823.

CONCLUSIONS

This study shows that the FRACTING score can be employed both to predict months needed for fracture healing and to identify immediately after treatment patients at risk of prolonged healing. In patients with high score values, new pharmacological and nonpharmacological treatments to enhance osteogenesis could be tested selectively, which may finally result in reduced disability time and health cost savings.

Ankle fracture controversies: Do the foot and ankle specialists have a different vision?

OBJECTIVE

To analyse the differences in the management of ankle fractures between orthopaedic/trauma surgeons and foot and ankle specialists.

MATERIAL AND METHOD

An e-mail survey was performed asking some of the country's orthopaedic surgeons controversial questions regarding the analysis of 5 clinical cases of different ankle fractures.

RESULTS

Seventy-two surgeons responded to the questionnaire (response rate of 24.2%): 37 foot and ankle specialists and 35 non-specialist orthopaedic surgeons. For trimalleolar fracture, 40.5% of the specialists would request a computed tomography scan compared to 14% of the non-specialists (P=.01). Ninety-four percent of all the respondents would synthesise the posterior malleolus; 91% of the non-specialists would use an antero-posterior approach, either with a plate or with screws (P=.006). No differences were found between groups in the treatment of syndesmotic injuries (P>.05). For trans-syndesmotic fracture (Weber B) with signs of medial instability, 54% of the non-specialists would revise the internal lateral ligament compared to only 32% of the specialists (P=.06).

CONCLUSIONS

The foot and ankle specialists ask for more complementary tests to diagnose ankle fractures. In turn, they use a greater diversity of surgical techniques in synthesis of the posterior malleolus (posterior plate) and the medial malleolus (cerclage wires). Finally, they indicated a lower revision rate of the internal lateral ligament.

Obesity is associated with increased postoperative complications after operative management of tibial shaft fractures

OBJECTIVES

To assess the association of obesity and postoperative complications after operative management of tibial shaft fractures.

METHODS

Patients who underwent operative management of a tibial shaft fracture were identified in a national database by Current Procedural Terminology (CPT) codes for: (1) open reduction and internal fixation (ORIF) and (2) intramedullary nailing (IMN) procedures in the setting of International Classification of Diseases, Ninth Revision (ICD-9) codes for tibial shaft fracture. These groups were then divided into non-obese, obese, and morbidly obese cohorts using ICD-9 codes. Each cohort was then assessed for grouped complications within 90 days, removal of implants within 6 months, and nonunion within 9 months postoperatively. Odds ratios and 95% confidence intervals were calculated.

RESULTS

From 2005 to 2012, 14,638 patients who underwent operative management of tibial shaft fractures were identified, including 4425 (30.2%) ORIF and 10,213 (69.8%) IMN. Overall, 1091 patients (7.4%) were coded as obese and 820 (5.6%) morbidly obese. In each operative group, obesity and morbid obesity was associated with a substantial increase in the rate of major and minor medical complications, venous thromboembolism, infection, procedures for implant removal, and nonunion.

CONCLUSIONS

In patients who undergo either ORIF or IMN for tibial shaft fractures, obesity and its related medical comorbidities are associated with significantly increased rates of postoperative medical complications, infection, nonunion, and implant removal compared to non-obese patients.

A novel combination of computer-assisted reduction technique and three dimensional printed patient-specific external fixator for treatment of tibial fractures

PURPOSE

Good reduction and appropriate fixation are critical for long bone fractures, however, neither has been addressed satisfactorily. Robotic and navigation techniques can help improve the reduction accuracy. However, their clinical applications are limited by high cost and complexity in operation. The aim of this study was to discuss the feasibility of a customized external fixator in treating long bone fractures.

METHODS

We combined a computer-assisted reduction technique with 3D printing to develop a customized external fixator for treating three cases of tibial fractures. The reduction accuracy and fixation results were discussed in terms of operation time, X-ray examinations after operation, and limb function recovery.

RESULTS

Good reduction results were obtained on all three tibial fractures with an average lateral displacement of 2.04 mm (±1.53) and an angulation of 2.54° (±1.33). The surgery was not experience-dependent, and no intra-operative X-ray examinations were conducted. The average operative time was 8.67 minutes (±0.58).

CONCLUSIONS

A novel customized external fixator for the treatment of tibial fractures has the advantages of easy manipulation, accurate reduction, appropriate fixation, minimal invasion and experience-independence, and therefore has huge potential in clinical applications.

Intramedullary Tibial Nailing Reduces the Attachment Area and Ultimate Load of the Anterior Medial Meniscal Root: A Potential Explanation for Anterior Knee Pain in Female Patients and Smaller Patients

BACKGROUND

Intramedullary (IM) nailing is the treatment of choice among orthopaedic surgeons for tibial shaft fractures. However, because of the close proximity of the nail's insertion site to the anterior medial (AM) meniscal root on the tibial plateau, there is increased risk of iatrogenic injury to the meniscal root during nailing.

PURPOSE

To quantify the area of the AM meniscal root footprint damaged by IM tibial reaming and determine its subsequent effects on the ultimate failure load in female versus male knees.

STUDY DESIGN

Controlled laboratory study.

METHODS

Twelve matched pairs (6 male and 6 female pairs; average age, 50.2 years) of human cadaveric knees were randomly assigned to native and reamed groups. In the reamed group, knees were reamed within the "safe zone" according to current guidelines for IM tibial nail insertion (3 mm lateral to the center of the tibial tubercle and adjacent to the anterior margin of the tibial plateau). The attachment areas and ultimate failure load were quantified and compared with paired knees in the native group.

RESULTS

Intra-articular reaming within the "safe zone" for IM tibial nail insertion did not significantly decrease the AM root attachment area or ultimate failure load in male specimens, as only 2 of the 6 knees were damaged by reaming. In contrast, all 6 of the AM roots in the female knees were damaged by reaming, and on average, reaming decreased the female AM root attachment area by 19% and significantly decreased ultimate failure load by 37% (P = .028). There was a strong negative correlation (R(2) = 0.77) between reamed tunnel-AM root overlap area and medial-lateral width in female but not in male knees.

CONCLUSION

Standard reaming for an IM tibial nail induced significant damage to the AM meniscal root in smaller, female specimens, whereas larger, male specimens were not affected.

CLINICAL RELEVANCE

These findings may suggest that improvements in current guidelines and surgical techniques are warranted to prevent iatrogenic injury to the AM meniscal root during intramedullary reaming for tibial shaft fractures in females and in smaller patients.

A comparison of 30-day complications following plate fixation versus intramedullary nailing of closed extra-articular tibia fractures

BACKGROUND AND PURPOSE

Tibial shaft fractures are often treated by intramedullary nailing (IMN) or plate fixation. Our purpose was to compare the 30-day complication rates between IMN and plate fixation of extra-articular tibial fractures.

MATERIALS AND METHODS

We conducted a retrospective analysis of prospectively collected patient demographics, comorbidities, and 30 day complications of isolated closed extra-articular tibial shaft fractures from 2006 to 2012 using the American College of Surgeon's National Surgical Quality Improvement Program (ACS-NSQIP) database. A 1:2 propensity-matched dataset was created to control for differences in preoperative demographics and comorbidities across the plate fixation and IMN groups. Univariate and multivariate analyses were used to assess differences in complications between the groups and the independent effects of plate fixation or IMN on complications.

RESULTS

A total of 771 patients were identified with 234 (30.4%) in the plate fixation and 537 (69.6%) in the IMN group. We found no statistical difference in rates of wound complications, medical complications, reoperation, or mortality in our propensity matched analyses. Plate fixation was found to be independently associated with a lower risk of postoperative blood transfusion compared to IMN (odds ratio 0.326, p=0.032). Plate fixation was not independently associated with any other examined complications.

CONCLUSIONS

We found no difference in 30-day postoperative complications between plate fixation and intramedullary nailing of isolated extra-articular tibia fractures with the exception of decreased postoperative transfusion requirements with plate fixation. We conclude that both procedures offer a similar short-term complication profile.

Open distal tibial shaft fractures: a retrospective comparison of medial plate versus nail fixation

PURPOSE

Studies comparing open reduction internal fixation (ORIF) vs. intramedullary nailing (IMN) for distal tibia shaft fractures focus upon closed injuries containing small patient series with open fractures. As such, complication rates for open fractures are unknown. To characterize complications associated with ORIF vs. IMN, we compared complications based on surgical approach in a large patient series of open distal tibia shaft fractures.

METHODS

Through retrospective analysis at an urban level I trauma center, 180 IMN and 36 ORIF patients with open distal tibia fractures from 2002 to 2012 were evaluated. Patient charts were reviewed to identify patient demographics, fracture grade (G), patient comorbidities, and postoperative complications including nonunion, malunion, infection, hardware-related pain, and wound dehiscence. Fisher's exact tests compared complications between ORIF and IMN groups. Multivariate regression identified risk factors with statistical significance for the development of a postoperative complication.

RESULTS

One hundred and eighty IMN (G1 22, G2 79, and G3 79) and 36 ORIF (G1 10, G2 16, and G3 10) patients were included for analysis. ORIF patients had a higher rate of nonunion (25.0 %, n = 9) compared with IMN patients (10.6 %, n = 20, p = 0.03). No additional complication had a significant statistical difference between groups. Multivariable analysis shows only surgical method influenced the development of complications: ORIF patients had 2.52 greater odds of developing complications compared with IMN patients (95 % CI 1.05-6.02; p = 0.04).

CONCLUSIONS

ORIF leads to higher rates of nonunion and significantly increases the odds of developing a complication compared with IMN for open distal tibia fractures. This is the first study investigating complication rates based on surgical approach in a large cohort of patients with exclusively open distal tibia fractures.

Application of 3D printed customized external fixator in fracture reduction

INTRODUCTION

Long bone fracture is common in traumatic osteopathic patients. Good reduction is beneficial for bone healing, preventing the complications such as delayed union, nonunion, malunion, but is hard to achieve. Repeated attempts during the surgery would increase the operation time, cause new damage to the fracture site and excessive exposure to radiation. Robotic and navigation techniques can help improve the reduction accuracy, however, the high cost and complexity of operation have limited their clinical application.

MATERIALS AND METHODS

We combined 3D printing with computer-assisted reduction technique to develop a customised external fixator with the function of fracture reduction. The original CT data obtained by scanning the fracture was imported to computer for reconstructing and reducing the 3D image of the fracture, based on which the external fixator (named as Q-Fixator) was designed and then fabricated by 3D printing techniques. The fracture reduction and fixation was achieved by connecting the pins inserted in the bones with the customised Q-Fixator. Experiments were conducted on three fracture models to demonstrate the reduction results.

RESULTS

Good reduction results were obtained on all three fractured bone models, with an average rotation of 1.21°(± 0.24), angulation of 1.84°(± 0.28), and lateral displacement of 2.22 mm(± 0.62).

CONCLUSIONS

A novel customised external fixator for long bone fracture reduction was readily developed using 3D printing technique. The customised external fixator had the advantages of easy manipulation, accurate reduction, minimally invasion and experience-independence. Future application of the customised external fixator can be extended to include the fixation function with stress adjustment and potentially optimise the fracture healing process.

Numerical simulation of callus healing for optimization of fracture fixation stiffness

The stiffness of fracture fixation devices together with musculoskeletal loading defines the mechanical environment within a long bone fracture, and can be quantified by the interfragmentary movement. In vivo results suggested that this can have acceleratory or inhibitory influences, depending on direction and magnitude of motion, indicating that some complications in fracture treatment could be avoided by optimizing the fixation stiffness. However, general statements are difficult to make due to the limited number of experimental findings. The aim of this study was therefore to numerically investigate healing outcomes under various combinations of shear and axial fixation stiffness, and to detect the optimal configuration. A calibrated and established numerical model was used to predict fracture healing for numerous combinations of axial and shear fixation stiffness under physiological, superimposed, axial compressive and translational shear loading in sheep. Characteristic maps of healing outcome versus fixation stiffness (axial and shear) were created. The results suggest that delayed healing of 3 mm transversal fracture gaps will occur for highly flexible or very rigid axial fixation, which was corroborated by in vivo findings. The optimal fixation stiffness for ovine long bone fractures was predicted to be 1000–2500 N/mm in the axial and >300 N/mm in the shear direction. In summary, an optimized, moderate axial stiffness together with certain shear stiffness enhances fracture healing processes. The negative influence of one improper stiffness can be compensated by adjustment of the stiffness in the other direction.

No signs of dose escalations of potent opioids prescribed after tibial shaft fractures: a study of Swedish National Registries

BACKGROUND

The pattern of opioid use after skeletal trauma is a neglected topic in pain medicine. The purpose of this study was to analyse the long-term prescriptions of potent opioids among patients with tibial shaft fractures.

METHODS

Data were extracted from the Swedish National Hospital Discharge Register, the National Pharmacy Register, and the Total Population Register, and analysed accordingly. The study period was 2005-2008.

RESULTS

We identified 2,571 patients with isolated tibial shaft fractures. Of these, 639 (25%) collected a prescription for opioids after the fracture. The median follow-up time was 17 (interquartile range [IQR] 7-27) months. Most patients with opioid prescriptions after fracture were male (61%) and the median age was 45 (16-97) years. The leading mechanism of injury was fall on the same level (41%). At 6 and 12 months after fracture, 21% (95% CI 17-24) and 14% (11-17) were still being treated with opioids. Multiple Cox regression-analysis (adjusted for age, sex, type of treatment, and mechanism of injury) revealed that older patients (age >50 years) were more likely to end opioid prescriptions (Hazard ratio 1.5 [95% CI 1.3-1.9]). During follow-up, the frequency of patients on moderate and high doses declined. Comparison of the daily morphine equivalent dose among individuals who both had prescriptions during the first 3 months and the 6th month indicated that the majority of these patients (11/14) did not have dose escalations.

CONCLUSIONS

We did not see any signs in registry-data of major dose escalations over time in patients on potent opioids after tibial shaft fractures.

Efficacy and safety of recombinant human bone morphogenetic protein-2/calcium phosphate matrix for closed tibial diaphyseal fracture: a double-blind, randomized, controlled phase-II/III trial

BACKGROUND

Recombinant human bone morphogenetic protein-2 (rhBMP-2) applied on an absorbable collagen sponge improves open tibial fracture-healing as an adjunct to unreamed intramedullary nail fixation. We evaluated rhBMP-2 and a new, injectable calcium phosphate matrix (CPM) formulation in acute closed tibial diaphyseal fractures treated with reamed intramedullary nail fixation.

METHODS

Patients were randomized (1:2:2:1) to receive standard of care, which consisted of definitive fracture fixation within seventy-two hours of injury with a locked intramedullary nail after reaming; standard of care and injection with 1.0 mg/mL of rhBMP-2/CPM; standard of care and injection with 2.0 mg/mL of rhBMP-2/CPM; or standard of care and injection with buffer/CPM, to evaluate the activity of the CPM delivery matrix and provide for sponsor and investigator blinding. The co-primary end points of the study were the effects of rhBMP-2/CPM on the time to fracture union (based on blinded assessment of radiographs) and the time to return to normal function (based on blinded assessment of the time to full weight-bearing without pain at the fracture site) compared with standard of care alone.

RESULTS

Three hundred and sixty-nine patients were randomized and included in the intent-to-treat population. This study was terminated after an interim analysis (180 patients with six months of follow-up) revealed no shortening in the time to fracture union in the active treatment arms compared with the standard of care control (the SOC group). In the final primary analysis, the median time to radiographic fracture union was not significantly different for the SOC (13.1 weeks), 1.0-mg/mL rhBMP-2/CPM (13.0 weeks), 2.0-mg/mL rhBMP-2/CPM (15.9 weeks), or buffer/CPM (15.4 weeks) treatment groups. The median time to pain-free full weight-bearing was also not significantly different among the SOC (13.4 weeks), 1.0-mg/mL rhBMP-2/CPM (13.4 weeks), 2.0-mg/mL rhBMP-2/CPM (14.3 weeks), and buffer/CPM (16.4 weeks) treatment groups.

CONCLUSIONS

In patients with closed tibial fractures treated with reamed intramedullary nailing, the time to fracture union and pain-free full weight-bearing were not significantly reduced by rhBMP-2/CPM compared with standard of care alone. 24306696

Current practice managements regarding thromboembolic prophylaxis within the pediatric sarcoma patient population

OBJECTIVE

Children with cancer are approximately 600 times more likely to develop thromboses than the general pediatric population. Current management strategies for children have been extrapolated from adult studies and prophylaxis guidelines remain controversial. The purpose of this study is to survey the current thromboembolic prophylaxis practice methods of physicians treating pediatric sarcoma patients.

METHODS

Physicians involved in the care of sarcoma patients were surveyed using a 5-question survey designed to evaluate current clinical practices.

RESULTS

Of 107 responding physicians, 67 identified themselves as involved in the treatment of pediatric sarcoma patients. The providers most likely to use any form of deep vein thrombosis prophylaxis were orthopedic surgeons (60%), followed by general surgeons (45%), pediatric oncologists (30%), and medical oncologists (25%). Of the providers polled, 48% use mechanical forms, 20% use chemical forms, and 31% use a combination.

CONCLUSIONS

Currently, there is a lack of consensus regarding thromboembolic prophylaxis for pediatric sarcoma patients.

Optimization of intramedullary nailing by numerical simulation of fracture healing

Due to the annular gap between intramedullary (IM) nails and the endosteal surface, high interfragmentary movement can occur under loading. This could prolong the healing time, particularly for thin IM nails that are often used for unreamed IM nailing. The aims of our study were to determine the influence of the nail diameter on the healing time of human tibial shaft fractures and to investigate whether the healing time could be shortened by increasing the stiffness of the implant material. Therefore, a corroborated numerical model for simulating the fracture healing process in humans was used to simulate the healing process of human tibial fractures treated with IM nails. The calculated healing time (up to 71 weeks) was longest for transverse fractures treated with thin IM nails made of titanium. That the healing time was disproportionately long depended on the nail diameter, and could be greatly reduced by using a thicker nail or using steel instead of titanium. To avoid a prolonged healing time, the nail should be thick, and the annular gap should be as narrow as possible. Alternatively, using steel instead of titanium may also help to avoid a prolonged healing time.

Validation of a standardised gait score to predict the healing of tibial fractures

There is no absolute method of evaluating healing of a fracture of the tibial shaft. In this study we sought to validate a new clinical method based on the systematic observation of gait, first by assessing the degree of agreement between three independent observers regarding the gait score for a given patient, and secondly by determining how such a score might predict healing of a fracture.

We used a method of evaluating gait to assess 33 patients (29 men and four women, with a mean age of 29 years (15 to 62)) who had sustained an isolated fracture of the tibial shaft and had been treated with a locked intramedullary nail. There were 15 closed and 18 open fractures (three Gustilo and Anderson grade I, seven grade II, seven grade IIIA and one grade IIIB). Assessment was carried out three and six months post-operatively using videos taken with a digital camera. Gait was graded on a scale ranging from 1 (extreme difficulty) to 4 (normal gait). Bivariate analysis included analysis of variance to determine whether the gait score statistically correlated with previously validated and standardised scores of clinical status and radiological evidence of union.

An association was found between the pattern of gait and all the other variables. Improvement in gait was associated with the absence of pain on weight-bearing, reduced tenderness over the fracture, a higher Radiographic Union Scale in Tibial Fractures score, and improved functional status, measured using the Brazilian version of the Short Musculoskeletal Function Assessment questionnaire (all p < 0.001). Although further study is needed, the analysis of gait in this way may prove to be a useful clinical tool.

The effect of intramedullary reaming on a diaphyseal bone defect of the tibia

BACKGROUND

The effect of intramedullary reaming on diaphyseal tibial defects has not been examined in the literature. The present aim was to relate the extent of reaming to angiogenesis and bone formation occurring around a critical-sized defect in the tibia for two scenarios, namely, when the bone defect is left empty and when the bone defect is treated with autograft.

METHODS

Eleven canines were allocated into two groups, namely, empty (n=5) or iliac crest autograft (n=6). All tibiae were reamed to 7.0 mm and fixed with a 6.5-mm statically locked intramedullary nail after creation of an 8.0-mm diaphyseal defect. The extent of reaming of the canal was dependent on the cross-sectional area of the tibia, because all tibiae were reamed to 7.0 mm. Fluorescent markers were administered at different times: calcein green (6 weeks), xylenol orange (9 weeks), and tetracycline (11 weeks and 14 weeks). Animals were sacrificed at 15 weeks and perfused with a barium compound. Analysis consisted of radiography, micro-computed tomography scan, and histology.

RESULTS

Linear regression analysis of percent bone volume and canal area provided a Pearson correlation coefficient of r=0.925 (p=0.025) for empty samples and r=0.244 (p=0.641) for autograft samples. Linear regression analysis of percent vasculature volume and canal area provided a Pearson correlation coefficient of r=0.784 (p=0.117) for empty samples and r=-0.146 (p=0.783) for autograft samples. Bone formation rates were reported as the distance between the fluorescent labels and were less within the endosteum, cortex, and periosteum, with extensive reaming in empty samples.

CONCLUSIONS

The results suggest that limited reaming may be beneficial to the acute management of tibial shaft fractures with a bone defect.

A survey of physician opinion: adolescent midshaft clavicle fracture treatment preferences among POSNA members

BACKGROUND

Based on recent evidence of inconsistent outcomes after the closed treatment of adult midshaft clavicle fractures, the management of similar fracture patterns in adolescents is being reevaluated. The primary aim of this study is to report current treatment preferences for adolescent midshaft clavicle fractures among pediatric orthopaedic physicians and to determine if recent adult literature has influenced clinical decision making.

METHODS

An invitation email to a cross-sectional, web-based survey was sent to all members of the Pediatric Society of North America. With reference to adolescent sex and age, respondents were prompted to indicate their treatment preference (operative vs. nonoperative) in 4 common midshaft clavicle fracture patterns. The respondents were also asked to indicate if the following factors: findings in current literature supporting operative fixation in adults, arm dominance, and/or athletic status, influenced their preference for operative versus nonoperative management.

RESULTS

Of the 949 Pediatric Society of North America members, 302 responded in full (32% response rate). The majority of physicians preferred nonoperative treatment for all fracture patterns. A logistic regression analysis revealed: older adolescent age (12 to 15 y vs. 16 to 19 y.) and evidence in recent adult literature (influence vs. no influence) to be significantly (P < 0.01) predictive of physician preference toward operative fixation in angulated, displaced, and isolated segmental clavicle fracture patterns. Physician years of experience (< 5 y vs. > 5 y) significantly predicted treatment preferences in isolated segmental fractures only.

CONCLUSIONS

The percentage of physicians in favor of operative fixation tended to increase in reference to older adolescents and more severe fracture patterns but, nonoperative management was preferred in all fracture patterns. Evidence in recent adult literature was found to be the most significant factor influencing treatment preferences in this survey. Randomized controlled trials are needed to evaluate the efficacy of primary operative fixation of midshaft clavicle fractures in adolescent populations.

LEVEL OF EVIDENCE

Cross-sectional electronic survey; level V-expert opinion.

Improvement of the shear fixation stability of intramedullary nailing

BACKGROUND

The healing outcome of long bone fractures is strongly influenced by the mechanical environment. High interfragmentary movement at the fracture site is detrimental to the fracture healing process. Long bone fractures stabilized with thin intramedullary nails commonly used for unreamed intramedullary nailing might be very flexible in shear direction and therefore critical for the fracture healing outcome. The aims of this study were to simulate the shear interfragmentary movement during gait for a human tibia treated with intramedullary nailing and to investigate if this movement could be lowered by implant design modifications.

METHODS

The shear movement was calculated with a 3D finite element model based on computer tomograph images of a cadaver bone-implant complex of a transverse tibia fracture treated with a Stryker T2 Standard Tibial Nail. This model was validated through in vitro test results under pure shear, axial, bending and torsional loading.

FINDINGS

High shear movements of approximately 4mm were calculated during gait. These shear movements could be reduced by approximately 30% either by implant modifications or the use of a 1mm thicker nail. Combining the implant modifications with a 1mm thicker nail, the shear movements could be reduced by 54%.

INTERPRETATION

The increase of the fixation stiffness by using an implant material with a high Young's modulus in combination with an angle-stable nail-screw fixation helps to reduce the shear movement during gait and possibly to lower the risk of a prolonged healing time with unreamed intramedullary nailing.

Retropatellar technique for intramedullary nailing of proximal tibia fractures: a cadaveric assessment

OBJECTIVE

To investigate if the radiographically correct and anatomically safe starting point and the appropriate sagittal plane vector could be obtained using a retropatellar technique for proximal tibia fractures treated with an intramedullary device.

METHODS

We performed a cadaveric and radiographic study utilizing 16 limbs. We performed a retropatellar approach via longitudinal quadriceps split, passed a specialized trocar through the patellofemoral joint and onto the superior aspect of the tibia, and inserted Kirschner wires into the anatomic safe zone of the tibial plateau at 0, 10, 20, 30, 40, and 50 degrees of knee flexion utilizing biplanar fluoroscopy. We recorded knee flexion with a goniometer and the entrance vector of the Kirschner wire in relation to the anterior tibial cortex.

SETTING

University-affiliated cadaver and anatomy laboratory.

RESULTS

There was a progressive increase in the ability to obtain the correct anatomical start site from 1 of 16 (6.25%) at full extension to 12 of 16 (75%) at 50 degrees of knee flexion (P = 0.00098). A statistically significant decrease in the average sagittal plane entrance vector in relation to the anterior tibial cortex was found from 23.1 degrees at full extension to -0.41 degrees at 50 degrees of knee flexion (P < 0.0001).

CONCLUSIONS

The retropatellar technique allows the radiographically defined correct start site to be localized, particularly at higher degrees of knee flexion. More favorable intramedullary nail insertion angles were possible with the retropatellar technique, particularly with knee flexion angles greater than 20 degrees. The retropatellar technique demands further investigations to further delineate its advantages, limitations, and possible risks to local anatomy.

The retropatellar portal as an alternative site for tibial nail insertion: a cadaveric study

OBJECTIVE

To define spatial relationships between major intra-articular structures of the knee and the entry site of a tibial nail inserted using a retropatellar portal.

DESIGN

Cadaveric study using 16 fresh-frozen limbs.

SETTING

University-affiliated cadaver and anatomy laboratory.

RESULTS

The mean distance of the nail entry site and the medial and lateral menisci were 6.6 ± 3.2 mm and 6.4 ± 4.4 mm, respectively. The distance to the medial and lateral articular surfaces were 5.6 ± 3.6 mm and 7.4 ± 4.2 mm, respectively. The mean distance to the anterior cruciate ligament footprint was 7.5 ± 3.5 mm. The lateral meniscus was never injured during the procedure. The anterior cruciate ligament was undisturbed in all specimens. The medial meniscus was injured 1 to 2 mm in 12.5% of specimens. The intermeniscal ligament was injured 1 to 2 mm in 81.2% of the specimens.

CONCLUSION

The intermeniscal ligament and medial meniscus are at the most risk during intramedullary nailing of the tibia using the retropatellar technique. This may be corrected by avoiding an excessively medial start point. Damage to the intermeniscal ligament and medial meniscus occurs more commonly with the retropatellar portal, but this damage was never more than 1 to 2 mm. This risk, however, appears similar to the pattern and incidence of injury that occurred in prior studies investigating tibial nail insertion through a standard patellar tendon approach. The retropatellar technique demands clinical investigation to further define both its safety and its use.

Influence of the fixation stability on the healing time--a numerical study of a patient-specific fracture healing process

BACKGROUND

The healing outcome of long bone fractures is strongly influenced by the interfragmentary movement of the bone fragments. This depends on the fixation stability, the optimum value of which is still not known. The aim of this study was to simulate a patient-specific human healing process using a numerical algorithm and to retrospectively analyse the influence of the fixation stability on the healing time.

METHODS

The healing simulation was processed as an initial value problem. This was iteratively solved based on two mechanical (invariants of the strain tensor, calculated through a finite element analysis) and five biological state variables (local tissue composition and blood perfusion) using a previously published fuzzy logic algorithm. For validation purposes, the calculated interfragmentary movement was compared to in vivo measurements of this patient. By changing clinically adjustable parameters of the fixation device, the influence of the fixation stability on the healing time was analysed.

FINDING

The time course showed good agreement of the interfragmentary movement compared with the in vivo measurements. The predicted healing time was strongly influenced by the fixation stability, i.e. by changing the parameters of the fixation device, it was possible to significantly reduce the healing time.

INTERPRETATION

The time to heal could be greatly reduced by modification of the fixator design, i.e. increasing the fixation stiffness. When using external fixation devices, this could be achieved by decreasing the free bending length of the pins, using a stiff fixation body and a stiff connection between the pins and the body.

The radiographic union scale in tibial fractures: reliability and validity

Radiographic assessment of tibial fracture healing continues to pose significant challenges to both routine fracture care and clinical research. Orthopaedic surgeons fail to achieve sufficient agreement on fracture healing when using conventional radiographic measures such as their general impression or the number of cortices bridged by callus. Moreover, the extent to which radiographic assessment of healing corresponds to patient-important outcomes is largely unknown. In an attempt to improve the former (ie, reliability) and inform the latter (ie, validity), recent studies have explored a novel radiographic assessment for tibial shaft fractures, the Radiographic Union Scale for Tibial fractures (RUST). The RUST score assesses the presence of bridging callus and that of a fracture line on each of 4 cortices seen on 2 orthogonal radiographic views. A recent study has found that RUST scores have greater inter-rater reliability when compared with surgeon's general impression or the number of cortices bridged by callus. This may increase the utility of radiographs as a standardized measure of treatment efficacy in the follow-up of tibial fractures.

Near-infrared spectroscopy in lower extremity trauma

BACKGROUND

Near-infrared spectroscopy measures the percentage of hemoglobin oxygen saturation in the microcirculation of tissue up to 3 cm below the skin. The purpose of this study was to describe the measurable response of normal tissue oxygenation in the leg after acute trauma with use of this technique.

METHODS

Twenty-six patients with acute unilateral tibial fractures and twenty-five uninjured volunteer control subjects were enrolled. Near-infrared spectroscopy measurements were obtained for both legs in all four compartments: anterior, lateral, deep posterior, and superficial posterior. The twenty-six injured legs were compared with twenty-five uninjured legs (randomly selected) of the volunteer control group, with the contralateral limb in each patient serving as an internal control.

RESULTS

The mean tissue oxygenation for each compartment in the injured legs was 69% (anterior), 70% (lateral), 74% (deep posterior), and 70% (superficial posterior). In the control (uninjured) legs, the average tissue oxygenation percentage in each compartment was 54%, 55%, 60%, and 57%, respectively. Repeated-measures analysis revealed that near-infrared spectroscopy values averaged 15.4 percentage points (95% confidence interval, 12.2 to 18.6 percentage points) higher for injured legs than for uninjured legs, controlling for the value of the contralateral limb (p < 0.0001).

CONCLUSIONS

Tibial fracture produces a predictable increase in tissue oxygenation as measured by near-infrared spectroscopy. The corresponding compartment of the contralateral leg can provide strong utility as an internal control value when evaluating the hyperemic response to injury.

Iatrogenic radial nerve palsy after operative management of humeral shaft fractures

BACKGROUND

It is generally agreed that a period of observation is appropriate for primary radial nerve palsy associated with humeral shaft fractures. There is no consensus, however, with regard to secondary radial nerve palsy, particularly when it is iatrogenic. Most texts state that surgical exploration is indicated for nerve palsy that occurs after fracture manipulation, but our experience suggests that it is not necessary for radial nerve palsy developing after operative management of humeral shaft fractures.

METHODS

A total of 707 humerus shaft fractures were treated operatively at our two hospitals over a 10-year period. Of these, 30 patients sustained iatrogenic radial nerve palsy. Another 16 cases were referred to us with adequate documentation from other institutions. No recognized intraoperative injuries to the radial nerve were recorded in any case.

RESULTS

Of the 46 patients, 21 were female and 25 were male. The median age was 40 years (range, 19-75 years). A total of 39 patients had been treated with dynamic compression plates, 3 with a rigid interlocking intramedullary nail, and 4 with Ender nails. All fractures were diaphyseal, at the middle or distal third level. At the discretion of the surgeon, five cases were surgically explored. In all five cases the radial nerve was in continuity and no macroscopic lesions were noted. All cases eventually recovered grade 4 of 5 muscle strength or better. The median time to the beginning of clinical recovery was 16 weeks (range, 5-30 weeks).

CONCLUSIONS

The timing and pattern of radial nerve recovery in this situation was similar to that seen in primary radial nerve palsy. There appears to be no advantage to early exploration of the radial nerve. In the absence of obviously misplaced instrumentation or fracture displacement, we treat it like a primary palsy and recommend observation for a minimum of 4 months before exploration.

Surgeon knowledge, behavior, and opinions regarding intraoperative cholangiography

BACKGROUND

The risk of common bile duct injury during laparoscopic cholecystectomy (LC) is 50% to 70% lower when an intraoperative cholangiogram (IOC) is used, and this effect is exaggerated among less experienced surgeons. Routine IOC is not universal, and barriers to its use, including surgeon knowledge, behavior, and attitudes, should be understood in developing quality-improvement interventions aimed at increasing IOC use.

STUDY DESIGN

There were 4,100 general surgeons randomly selected from the American College of Surgeons who were mailed a survey about IOC. Surveys with a valid exclusion (retired, no LC experience) were considered responsive but were excluded from data analysis.

RESULTS

Forty-four percent responded, with 1,417 surveys analyzed (mean age 51.8+/-9.6 years; 89.2% men; 55.3% private practice). Twenty-seven percent of respondents defined themselves as routine IOC users and 91.3% of routine users reported IOC use in more than 75% of LCs performed. Academic surgeons were less often routine users compared with nonacademics (15% versus 30%; p < 0.001). Selective users were more often low-volume (less than 20 LC/year) surgeons (8% versus 15%) as compared with routine users, who were more often high-volume (more than 100 LC/year) surgeons (27% versus 20%). Routine users had more favorable and accurate opinions about IOC (less costly and more protective of injury) than did selective users. Thirty-nine percent of routine users thought IOC decreased the risk of common bile duct injury by at least half compared with 10% of selective users.

CONCLUSIONS

Surgeons at greatest risk for causing common bile duct injury (inexperienced, low-volume surgeons) and those who have the greatest opportunity to train others are less likely to use IOC routinely. These represent target groups for quality-improvement interventions aimed at broader IOC use.