The Fragility of Statistical Findings in the Femoral Neck Fracture Literature: A Systematic Review of Randomized Controlled Trials.

OBJECTIVES: Randomized controlled trials (RCTs) in the femoral neck fracture literature frequently report P -values for outcomes, which have substantial implications in guiding surgical management. This study used the fragility index (FI), reverse fragility index (rFI), and fragility quotient (FQ) to assess the statistical stability of outcomes reported in RCTs evaluating the management and treatment of femoral neck fractures. DESIGN: PubMed, Embase, and MEDLINE were queried for RCTs (January 1, 2010 to February 28, 2023). SETTING: RCTs that evaluated surgical management or treatment of femoral neck fractures were included. STUDY SELECTION CRITERIA: RCTs with 2 treatment arms reporting categorical dichotomous outcomes were included. Non-RCT studies, RCTs with greater than 2 treatment arms, and RCTs without a femoral neck fracture cohort were excluded. OUTCOME MEASURES AND COMPARISONS: The FI and rFI were calculated as the number of outcome event reversals required to alter statistical significance for significant ( P < 0.05) and nonsignificant ( P ≥ 0.05) outcomes, respectively. The FQ was calculated by dividing the FI by the sample size for the study. RESULTS: Nine hundred eighty-five articles were screened, with 71 studies included for analysis. The median FI across a total of 197 outcomes was 4 [interquartile range (IQR) 2-5] with an associated FQ of 0.033 (IQR 0.017-0.060). Forty-seven outcomes were statistically significant with a median FI of 2 (IQR 1-4) and associated FQ of 0.02 (IQR 0.014-0.043). One hundred fifty outcomes were statistically nonsignificant with a median rFI of 4 (IQR 3-5) and associated FQ of 0.037 (IQR 0.019-0.065). CONCLUSIONS: Statistical findings in femoral neck fracture RCTs are fragile, with reversal of a median 4 outcomes altering significance of study findings. The authors thus recommend standardized reporting of P -values with FI and FQ metrics to aid in interpreting the robustness of outcomes in femoral neck fracture RCTs. LEVEL OF EVIDENCE: Therapeutic Level III. See Instructions for Authors for a complete description of levels of evidence.

Second physician review of radiographs after wrist and ankle reductions offers limited utility to clinical management.

PURPOSE: The purpose of this study is to determine the clinical utility of second-physician review of radiographs obtained after reduction of distal radius and ankle fractures. METHODS: Fifty consecutive ankle and distal radius fractures requiring reduction were reviewed. The time from post-reduction radiograph to second-physician interpretation was obtained. The second-physicians' interpretation was evaluated for clinically influential information. Patients requiring a repeat reduction were identified, and the timing of the repeat reduction radiograph was compared with the timing of the second-physician interpretation of the initial post-reduction radiograph. RESULTS: The mean time of second-physician interpretation for post reduction ankle radiographs was 6 h and 47 min (range 4 min to 43 h and 3 min). Eleven of 50 (22%) interpretations of post reduction ankle radiographs commented on acceptability of reduction. The mean time of second-physician interpretation for post reduction distal radius radiographs was 5 h and 34 min (range 8 min to 22 h and 59 min). Seven of 50 (14%) interpretations of post reduction distal radius radiographs commented on acceptability of reduction. Three distal radius (6%) and 8 ankle fractures (16%) required repeat reduction. Repeat reductions were completed in 10/11 cases (91%) before the second-physician review of the initial post reduction radiograph was obtained. In only 1 case of repeat reduction was the second-physician review of the post reduction radiograph available before repeat reduction was attempted. CONCLUSION: The timing and quality of second-physician review of post-reduction radiographs offers little utility to the clinical management of ankle and distal radius fractures.

Accuracy and Reliability of Radiographic Estimation of Volar Lip Fragment Size in PIP Dorsal Fracture-Dislocations.

Background: A cadaveric study was performed to evaluate the accuracy and reliability of radiographic estimation of the volar lip fragment size in proximal interphalangeal joint fracture-dislocations. Methods: Middle phalangeal base volar lip fractures of varying size and morphology were simulated in 18 digits. Radiographs and digital photographs of the middle phalangeal joint surface were obtained pre- and postinjury. Ten orthopedic surgeons of varying levels of training estimated the fracture size based on radiographs. The estimated joint involvement on radiograph was compared with the digitally measured joint involvement. Results: Radiographic estimation underestimated the volar lip fragment size by 9.02%. Estimations possessed high intraobserver (0.76-0.98) and interobserver (0.88-0.97) reliabilities. No differences were detected between levels of surgeon training. Conclusions: The significant underestimation of the volar lip fragment size demonstrates the lack of radiographic estimation accuracy and suggests that surgeons should be mindful of these results when making treatment plans.

Incidence of Delayed Diagnosis of Orthopaedic Injury in Pediatric Trauma Patients.

OBJECTIVE: Determine the incidence of the delayed diagnosis of orthopaedic injuries in pediatric trauma patients. DESIGN: Cross-sectional retrospective analysis. SETTING: Level I pediatric trauma center. PATIENTS/PARTICIPANTS: All patients with an orthopaedic consultation after a trauma activation with a diagnosis of fracture, dislocation, traumatic arthrotomy, neurovascular injury, amputation, and tendon or ligament injury requiring intervention. A total of 1009 trauma codes and alerts occurred during the study period, of which 196 patients were diagnosed with an orthopaedic injury. INTERVENTION: Charts were reviewed to obtain demographic information, time of presentation, Glasgow Coma Score (GCS) on presentation, injury severity score (ISS), mechanism of injury, intubation status, length of intensive care unit and hospital stay, primary and secondary survey diagnoses, discharge diagnoses, time of additional diagnoses, and reason for delayed diagnosis. MAIN OUTCOME MEASURES: Incidence of delayed diagnosis of injury (DDI). RESULTS: There were 196 patients with a confirmed orthopaedic injury, of which, 18 were classified as a delayed diagnosis (9.18%). The mean time to detection of injury was 77.46 hours and the mean patient age was 132.22 months. One of the 18 patients required surgical intervention while the rest were treated conservatively. The mean GCS score of patients with a DDI were significantly lower than patients without a missed injury, 12 versus 14.19 (P = 0.0009). The median ISS, 21 versus 9 (P = 0.0021), and median hospital length of stay, 4 days versus 3 days (P = 0.0369) were significantly higher for patients with a missed injury compared with those without a missed injury. The intensive care unit length of stay approached significance with a median of 2 days for patients with a missed injury versus 1 day for patients without a missed injury (P = 0.057). CONCLUSIONS: In our study, factors that were associated with a DDI included lower GCS, higher ISS, and greater hospital length of stay. There was only 1 missed injury that required surgical intervention, and the remainder were treated conservatively. The initial evaluation of the trauma patient is able to detect life-threatening injuries, but the tertiary survey remains an important part of patient care to detect missed injuries. LEVEL OF EVIDENCE: Prognostic Level IV. See Instructions for Authors for a complete description of levels of evidence.

Cost-benefit analysis of routine pathology examination in primary shoulder arthroplasty.

BACKGROUND: The annual number of shoulder arthroplasty procedures is continuing to increase. Specimens from shoulder arthroplasty cases are routinely sent for pathologic examination. This study sought to evaluate the clinical utility and associated costs of routine pathologic examination of tissue removed during primary shoulder arthroplasty cases and to determine cost-effectiveness of this practice. METHODS: This is a retrospective review of primary shoulder arthroplasty cases. Patients whose humeral head was sent for routine pathologic examination were included. Cases were determined to have concordant, discrepant, or discordant diagnoses based on preoperative/postoperative diagnosis and pathology diagnosis. Costs were estimated in 2015 U.S. dollars, and cost-effectiveness was determined by the cost per discrepant diagnosis and cost per discordant diagnosis. RESULTS: We identified 714 cases of primary shoulder arthroplasty in 646 patients who met inclusion criteria. The prevalence of concordant diagnoses was 94.1%, the prevalence of discrepant diagnoses was 5.9%, and no cases had discordant diagnoses. There were 172 cases that had biceps tendon specimens sent for pathology examination, and none led to a change in patient care. Total estimated costs were $77,309.34 in 2015 U.S. dollars. Cost per discrepant diagnosis for humeral head specimens was $1424.09, and cost per discordant diagnosis is at least $59,811.78. DISCUSSION/CONCLUSION: Primary shoulder arthroplasty has a high rate of concordant diagnosis. Discrepant diagnoses were 5.9% in our study, and there were no discordant diagnoses. This study showed limited clinical utility in routinely sending specimens from primary shoulder arthroplasty cases for pathology examination, and calculation using a traditional life-year value of $50,000 showed that the standard for cost-effectiveness is not met.

Is Pes Cavus Alignment Associated With Lisfranc Injuries of the Foot?

BACKGROUND: Lisfranc (tarsometatarsal joint) injuries are relatively rare, accounting for less than 1% of all fractures, and as many as 20% of subtle Lisfranc injuries are missed at the initial patient presentation. An undiagnosed Lisfranc injury can have devastating consequences to the patient. Therefore, any factor that can raise a clinician's index of suspicion to make this diagnosis is potentially important. The cavus foot has been associated with various maladies of the lower extremity, but to our knowledge, it has not been reported to be associated with Lisfranc injury. QUESTIONS/PURPOSES: Do patients who experience a low-energy Lisfranc injury have greater talar head coverage and a greater talo-first metatarsal angle than control subjects? METHODS: A retrospective, case-control study was conducted from September 2011 to December 2014 to identify patients diagnosed and treated for a low-energy Lisfranc injury. Twenty-three adult patients with an average age of 42.6 years (SD, 16.3 years) were identified and compared with 61 adult control subjects with an average age of 49.4 years (SD, 14.1 years). Control subjects came from the practice of a fellowship-trained foot and ankle orthopaedic surgeon. Control subjects underwent a history and physical, clinical examination, and diagnostic imaging to confirm that they had no prior foot disorder, no prior foot surgeries, were within 3 years of age of a patient with a Lisfranc injury, and were independent ambulators. Two authors (DSD and JDP) measured the talonavicular and talo-first metatarsal angles on weightbearing AP and lateral radiographs of the foot. The intrarater reliability and interrater reliability for the talo-first metatarsal angle and the talonavicular angle showed high agreement. The intrarater intraclass correlation coefficients (ICC) of the talo-first metatarsal angle were 0.94 (95% CI, 0.91-0.96) and 0.93 (95% CI, 0.9-0.96). For the talonavicular angle the ICCs were 0.83 (95% CI, 0.75-0.89) and 0.88 (95% CI, 0.81-0.92) for Raters 1 and 2 respectively. The interrater ICCs were 0.91 (95% CI, 0.69-0.96) for the talo-first metatarsal angle and 0.9 (95% CI, 0.85-0.94) for the talonavicular angle. The patients and controls were compared to determine if the patients who sustained a Lisfranc injury were more likely to have a pes cavus foot alignment. We performed a mixed modeling analysis to control for potential cofounding variables and determine if there was an association of Lisfranc injury with the talo-first metatarsal angle and the talonavicular angle. RESULTS: After controlling for confounding variables such as the effect of the measurement round effect and the effect of the rater, our repeated measures analysis via mixed model showed patients were associated with a higher talo-first metatarsal angle than control subjects (adjusted least square mean for patients = 3.05; for controls = -2.65; mean difference, 5.7; p = 0.001). Repeated measures analysis via mixed model showed that patients also were associated with a more positive talonavicular angle than control subjects (adjusted least square mean for patients = -4.83, for controls = -11; mean difference, 6.17; p = 0.002). Patients with Lisfranc injuries had a higher mean talo-first metatarsal angle than did control subjects (1.9° ± 7.9° versus -2.2° ± 7.3°; mean difference, 4.1°; 95% CI, -7.7° to -0.5°; p = 0.028), and less talar uncovering (-4.2° ± 9.7° versus -11° ± 8°; mean difference, 6.7°; 95% CI, -6.7° to -10.8°; p = 0.001). CONCLUSIONS: We found that cavus midfoot alignment was more prevalent among patients with Lisfranc injuries than among individuals with no foot injury or disorder. Although this does not suggest that cavus alignment causes or predisposes patients to this injury, we believe the finding is important because this provides a radiographic parameter that clinicians can use to raise their index of suspicion for a Lisfranc injury and aggressively pursue this diagnosis. Future studies would benefit from obtaining contralateral foot imaging at the time of injury in all patients with Lisfranc injury or prospectively following patients with foot imaging and recording the incidence of future foot injury. LEVEL OF EVIDENCE: Level III, prognostic study.

A puzzle assembly strategy for fabrication of large engineered cartilage tissue constructs.

Engineering of large articular cartilage tissue constructs remains a challenge as tissue growth is limited by nutrient diffusion. Here, a novel strategy is investigated, generating large constructs through the assembly of individually cultured, interlocking, smaller puzzle-shaped subunits. These constructs can be engineered consistently with more desirable mechanical and biochemical properties than larger constructs (~4-fold greater Young׳s modulus). A failure testing technique was developed to evaluate the physiologic functionality of constructs, which were cultured as individual subunits for 28 days, then assembled and cultured for an additional 21-35 days. Assembled puzzle constructs withstood large deformations (40-50% compressive strain) prior to failure. Their ability to withstand physiologic loads may be enhanced by increases in subunit strength and assembled culture time. A nude mouse model was utilized to show biocompatibility and fusion of assembled puzzle pieces in vivo. Overall, the technique offers a novel, effective approach to scaling up engineered tissues and may be combined with other techniques and/or applied to the engineering of other tissues. Future studies will aim to optimize this system in an effort to engineer and integrate robust subunits to fill large defects.