Fracture nonunion in long bones: A literature review of risk factors and surgical management

Type 2 Odontoid Fractures: Atlantodental Arthrosis as a Novel Risk Factor for Failure of Conservative Management

STUDY DESIGN

Retrospective case-control study.

OBJECTIVE

The purpose of this study is to assess how the presence and grade of atlantodental arthrosis impact outcomes of nonoperatively managed type 2 odontoid fractures.

SUMMARY OF BACKGROUND DATA

The nonoperative management of geriatric type 2 odontoid fractures requires consideration of all potential variables that may influence outcomes. The presence of underlying atlantodental arthrosis can create a more rigid lever arm adjacent to the fracture site inducing greater biomechanical strain on an already tenuous healing environment.

METHODS

Eighty-one patients with traumatic type 2 odontoid fractures managed nonoperatively were included, with an average follow-up of 180 days after injury. Radiographic evaluation was performed to identify the presence and severity of atlantodental arthrosis on computed tomography (CT) imaging at the time of injury. Electronic medical records were reviewed to report patient demographics, fracture characteristics, and treatment outcomes. The relationship between atlantodental arthrosis and failure of conservative management was primarily assessed.

RESULTS

Patients who failed conservative treatment were more likely to have an atlantodental arthrosis grade >2 (P<0.001) and increased posterior displacement on index imaging (P=0.008). Following multivariable regression, grade 3 (OR: 4.4, 95% CI: 1.6-11.9, P=0.004) and grade 4 arthrosis (OR: 13.9, 95% CI: 1.5-127.9, P=0.02) were independently associated with an increased risk for failing conservative management.

CONCLUSIONS

The present findings identify the presence of atlantodental arthrosis as a risk factor for treatment failure in conservatively managed geriatric type 2 odontoid fractures. Future prospective studies are necessary to further elucidate the prognostic value of arthrosis severity in determining optimal treatment strategies.

Therapeutic Effects of Bovine Colostrum on Bone Healing, Rehabilitation, and Postoperative Complications: A Prospective, Randomized, Double-Blinded Comparative Trial

BACKGROUND

Accelerated recovery from bone injuries is a paramount health-care goal with substantial impacts on physical status and overall well-being. The aim of this study was to evaluate the impact of colostrum supplementation on bone healing in patients with a traumatic extracapsular hip fracture (ECF).

METHODS

Patients with an ECF undergoing internal fixation were randomly assigned to receive either bovine colostrum or whey protein. Bone healing was assessed using the Radiographic Union Score for Hip (RUSH). Physical rehabilitation was evaluated using the Harris hip score (HHS) and the Short Musculoskeletal Functional Assessment (SMFA) within 3 months postoperatively. A generalized estimating equation (GEE) was used to assess the time-by-group interactions of these longitudinal variables. Patients were monitored for postoperative complications for 12 months, with the risk difference (RD) and risk ratio (RR) calculated.

RESULTS

A total of 116 patients with an ECF were included in the final analysis (colostrum group, n = 59; whey group, n = 57). Baseline characteristics, including age, gender, ethnicity, and body mass index, were similar between the groups (p > 0.05 for all). The colostrum group had a significantly greater increase in the RUSH score (β = 0.88; p = 0.001) and HHS (β = 1.2; p = 0.001) over time compared with the whey group. SMFA dysfunction and bother indices demonstrated significantly greater decreases over time in the colostrum group compared with the whey group (β = -1.2 and -2.4, respectively; p < 0.001 for both).

CONCLUSIONS

The present study provides preliminary evidence suggesting that colostrum may accelerate bone healing and enhance short-term physical rehabilitation outcomes more effectively than whey protein.

LEVEL OF EVIDENCE

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

Injectable mineralized hydrogel microspheres for accelerated osteocyte network reconstruction and intelligent bone regeneration

The disruption and limited reconstruction capacity of the osteocyte network are pivotal factors underlying impaired bone regeneration. This study developed an injectable mineralized hydrogel microsphere that provides a mineral-rich environment and optimal matrix stiffness for osteocyte network restoration. Furthermore, it spatially activates Notch signaling through osteocyte-derived vesicles with high Jagged1 expression, promoting osteocyte differentiation and enhancing angiogenic regulatory function. Specifically, hydrogel microspheres combining gelatin methacrylate (GelMA), alginate methacrylate (AlgMA), and osteocyte membrane vesicles (OMVs) were fabricated via gas-shear microfluidics and photopolymerization, followed by in situ pre-mineralization to produce mineralized microspheres. Findings indicate that mineralized hydrogel microspheres exhibit significantly increased compressive modulus and in situ formation of amorphous calcium phosphate particles within the gel matrix. In vitro, the mineralized microspheres effectively facilitated osteogenic differentiation in bone marrow-derived mesenchymal stem cells (BMSCs), with adherent cells displaying accelerated osteocyte marker expression. Co-culture experiments further revealed enhanced vascular formation potential. Ectopic bone regeneration studies demonstrated that mineralized hydrogel microspheres promote rapid formation of mature osteocyte networks in vivo. Moreover, in a femoral critical bone defect model, these microspheres accelerated defect healing. Collectively, mineralized hydrogel microspheres expedite osteocyte network reconstruction, supporting intelligent bone regeneration, and present a promising approach for critical-sized bone defect repair.

Time to union in ballistic trauma lower extremity diaphyseal fractures treated with intramedullary nailing

BACKGROUND

Time to union in civilian firearm injuries is variable and not well described in the literature. This study measures the time to union for femoral and tibial shaft fractures treated with an intramedullary nail (IMN). Time to union is compared across open, closed, or ballistic trauma (BT) fractures. The goal of the study is to answer the questions: (1) Do tibial shaft fractures heal in specific temporal patterns based on mechanism of injury and (2) Do these temporal healing patterns apply to both the tibia and femur?

PATIENTS AND METHODS

Included patients had tibial or femoral shaft fractures (OTA/AO 32 and 42) treated at an urban level 1 trauma center between 2015 and 2020 with IMN. Patients were eligible if radiographic imaging was available for any four of five follow-up timepoints, absence of preexisting hardware, and BT was from low velocity handgun injuries. Radiographic union scale (RUS) was compared amongst six groups (Open, Closed or BT for Femur and Tibia fractures), at 60-90 days, 91-180 days, 181- 270 days, and 271-365 days and greater than 365 days. Statistical comparison was performed using a two-way ANOVA and Tukey's multiple comparisons.

RESULTS

Included in the study were 114 patients, with 20 patients in each group except the OPEN femur fracture group with 14.

TIBIA

At the 91-180 day time point, CLOSED tibia RUS was significantly higher than for BT and OPEN tibia RUS. At 181-270 days, CLOSED tibia RUS was significantly higher than OPEN tibia. At 271-365 days and >365, CLOSED and BT RUS were significantly higher than OPEN RUS.Femur: At the 91-180 day time point, OPEN femur RUS was significantly lower than CLOSED and BT femur RUS. At later timepoints, all three groups achieved union with mean RUS>10.

DISCUSSION

This study demonstrates that healing of tibial shaft fractures from BT is not significantly different from closed fractures after 180 days post-operatively. Additionally, femoral shaft fractures from a BT healed similarly to closed and open fractures after 180 days post-operatively.

LEVEL OF EVIDENCE

Prognostic Level III.

Temporal and regional trends of fractures in the United States: A review of the global burden of disease database

Background

Musculoskeletal diseases, including bone fractures, are a significant contributor to global disability. Understanding temporal and regional trends in bone fractures is crucial for effective healthcare planning and resource allocation. We sought to analyze recent epidemiological trends of different types of fractures in the United States and determine correlations and associations between fracture trends and potential influencing demographic factors (i.e. age, sex, regional-specific).

Methods

Data from the Global Burden of Disease Database were analyzed to examine fracture incidence, prevalence, and years lived with disability (YLDs). Statistical analyses were conducted to determine temporal trends and sex-based differences.

Results

The analysis revealed significant increases in hip fractures and decreases in pelvic fractures over time. Fractures of the patella, tibia, fibula, and ankle remain prevalent across all regions and sexes, with notable variations.

Conclusions

These findings underscore the importance of targeted interventions and resource allocation to address the burden of fractures on public health. Despite limitations, this study provides critical insights into fracture epidemiology, guiding future prevention and management strategies.

Clinical outcomes of Nice knot-assisted locking plate for preserving periosteum internal fixation in comminuted clavicle fractures: A retrospective study

IntroductionClavicular fractures, particularly comminuted fractures, are common injuries that can affect shoulder function and upper limb mobility. The management of these fractures, especially using surgical approaches and fixation methods, remains a key area of clinical focus. Preserving the periosteum during surgery may improve fracture healing and reduce complications. This study explored the clinical efficacy of a periosteum-preserving surgical technique combined with a Nice knot-assisted locking plate for treating comminuted clavicular fractures.MethodsA total of 85 patients with comminuted clavicular fractures were included in this retrospective study. According to the Allman classification, 56 (65.9%) cases were type IC, 19 (22.4%) were type II, 9 (10.9%) were type III, and 1 (1.1%) involved comminuted fractures across the entire clavicle. All patients underwent surgical treatment using a periosteum-preserving approach combined with a Nice knot-assisted locking plate. Fracture healing time, upper limb function (measured via Constant-Murley score and disabilities of the arm, shoulder, and hand questionnaire), and postoperative complications were assessed 6 and 12 months postoperatively.ResultsThe median healing time was 13 weeks, with no cases of nonunion reported. At 6 months postoperatively, the Constant-Murley and disabilities of the arm, shoulder, and hand scores were excellent. Although a statistically significant difference (P < 0.05) was observed in these scores between 6 and 12 months, all patients reported satisfactory recovery of shoulder function and upper limb mobility. No significant differences (P > 0.05) in fracture healing time or upper limb function recovery were observed across different types of clavicular fractures. Six (7.1%) patients experienced temporary numbness in the subclavian region, which gradually resolved by the final follow-up.ConclusionThe periosteum-preserving approach with Nice knot-assisted locking plate fixation proved to be an effective and reliable treatment for comminuted clavicular fractures. The technique was associated with favorable healing times, excellent functional outcomes, and low complication rates. Preservation of the periosteum and soft tissue during surgery may considerably reduce intraoperative trauma and improve postsurgical recovery. Further studies with larger sample sizes and longer follow-up periods are needed to confirm the long-term benefits of this approach.

The Use of the Masquelet Technique in the Treatment of Pathological Distal Third Femoral Fracture Secondary to Chronic Osteomyelitis

INTRODUCTION

Chronic osteomyelitis is a persistent infection of the bone that poses significant challenges, particularly when associated with pathological fractures and extensive bone defects. This case report highlights the application of Masquelet's induced membrane technique (MIMT) in managing a complex distal femur defect in a 50-year-old male with a long-standing history of chronic osteomyelitis. The patient presented with a non-union fracture, severe osseous destruction, and infection, requiring a multidisciplinary approach.

CASE REPORT

The first stage involved radical debridement of necrotic tissue and stabilization with a titanium plate and an antibiotic-impregnated polymethylmethacrylate spacer to induce a bioactive membrane. The second stage, performed 30 days later, after infection resolution, entailed removing the spacer, harvesting an autologous iliac crest bone graft, and filling the defect within the preserved membrane. Postoperative care included a tailored antibiotic regimen and gradual weight-bearing, leading to favorable clinical and radiological outcomes.

CONCLUSIONS

This case demonstrates the utility of MIMT in reconstructing extensive bone defects while addressing infection. The technique provides a reliable and effective alternative to amputation, offering high success rates and functional restoration in complex cases.

Bone marrow mesenchymal stem cell exosomes improve fracture union via remodeling metabolism in nonunion rat model

BACKGROUND

Nonunion of fractures is a major unsolved problem in clinical treatment and prognosis of orthopedics. Bone marrow mesenchymal stem cell (BMSC) exosomes have been proven to be involved in mediating tissue and bone regeneration in a variety of diseases. However, the role of BMSC exosomes in fracture nonunion is unclear.

METHODS

BMSC exosomes were injected into a rat model of nonunion fracture, and the fracture-healing site was detected by micro-CT and the serum metabolites were analyzed by LC-MS/MS.

RESULTS

The results showed that the exosomes could be successfully isolated from rat BMSCs cultured in an exosome-free medium. Compared with the model group, the fracture site of the exosome-treated rats were healing obviously. Compared with the PBS group, there were 158 up-regulated differential abundance metabolites (DAMs) and 79 down-regulated DAMs in the BMSC-exo group. The DAMs were enriched in 'Th1 and Th2 cell differentiation', 'ErbB signaling pathway', 'PPAR signaling pathway' and 'HIF-1 signaling pathway' that were related to the function of cell proliferation and differentiation. DAMs-PE in HIF-1 signaling pathway were the major metabolite to promote fracture healing.

CONCLUSIONS

Our study reveals the mechanism by which BMSC-exosome improves the fracture healing process through metabolic reprogramming and provides a reference for the treatment of fracture nonunion.

Distal femoral bone defect treatment using an engineered hydroxyapatite cylinder scaffold made from rattan wood

Distal femoral non-union presents significant challenges, often requiring complex treatment strategies to achieve bone healing. In this case, a young male patient with an open fracture of the distal femur developed an atrophic non-union, 9 months after initial fixation. The patient underwent surgical intervention with debridement, leading to a 2.2 cm bone defect and placement of a cylindrical synthetic bone graft (b.Bone), combined with bone marrow aspirate concentrate. This approach aimed to provide structural support and enhance biological healing. The choice of the cylindrical graft was due to its optimal fit and support for the anterior femoral cortex. Postoperative outcomes were favourable, with successful bone healing, confirmed radiologically, and restoration of function. This case demonstrates the potential of synthetic bone substitutes augmented with biological agents as a promising alternative to traditional grafts in managing complex non-unions.

Exploring the relationship between frailty and nonunion fractures in upper extremity injuries: insights from the national inpatient sample

INTRODUCTION

Frailty, a physiological decline in functional capacity, may influence nonunion risk. This study aimed to investigate the association between frailty, as measured by the modified Frailty Index-5 (mFI-5), and the likelihood of nonunion fractures of the upper extremity.

METHODS

This retrospective cohort study utilized the national inpatient sample (NIS) from 2015 to 2019. Patients aged 18 and older with upper extremity fractures, identified by ICD-10-CM codes, were included. Patients were categorized into routine healing and nonunion groups. Frailty was assessed using the mFI-5, classifying patients as robust, prefrail, frail, or severely frail. Multivariate logistic regression, controlling for age, sex, and Injury Severity Score (ISS), was performed to determine the association between frailty and nonunion.

RESULTS

The study included 21,618 patients, with 3782 presenting with nonunion fractures. The median age was 69 years, and 60.5% were female. The most common fracture types in the routine healing group were forearm (40.1%), clavicle (18.4%), and humerus (16.9%), while in the nonunion group, humerus (30.4%) and scapula (32.1%) were most common. Multivariate logistic regression showed that frail and severely frail patients had a decreased risk of nonunion (OR 0.751 and 0.705, respectively, p < 0.001). Each unit increase in mFI-5 score was associated with a decreased risk of nonunion (OR 0.868, p < 0.001). Sub-analysis revealed a decreased risk of nonunion with increasing frailty for humerus, clavicle, scapula, and phalanx fractures, but no significant association for wrist, forearm, or metacarpal fractures.

CONCLUSION

Contrary to expectations, increasing frailty, as measured by the mFI-5, was associated with a decreased risk of nonunion fractures in the upper extremity. This paradoxical finding may be due to closer medical supervision and improved treatment compliance in frail patients. Further prospective studies are needed to explore the complex interplay between frailty, treatment adherence, and fracture healing.

Identification of clinical risk factors and optimal inflammatory marker cutoffs for the diagnosis of septic nonunion at time of presentation

PURPOSE

The diagnosis of septic nonunion is difficult due to the risk of occult presentation. The purpose of this study is to identify risk factors for infection prior to nonunion surgery.

METHODS

This retrospective cohort study was completed at a single tertiary referral level one trauma center. Patients were included if they had surgery to repair a nonunion of the femur, tibia, or humerus after operative initial management. Predictors for septic nonunion were determined based on clinical, laboratory, and radiographic findings.

RESULTS

122 Patients met inclusion criteria. 28 Patients (23.0%) were diagnosed with septic nonunion. Clinical risk factors for septic nonunion diagnosis on multivariate regression included nonunion surgery performed at an outside hospital prior to referral (p = 0.003) and early infection requiring debridement within 60 days of initial injury (p = 0.01). Ideal inflammatory marker cutoffs based on ROC curves included WBC > 8.1 × 109/L (p = 0.001) and CRP > 14.1 mg/L (p = 0.001).

CONCLUSION

This study demonstrates additional clinical risk factors and re-defines cutoff values for laboratory biomarkers as predictors for diagnosis of septic nonunion. These data may help providers better identify cases of septic nonunion prior to nonunion surgery.

The Genetic and Biological Basis of Pseudoarthrosis in Fractures: Current Understanding and Future Directions

Pseudoarthrosis-the failure of normal fracture healing-remains a significant orthopedic challenge affecting approximately 10-15% of long bone fractures, and is associated with significant pain, prolonged disability, and repeated surgical interventions. Despite extensive research into the pathophysiological mechanisms of bone healing, diagnostic approaches remain reliant on clinical findings and radiographic evaluations, with little innovation in tools to predict or diagnose non-union. The present review evaluates the current understanding of the genetic and biological basis of pseudoarthrosis and highlights future research directions. Recent studies have highlighted the potential of specific molecules and genetic markers to serve as predictors of unsuccessful fracture healing. Alterations in mesenchymal stromal cell (MSC) function, including diminished osteogenic potential and increased cellular senescence, are central to pseudoarthrosis pathogenesis. Molecular analyses reveal suppressed bone morphogenetic protein (BMP) signaling and elevated levels of its inhibitors, such as Noggin and Gremlin, which impair bone regeneration. Genetic studies have uncovered polymorphisms in BMP, matrix metalloproteinase (MMP), and Wnt signaling pathways, suggesting a genetic predisposition to non-union. Additionally, the biological differences between atrophic and hypertrophic pseudoarthrosis, including variations in vascularity and inflammatory responses, emphasize the need for targeted approaches to management. Emerging biomarkers, such as circulating microRNAs (miRNAs), cytokine profiles, blood-derived MSCs, and other markers (B7-1 and PlGF-1), have the potential to contribute to early detection of at-risk patients and personalized therapeutic approaches. Advancing our understanding of the genetic and biological underpinnings of pseudoarthrosis is essential for the development of innovative diagnostic tools and therapeutic strategies.

Evenly Distributed Microporous Structure and E7 Peptide Functionalization Synergistically Accelerate Osteogenesis and Angiogenesis in Engineered Periosteum

Repairing large bone defects remains a significant clinical challenge. Stem cell is of great importance in bone regeneration, and periosteum is rich in periosteal stem cell, which has a great influence on repairing bone defects. Bioengineered periosteum with excellent biocompatibility and stem cell homing capabilities to promote bone regeneration is of great clinical significance. The E7 peptide (EPLQLKM), which exhibits a specific affinity for mesenchymal stem cells (MSCs), is beneficial for modulating cellular functions. In this study, a unique microporous structured carboxymethyl chitosan/sodium alginate membrane with a proper mass ratio is developed by the addition of Poloxam 407 （P407）, which is then functionalized with the E7 affinitive peptide. This membrane, characterized by its microporous structure and E7 peptide functionalization (CSSA/P/E), not only demonstrated favorable mechanical properties, enhanced hydrophilicity, satisfactory biodegradation profile, and excellent biocompatibility, but also synergistically enhanced MSCs recruitment. It is found to promote the proliferation, spreading, and osteogenic differentiation of MSCs in vitro and to accelerate early periosteal regeneration, bone matrix deposition, and vascularization in vivo, leading to effective regeneration of critical-sized bone defects. Overall, this study presents a robust, cell and growth factor-free strategy for bioengineering periosteum, offering a potential solution for the challenging large size bone defects.

Treatment of distal third tibial fractures with anterior soft tissue compromise through the posterolateral approach: Distal Third Tibial Fractures via the Posterolateral Approach

Distal third tibial fractures associated with anterior soft tissue compromise are a predictor of more complications and poor prognosis. The study aimed to introduce the treatment of such fractures through the posterolateral approach. From March 2020 and January 2022, 32 patients with distal third tibial fractures were plated through the posterolateral approach due to concurrent closed anterior soft tissue compromise. There were 30 male and 2 female patients with the mean age of 33 years (range, 20-53 years). The reduction quality of diaphyseal fractures was good (n=30) and acceptable (n=2). The reduction quality of articular fragments was anatomic (n=21), good (n=6), and fair (n=1). All anterior soft tissue injuries healed without surgical intervention. Follow-ups lasted 28 months (range, 25-34 months). The mean dorsiflexion of the injured and uninjured ankles were 17.8°±5.4° and 24.5°±6.6°, respectively (P<0.05). The mean plantar flexion of the ankles were 42°±8.8° and 46°±12.9°, respectively (P>0.05). The mean inversion of the injured and uninjured ankles were 15°±13.3° and 19°±12.4°, respectively (P<0.05). The mean eversion of the injured and uninjured ankles were 27.8°±16.9° and 32.9°±14.3°, respectively (P>0.05). The mean American Orthopaedic Foot and Ankle score was 90 (range, 68-100). Distal third tibial fractures with anterior soft tissue compromise can be plated through the posterolateral approach, resulting in good functional outcomes and minimum complications.

Surgical and microbiological characteristics that influence the probability of reoperation to promote bone healing after fracture-related infection diagnosis

PURPOSE

To compare the surgical and microbiological characteristics of fracture related infection (FRI) that had union and those requiring additional surgery to promote bone healing. We hypothesized that FRIs with MRSA will have higher risk for reoperation to promote bone healing.

METHODS

This is a retrospective study on 247 patients over 18 who underwent bone fixation for pelvis, upper, and lower extremities fractures between 2013 and 2021 at a level I trauma center. All cases had an FRI and at least 6 months of follow-up after diagnosis. Patients with pathologic fracture due to underlying malignancy and patients with spinal fractures were excluded. We compared surgical and microbiological characteristics of fractures between cases that required reoperation to promote bone healing and those who did not.

RESULTS

Of 247 patients, 55 (22.2%) required reoperations to promote bone healing after diagnosis of FRI. Patients that received topical antibiotics at closure during initial fixation had higher risk for reoperations to promote bone healing (30.8% vs. 15.2%, p = 0.049). Infection with Pseudomonas aeruginosa was associated with a lower risk for reoperations to promote bone healing (0%, p = 0.040). Rates of patients requiring reoperations to promote bone healing in infections with MRSA were similar to infections with MSSA (19.6% vs 20.9%, p = 1.000) and other pathogens (19.6% vs 23%; p = 0.539). Open fracture (OR 0.785, p = 0.534), tobacco use (OR 0.557, p = 0.126), upper extremity (OR 0.730, p = 0.534) or use of topical antibiotic at closure (OR 0.439, p = 0.067) did not increase risk for reoperation to promote bone healing.

CONCLUSION

Using topical antibiotics for skin closure during initial fixation for bone fractures may increase the risk of reoperation to promote bone healing, while infection with P. aeruginosa decreases the risk. Infection with MRSA or MSSA did not increase risk for requiring reoperation to promote bone healing after FRI diagnosis. Further studies should examine the impact of topical antibiotics during fracture surgery on development of FRI.

Outcomes of Patients Treated for Open Pilon Fractures at a County Hospital

INTRODUCTION

Open pilon fractures represent a challenging injury for both patients and physicians. Patients must contend with prolonged non-weightbearing, wound complications, and the possibility of post-traumatic arthritis. Surgeons also deal with a fracture which is difficult to treat and that is prone to poor outcomes. To better understand these challenging injuries and identify details that may portend better patient outcomes, we performed a retrospective review of open pilon fractures treated at a level 1 trauma county hospital by orthopedic trauma-trained surgeons.

MATERIALS AND METHODS

A search was performed for patients treated for open pilon fractures at our institution. Demographics and fracture information for each patient, as well as pre and postoperative details for each patient, were collected. We also identified complications such as infection, nonunion, and the need for additional surgeries in patients. Patients were then compared to one another, and they were also stratified according to their Gustilo-Anderson classification of open fracture to identify differences.

RESULTS

Patients in our study who sustained type 3 open injuries were older, more often required additional surgeries, sustained nonunion of their fracture, became infected or underwent amputation than patients with type 1 and 2 injuries. 20% of all patients with type 3 open injuries underwent 4 or more additional procedures, while only 13% did not require additional surgery. In contrast, over half of all patients with type 1 and 2 open injuries did not require any additional surgeries.

CONCLUSIONS

Despite following currently recommended guidelines for the treatment of open pilon fractures, these injuries are still prone to complications. Elderly patients and those with type 3 injuries are especially at high risk for negative postoperative outcomes due to the increased severity of soft-tissue damage. Further research is necessary to identify optimal protocols for these devastating injuries, especially in vulnerable populations.

LEVELS OF EVIDENCE

Level III.

Induced membrane technique for aseptic recalcitrant nonunion of the femur and tibia: Bone union and deformity correction outcomes

Introduction

Aseptic recalcitrant nonunion (ARNU) of the femur and tibia is an entity in which the absence of bony union, misalignment, and limb length discrepancies (LLD) coexist. Currently, the management of these cases lacks consensus. This study aimed to describe the bone union rate and deformity correction outcomes in patients with ARNU of the femur or tibia treated with the Induced Membrane Technique (IMT).

Methods

We retrospectively review ten consecutive patients with ARNU (eight femoral and two tibial) treated with IMT in two stages, between January 2021 and May 2023, at a single center. The median age was 47.6 years (range 28-67), with an average of 2.76 previous surgeries (range 2-5). Six were atrophic, and four were eutrophic nonunions. All had LLD ranging from 11 to 35 mm (median 23.9), with coronal or sagittal plane misalignment between 10 and 15° (median 11.8) in six cases and rotational misalignments between 10 and 30° (median 17.5) in six cases, assessed by lower limb scanograph and rotations by computed tomography (CT) scan.

Results

The median bone defect length was 43 mm (range 30-60). Treatment involved a traction table in five cases, manual traction in three, and a femoral distractor in two. Fixation in the first stage included eight intramedullary nails and two locked plates. In the second stage, we filled the defect with autograft in eight cases and mixed (auto-allograft) in two (1:1 ratio). At the end of the follow-up, 9/10 patients showed bone union (seven without additional surgeries). There was one failure due to graft resorption. LLD was wholly corrected in four cases; the remaining six had a median discrepancy of 8.16 mm (range 2-15). No patients had axial or rotational misalignment exceeding 5°.

Conclusion

The results of this study suggest that IMT is viable for complex cases such as ARNU. Manipulating the defect allowed us to achieve an acceptable bone union rate, correcting length discrepancies up to 35 mm, axial misalignment up to 15°, and rotational misalignment up to 30°.

Functional Outcomes in Aseptic Humeral Shaft Nonunion Treated With Plate Osteosynthesis: A Retrospective Cohort Study

Introduction

Aseptic nonunion is prevalent in orthopedic practice, causing persistent pain and functional impairment. Humeral shaft fractures, accounting for 3-5% of all fractures, have nonunion rates of 2-33% in nonoperative and 5-10% in surgical management. This study, the largest case series on operative management of aseptic humeral shaft nonunion (AHSN), treated with plate osteosynthesis.

Materials and methods

This retrospective study, conducted at a referral center in eastern India, included 132 patients with aseptic humeral shaft nonunion from May 2002 to April 2012 and May 2015 to December 2020. Patients aged 20-70 years with nonunion more than 6 months post-trauma were included. Exclusions were open fractures, infections, gap nonunions, pathologic fractures, and concomitant upper limb injuries. Surgical techniques involved excising fibrous and unhealthy tissue, compressing the nonunion site, decorticating, shingling, autologous bone grafting, and stable fixation with dynamic or locking compression plates. Outcomes were assessed using Quick DASH, VAS, Constant Shoulder score at a minimum follow-up of 24 months.

Results

The study included 132 patients, 84 males and 48 females, with a mean age of 42.3 years. Fractures were due to high-energy trauma in 78 cases and low-energy trauma in 54 cases. All patients with atrophic type of AHSN received autologous bone grafts and plating techniques. Quick DASH scores improved from 77 to 5 on average. Constant Shoulder score improved from 22 to 88 and VAS score improved from 6.7 to 1.3. Union was achieved in 21 weeks on an average, with minimal complications. Despite variations in time intervals, treatments, and follow-up durations, consistent management strategies emphasize stable fixation, bone grafts, and careful management of complications to achieve high union rates and satisfactory outcomes. Complications included seven infections, one failure needed refixation and two case of transient radial nerve palsy.

Conclusion

Absolute stability using plate with or without autologous bone grafting for aseptic humeral shaft nonunion results in high union rates and satisfactory radiologic and functional outcome.

Comparison of Single-Stage and Dual-Stage Approaches for Nonunion Repair in the Absence of Evident Infections

OBJECTIVES

The aim of the study was to determine if routine dual-stage nonunion repair (DSR) surgery leads to better outcomes than single-stage nonunion (SSR) repair surgery in fracture nonunions without evident clinical or laboratory signs of infection.

METHODS

DESIGN

Retrospective comparison study.

SETTING

Level 1 Trauma Center affiliated with an academic teaching hospital.

PATIENT SELECTION CRITERIA

Skeletally mature patients diagnosed with fracture nonunion between June 2013 and January 2022 were included. Patients with previous nonoperative treatment, definitive external fixation, previous or current diagnosis of fracture-related infection, or <12 months of follow-up were excluded.

OUTCOME MEASURES AND COMPARISON

Patient characteristics and details of the primary and the revision surgery were recorded. Comparison of the primary outcome measures, fracture-related infection, recalcitrant nonunion, and implant failures was performed between SSR and DSR groups.

RESULTS

A total of 113 patients met the eligibility criteria. Eighty-six patients (mean age 44.8 years, range 17-80 years, 64% men) underwent SSR, while 27 patients (mean age 50.8 years, range 21-77 years, 52% men) underwent DSR. Seventy-six percent underwent SSR and 24% underwent DSR. Baseline characteristics were similar between groups (open fractures, P = 0.918; smoking, P = 0.86; lower limb fractures, P = 0.238; diabetes, P = 0.503; erythocyte sedimentation rate, P = 0.27; C-reactive protein, P = 0.11; age, P = 0.11; Charlson comorbidity index, P = 0.06) except for a higher rate of DSR in cases initially treated elsewhere ( P = 0.015) and in obese patients ( P = 0.044). Bone grafting was more frequent in DSR using plates ( P = 0.030). No significant differences were observed in subsequent infections (6.97% vs. 7.41%, P = 0.939), persistent nonunion (28.2% vs. 14.81%, P = 0.169), or implant failure (19.76% vs. 22.22%, P = 0.782) between SSR and DSR.

CONCLUSIONS

No difference was found in infection, recalcitrant nonunion, and implant failure between SSR and DSR for nonunions without overt signs of infection. The study challenges the routine use of DSR, questions the necessity of subjecting patients to 2 surgical procedures, and advocates for a more judicious approach in the absence of overt fracture-related infection in a fracture nonunion.

LEVEL OF EVIDENCE

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

Intraoperative frozen section analysis for detection of fracture-related infection in nonunion of the upper limb. Diagnostic accuracy study

INTRODUCTION

During revision surgery for the management of patients presenting with long-bone upper extremity nonunion, it is crucial to rule out fracture-related infection (FRI). This is especially true if there are clinical signs suggestive of FRI, or if there is a history of prior FRI, open wound fracture, or surgery. This study aimed to determine the efficacy of frozen section analysis (FSA) in providing real-time diagnosis of FRI in patients with upper-limb long-bone nonunion undergoing revision surgery.

PATIENTS AND METHODS

We included previously surgically treated patients who underwent revision surgery for chronic/late-onset nonunion of the long bones of the upper limbs over a 9-year period. We retrospectively applied the FRI criteria to identify eligible patients and recorded their clinical features and demographic characteristics. In all included patients, samples for microbiological analysis and FSA were collected simultaneously during revision surgery. Patients were categorized according to intraoperative culture results as having aseptic or infected nonunion. The sensitivity, specificity, positive and negative predictive values, and accuracy of FSA test were calculated and compared using microbiological analysis as the reference standard test. The concordance rate between FSA and definitive histopathology was also determined.

RESULTS

Sixty-two patients who were surgically treated for nonunion of the arm or forearm were included in this study. Septic nonunion was diagnosed intraoperatively in 9 patients based on FSA findings, while microbiological analysis confirmed septic nonunion in 8 patients. The sensitivity and specificity of FSA were 88 % (95 % confidence interval [CI] [47, 100]) and 96 % (95 % CI [87, 100]), respectively. Positive and negative predictive values were 78 % (95 % CI [47, 93]) and 98 % (95 % CI [89, 100]), respectively, with an overall test accuracy of 95 % (95 % CI [87, 99]). Cohen's Kappa coefficient between FSA and definitive histopathology was 0.74 (95 % CI [0.5, 1]).

CONCLUSIONS

FSA showed high sensitivity and specificity for the detection of active infection during revision surgery for nonunion of the upper limb. Owing to its high negative predictive value, it can reliably rule out active infections during revision surgery. Since the results are obtained immediately during revision surgery, this approach offers the significant advantage of enabling real-time decision-making.

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.

Salvianolic acid A promotes bone-fracture healing via balancing osteoblast and osteoclast differentiation

Nonunion is a significant complication in fracture management for surgeons. Salvianolic acid A (SAA), derived from the traditional Chinese plant Salviae miltiorrhizae Bunge (Danshen), exhibits notable anti-inflammatory and antioxidant properties. Although studies have demonstrated its ability to promote osteogenic differentiation, the exact mechanism of action remains unclear. This study investigated the effects of various SAA concentrations on the osteogenic differentiation of mouse-derived bone marrow mesenchymal stem cells (mBMSCs) and the osteoclastic differentiation of bone marrow-derived macrophages. Our findings indicate that SAA promotes the osteogenic differentiation of mBMSCs in a concentration-dependent manner, primarily by inhibiting the Notch1 signaling pathway. Notably, the administration of two Notch1 agonists (Jagged-1 and VPA) inhibited the effects of SAA on osteogenic differentiation. Additionally, SAA facilitated the autophagic degradation of NICD1, further enhancing osteogenic differentiation. Furthermore, SAA also dose-dependently inhibited the osteoclastic differentiation of bone marrow-derived macrophages, which is linked to its suppression of NF-κB signaling pathways. In a fracture model, SAA demonstrated a capacity to promote healing. In conclusion, SAA enhances bone fracture healing by balancing osteoblast and osteoclast differentiation.

No bones about it: regulatory T cells promote fracture healing

Regulatory T cells (Tregs) are increasingly being recognized for their role in promoting tissue repair. In this issue of the JCI, Chen et al. found that Tregs at the site of bone injury contribute to bone repair. The CCL1/CCR8 chemokine system promoted the accumulation of Tregs at the site of bone injury, where Tregs supported skeletal stem cell (SSC) accumulation and osteogenic differentiation. CCL1 increased the transcription factor basic leucine zipper ATF-like transcription factor (BATF) in CCR8+ Tregs, which induced the secretion of progranulin that promoted SSC osteogenic function and new bone formation. This study highlights the ever-expanding role of Tregs in tissue repair by demonstrating their ability to expand stem cells at a site of injury.

Developing a Risk Score for Predicting Multiple Revision Surgeries in Patients With Fracture-Related Infections

INTRODUCTION

Postoperative infections are a leading cause of morbidity following fracture repair. The purpose of this study is to develop a risk score predicting fracture-related infection (FRI) that will require one versus multiple revision surgeries related to infection eradication and bone healing.

METHODS

This is a retrospective cohort study conducted at a single level I trauma center from 2013 to 2020. Adults with FRIs were identified through review of an institutional database on musculoskeletal infections maintained jointly by the infectious disease division and the orthopaedic surgery department. Inclusion criteria were surgically managed fracture of the humerus, olecranon, radius/ulna, clavicle, pelvis, femur, tibia/fibula, and calcaneus with an FRI and adequate documentation present in the electronic medical record. Exclusion criteria included infected chronic osteomyelitis from a non-fracture-related pathology and follow-up less than 6 months. Risk factors leading to multiple surgeries in FRIs, including demographics, comorbidities, injury characteristics, perioperative data, and microbiology, were recorded. Logistic regression was done to select variables predictive of multiple revision surgeries. Four prespecified methods of covariate selection were used.

RESULTS

Eighty-eight patients underwent one FRI revision surgery, whereas 208 patients underwent two or more revision surgeries. From multivariable logistic regression, age older than 45 years (P < 0.001), purulent drainage at infection presentation (P < 0.001), and incomplete bone union at infection presentation (P = 0.013) were all markedly associated with multiple revision surgeries. The model of best fit was used to generate the risk score (area under ROC curve = 0.789). Variables included in the final risk score were age ≥ 45 years, purulent drainage, incomplete bony union, and wound dehiscence at infection presentation.

CONCLUSION

This study described a risk score for predicting multiple revision surgeries in patients with infection following fracture repair. Age older than 45 years, purulent drainage, and incomplete bony union at infection presentation were all markedly associated with multiple infection revision surgeries.

LEVEL OF EVIDENCE

III.

Effect of Ketorolac Administration on the Rate of Nonunion of Operatively Treated Pediatric Long-Bone Fractures: A Matched Cohort Analysis

BACKGROUND

Nonunion is a rare yet serious complication in pediatric fracture healing that can lead to patient morbidity and economic burden. The administration of nonsteroidal anti-inflammatory drugs (NSAIDs) has been associated with an increased risk of fracture nonunion in adults, but data are lacking in the pediatric population. This study examines the relationship between postoperative ketorolac administration and nonunion in operatively managed pediatric long-bone fractures.

METHODS

A retrospective cohort study was conducted with use of TriNetX, a research network that encompasses data from the United States, Canada, and Western Europe. A total of 462,260 patients from 52 health-care organizations met the inclusion criteria. Patients <18 years old with operatively managed upper or lower-extremity long-bone fractures were included. The exposure of interest was ketorolac administration within 30 days postoperatively between 2003 and 2023. Nonunion was identified and verified with use of the pertinent medical codes. Absolute risks and hazard ratios (HRs) were calculated for both study groups. Significance was set at p < 0.05.

RESULTS

After propensity score matching, 48,778 patients were identified per group. The incidence of nonunion was 2.19% in the ketorolac group and 0.93% in the non-ketorolac group (HR, 2.71; 95% confidence interval [CI]: 2.46, 3.21; p < 0.0001). Subgroup analyses demonstrated a higher risk of nonunion in patients with lower-extremity fractures (HR, 3.45; 95% CI: 3.14, 3.75; p < 0.0001) than in those with upper-extremity fractures (HR, 2.11; 95% CI: 1.84, 2.32; p < 0.0001). Among the fracture location subgroups, the greatest HR for nonunion was observed in patients with femoral fractures, followed sequentially by those with tibial and/or fibular fractures, humeral fractures, and radial and/or ulnar fractures.

CONCLUSIONS

To our knowledge, this is the largest study to date to explore postoperative ketorolac use and nonunion in the setting of operatively managed pediatric long-bone fractures. Nonunion in children was rare, occurring in <1% of all included patients. Ketorolac administration was associated with a 2 to 3-fold increase in nonunion risks, with pronounced implications for patients with lower-extremity fractures, particularly those with femoral fractures. Clinicians should weigh the therapeutic advantages of non-opiate analgesia with ketorolac against the risk of nonunion in order to optimize postoperative pain management and recovery.

LEVEL OF EVIDENCE

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

Marginal bone resection and immediate internal fixation in multidrug resistant chronic septic nonunions of lower limb long bones: a case series

PURPOSE

This study aimed to evaluate the efficacy of a combined treatment approach integrating extensive debridement, immediate internal fixation, and the Masquelet technique for the management of infected nonunion of long bones in the lower limbs caused by multidrug-resistant (MDR) and extensively drug-resistant (XDR) bacteria.

METHODS

This retrospective case series was conducted at the Imam Khomeini Hospital Complex, Tehran, Iran, a tertiary-level academic referral centre. The study documented consecutive cases of patients presenting with infected nonunion of the tibia or femur, with a positive culture for MDR or XDR bacteria, treated between January 2019 and December 2022. Inclusion criteria were adults with a confirmed diagnosis of infected nonunion due to MDR or XDR bacteria, with exclusion criteria including patients with unrelated infections or allergies to the components of the treatment regimen. The primary outcomes measured were infection resolution and bone healing.

RESULTS

The study cohort comprised 16 patients, predominantly male (87.5%) with an average age of 38.5 years. Methicillin-resistant Staphylococcus aureus (MRSA) was identified as the causative agent in 31.25% of the infections. Patients were followed for a period ranging from 12 to 26 months. The treatment protocol was uniformly applied across all cases. Successful bone union was observed in the majority of patients within 140 to 240 days following grafting. However, there were two instances where amputation was necessitated due to the failure to eradicate the infection. Complications arose in three cases during the follow-up period: two required re-debridement due to a recurrence of the infection, and one was subjected to bone transport owing to persistent nonunion. Notably, all cases that either failed or encountered complications were smokers.

CONCLUSIONS

In this integrated approach, high rates of infection resolution and bone healing were achieved, suggesting this method as a viable option for these complex cases.

Harnessing Mesenchymal Stromal Cells for Advanced Wound Healing: A Comprehensive Review of Mechanisms and Applications

Chronic wounds and injuries remain a substantial healthcare challenge, with significant burdens on patient quality of life and healthcare resources. Mesenchymal stromal cells (MSCs) present an innovative approach to enhance tissue repair and regeneration in the context of wound healing. The intrinsic presence of MSCs in skin tissue, combined with their roles in wound repair, ease of isolation, broad secretory profile, and low immunogenicity, makes them especially promising for treating chronic wounds. This review explores the current landscape of MSC application, focusing on preclinical and clinical data across chronic wounds, diabetic ulcers, burns, non-union bone fractures, lower extremity venous ulcers, pressure ulcers, and genetic skin conditions like epidermolysis bullosa. Special emphasis is given to the mechanisms through which MSCs exert their regenerative effects, underscoring their potential in advancing wound healing therapies and supporting the broader field of regenerative medicine.

Biomaterials for bone tissue engineering: achievements to date and future directions

Advancement in medicine and technology has resulted into prevention of countless deaths and increased life span. However, it is important to note that, the modern lifestyle has altered the food habits, witnessed increased life-style stresses and road accidents leading to several health complications and one of the primary victims is the bone health. More often than ever, healthcare professionals encounter cases of massive bone fracture, bone loss and generation of critical sized bone defects. Surgical interventions, through the use of bone grafting techniques are necessary in such cases. Natural bone grafts (allografts, autografts and xenografts) however, have major drawbacks in terms of delayed rehabilitation, lack of appropriate donors, infection and morbidity that shifted the focus of several investigators to the direction of synthetic bone grafts. By employing biomaterials that are based on bone tissue engineering (BTE), synthetic bone grafts provide a more biologically acceptable approach to establishing the phases of bone healing. In BTE, various materials are utilized to support and enhance bone regeneration. Biodegradable polymers like poly-(lactic acid), poly-(glycolic acid), and poly-(ϵ-caprolactone) are commonly used for their customizable mechanical properties and ability to degrade over time, allowing for natural bone growth. PEG is employed in hydrogels to promote cell adhesion and growth. Ceramics, such as hydroxyapatite and beta-tricalcium phosphate (β-TCP) mimic natural bone mineral and support bone cell attachment, withβ-TCP gradually resorbing as new bone forms. Composite materials, including polymer-ceramic and polymer-glasses, combine the benefits of both polymers and ceramics/glasses to offer enhanced mechanical and biological properties. Natural biomaterials like collagen, gelatin, and chitosan provide a natural matrix for cell attachment and tissue formation, with chitosan also offering antimicrobial properties. Hybrid materials such as decellularized bone matrix retain natural bone structure and biological factors, while functionalized scaffolds incorporate growth factors or bioactive molecules to further stimulate bone healing and integration. The current review article provides the critical insights on several biomaterials that could yield to revolutionary improvements in orthopedic medical fields. The introduction section of this article focuses on the statistical information on the requirements of various bone scaffolds globally and its impact on economy. In the later section, anatomy of the human bone, defects and diseases pertaining to human bone, and limitations of natural bone scaffolds and synthetic bone scaffolds were detailed. Biopolymers, bioceramics, and biometals-based biomaterials were discussed in further depth in the sections that followed. The article then concludes with a summary addressing the current trends and the future prospects of potential bone transplants.

Nonunion of Fractures: A Review of Epidemiology, Diagnosis, and Clinical Features in Recent Literature

Understanding the etiology of nonunion is crucial to its effective management. Nonunion arises from a complex interplay of biological and mechanical factors. High-velocity injuries, which are becoming more prevalent, often involve extensive soft-tissue damage and stripping compromises the vascularity of bone fragments. The lack of adequate blood supply hampers the healing process and contributes to persistence of nonunion. Such injuries often result in high levels of contamination and persistent infections, making fractures particularly difficult to manage and leading to nonunion. Despite recent advances in medical techniques and interventions, managing the problem of nonunion still remains a formidable challenge. Much effort has gone into the understanding of the problem. With this review, we have made an attempt to correlate some of the known factors and looked at the future including the possible role of genetics in predicting the problem and modifying the outcome of nonunion.

Management of Distal Femoral Non-union: A Systematic Review

Introduction

Managing distal femur fracture nonunion is complex, with unpredictable results. The present investigation systematically updates current evidence, reviews existing modalities, innovations and related outcomes, and discusses future perspectives on the management of nonunion of the distal femur.

Methods

This study was conducted according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses: the 2020 PRISMA statement. In April 2024, PubMed, Web of Science, Google Scholar, and Embase were accessed without time constraints. No additional filters were used in the database search. All the clinical studies investigating treatment options for nonunion of distal femur fractures were accessed.

Results

35 clinical studies (832 patients) were included. Of them, 34.2% (239 of 698 patients) reported an open fracture, and 24.5% (78 of 319 patients) reported infection at the fracture site. The mean length of the follow-up was 28.9 ± 13.2 months. The mean age of the patients was 53.8 ± 14.7 years.

Conclusion

84.5% (703 of 832) of patients reached complete union without major complications, and 3.8% (32 of 832) reached complete union with major complications at a mean of 21.7 ± 20.9 months. 8.7% (72 of 832) patients showed signs of persistent non-union.

Level of evidence

Level III, systematic review.

Supplementary Information

The online version contains supplementary material available at 10.1007/s43465-024-01205-4.

Bioinformatics Analysis and Experimental Validation of Differential Genes and Pathways in Bone Nonunions

Non-union fractures pose a significant clinical challenge, often leading to prolonged pain and disability. Understanding the molecular mechanisms underlying non-union fractures is crucial for developing effective therapeutic interventions. This study integrates bioinformatics analysis and experimental validation to unravel key genes and pathways associated with non-union fractures. We identified differentially expressed genes (DEGs) between non-union and fracture healing tissues using bioinformatics techniques. Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analyses were employed to elucidate the biological processes and pathways involved. Common DEGs were identified, and a protein-protein interaction (PPI) network was constructed. Fibronectin-1 (FN1), Thrombospondin-1 (THBS1), and Biglycan (BGN) were pinpointed as critical target genes for non-union fracture treatment. Experimental validation involved alkaline phosphatase (ALP) and Alizarin Red staining to confirm osteogenic differentiation. Our analysis revealed significant alterations in pathways related to cell behavior, tissue regeneration, wound healing, infection, and immune responses in non-union fracture tissues. FN1, THBS1, and BGN were identified as key genes, with their upregulation indicating potential disruptions in the bone remodeling process. Experimental validation confirmed the induction of osteogenic differentiation. The study provides comprehensive insights into the molecular mechanisms of non-union fractures, emphasizing the pivotal roles of FN1, THBS1, and BGN in extracellular matrix dynamics and bone regeneration. The findings highlight potential therapeutic targets and pathways for further investigation. Future research should explore interactions between these genes, validate results using in vivo fracture models, and develop tailored treatment strategies for non-union fractures, promising significant advances in clinical management.

Operative Management of Aseptic Humeral Shaft Nonunion: A Retrospective Study from Eastern India

Aseptic nonunion is prevalent in orthopedic practice, causing persistent pain and functional impairment. Humeral shaft fractures, accounting for 3-5% of all fractures, have nonunion rates of 2-33% in nonoperative and 5-10% in surgical management. This study, the largest case series on operative management of humeral shaft nonunion, examines surgical techniques and outcomes. This retrospective study, conducted at a referral center in eastern India, included 132 patients with aseptic humeral shaft nonunion from 2002 to 2020. Cases were from May 2002 to April 2012 and May 2015 to December 2020. Patients aged 20-70 years with nonunion more than 6 months post-trauma were included. Exclusions were open fractures, infections, gap nonunions, pathological fractures, and concomitant upper limb injuries. Surgical techniques involved excising fibrous and unhealthy tissue, compressing the nonunion site, decorticating, shingling, autologous bone grafting, and stable fixation with dynamic or locking compression plates. Outcomes were assessed using DASH, VAS, and constant shoulder score scores at a minimum follow-up of 24 months. The study included 132 patients, 84 males and 48 females, with a mean age of 42.3 years. Fractures were due to high-energy trauma in 78 cases and low-energy trauma in 54 cases. All patients received autologous bone grafts and plating techniques. Quick DASH scores improved from 77 to 5 on average. Union was achieved in 21 weeks on average, with minimal complications. Despite variations in time intervals, treatments, and follow-up durations, consistent management strategies emphasize stable fixation, bone grafts, and careful complication management to achieve high union rates and satisfactory outcomes. Complications included seven infections, one failure needed refixation and one case of transient radial nerve palsy. Absolute stability using a plate with or without autologous bone grafting for aseptic humeral shaft nonunion results in high union rates and satisfactory radiological and functional outcome.

Hypertrophic nonunion management with distraction osteogenesis: a scoping review of the literature

Introduction

Traditionally, stiff hypertrophic nonunions have been managed with open preparation of the nonunion site, which is then secured with internal fixation. Alternative surgical options are available including distraction osteogenesis with an external fixator. There is currently a limited amount of literature pertaining to the use of distraction osteogenesis in the management of hypertrophic nonunion. The aim of this systematic review was to collate and assess the effectiveness of distraction osteogenesis (DO) in the management of hypertrophic nonunions and to evaluate the complications that are commonly reported in the literature.

Methods

We searched for articles pertaining to the treatment of hypertrophic nonunion using distraction osteogenesis. Several electronic bibliographic databases and clinical trial registries were searched using the MeSH terms "hypertrophic non-union," "distraction osteogenesis," "stiff non-union," and "External Fixation" in various combinations to return the maximal number of studies for review. We performed a systematic review and identified a total of 11 studies eligible for review.

Results

The review of the literature demonstrated that this technique is highly effective in achieving bony union with minimal complications. The most common complication is mild superficial pin site infections, usually managed with oral antibiotics and effective wound hygiene. Other complications reported were deep pin tract infections, broken hardware, and deformity recurrence due to collapse of regenerate bone.

Conclusion

The use of distraction osteogenesis with external fixator devices is an effective and safe method for producing bony union in hypertrophic nonunions. There were minimal associated complications.

Double plating and iliac crest bone graft can safely fix femoral shaft nonunion

Introduction Femoral shaft nonunion can be extremely vexing and result in significant morbidity. We aimed to evaluate the outcomes of patients with nonunion of the femoral shaft fracture undergoing double plating and bone grafts from the iliac crest and femoral canal. Methods This retrospective study included 44 patients with femoral shaft nonunion between March 2020 to March 2022. Patients underwent dual plating, bone grafting from the iliac crest, and the utilization of the femoral canal. Age, sex, body mass index (BMI), the two surgical interventions interval, union time after the second surgery, hip range of motion (ROM), limb length discrepancy (LLD), infections, and deep vein thrombosis (DVT) were evaluated. Results Patients comprised 21 males (47.7%) and 23 females (52.3%), with a mean age of 42.3 ± 15.2 years. The mean BMI was 26.7 ± 3.77 kg/m2. The mean duration between the two surgical interventions for the patients was 17.07 ± 6.6 months. The patients were followed for ≥ 12 months. All patients achieved successful union and fracture healing, with an average time of 5 months. The mean hip flexion and extension were 112.84 ± 7.7˚ and 14.8 ± 5.2˚ degrees, respectively. Thirteen patients showed LLD after the first surgery, with a mean LLD of 7.15 ± 5.04 millimeters. LLDs were successfully rectified in all patients following the surgical intervention. No patients experienced postoperative infections or DVT. Conclusion According to our findings, the utilization of double-plate fixation in combination with iliac crest and femoral canal bone graft has proven to be a secure, productive, and straightforward surgical alternative for the management of femoral nonunion.

Magnesium degradation-induced variable fixation plates promote bone healing in rabbits

BACKGROUND

Both initial mechanical stability and subsequent axial interfragmentary micromotion at fracture ends play crucial roles in fracture healing. However, the conversion timing of variable fixation and its effect on and mechanism of fracture healing remain inadequately explored.

METHODS

A magnesium degradation-induced variable fixation plate (MVFP) for femurs was designed, and its conversion timing was investigated both in vitro and in vivo. Then, locking plates and MVFPs with and without a magnesium shim were implanted in rabbit femur fracture models. X-ray photography and micro computed tomography (micro-CT) were performed to observe the healing of the fracture. Toluidine blue and Masson's trichrome staining were performed to observe new bone formation. The torsion test was used to determine the strength of the bone after healing. Finally, reverse transcription-polymerase chain reaction (RT-PCR) and western blotting were used to detect the expression of osteogenesis-related genes in the three groups.

RESULTS

The MVFP with sample 3 magnesium shim showed greater axial displacement within 15 days in vitro, and its variable capability was likewise confirmed in vivo. X-ray photography and micro-CT indicated increased callus formation in the variable fixation group. Toluidine blue and Masson's trichrome staining revealed less callus formation on the rigid fixation side of the locking plate, whereas the variable fixation group presented more callus formation, more symmetrical intraosseous calli, and greater maturity. The torsion test indicated greater torsional resistance of the healed bone in the variable fixation group. RT-PCR and western blotting revealed that the expression levels of BMP2 and OPG increased during early fracture stages but decreased in late fracture stages, whereas RANKL expression showed the opposite trend in the variable fixation group.

CONCLUSIONS

MVFP promoted faster and stronger bone healing in rabbits, potentially by accelerating the expression of BMP2 and modulating the OPG/RANKL/RANK signaling axis. This study offers valuable insights for the clinical application of variable fixation technology in bone plates and contributes to the advancement of both internal fixation technology and theory.

LEVEL OF EVIDENCE

level V.

Management of aseptic nonunions of bicondylar tibial plateau fractures

PURPOSE

Nonunion of bicondylar tibial plateau (BTP) fractures following open reduction internal fixation (ORIF) is rare but challenging. We report a case series of aseptic BTP nonunions, approaches to treatment, and long-term outcomes.

METHODS

Retrospective case series of aseptic nonunion in operatively treated BTP fractures. Cases with deep infection prior to a revision were excluded. Demographic, injury, and initial fixation characteristics were collected. Clinical course following diagnosis of nonunion was reviewed. Revision operation characteristics, timing, and outcomes were recorded.

RESULTS

13 patients with aseptic nonunion were identified from 508 BTP fractures. Mean (SD) follow-up was 5.2 years (4.6) from the first revision operation for nonunion. Nine patients underwent revision ORIF, which led to union in 6/9 cases. Two patients had total knee arthroplasty (TKA) performed as the initial revision operation for nonunion. One patient was treated with bone grafting without revision of implants and one patient was lost to follow-up after diagnosis of nonunion. Three patients subsequently had TKA performed following failed revision ORIF. In total 5/13 patients underwent TKA.

CONCLUSIONS

Revision ORIF of aseptic nonunion of a BTP fracture often leads to successful union. However, TKA may be utilized in select cases and at a higher rate than in primary tibial plateau fractures.

Nonunion in Foot and Ankle Arthrodesis Surgery: Review of Risk Factors, Identification of High-risk Patients, and a Guide to Perioperative Testing and Optimization

Foot and ankle arthrodesis surgery is often associated with high rates of nonunion ranging from 8% to 40%. This complication can result in individual patient burden and system burden in the management of these complex patients. Biologic factors contribute greatly to the development of a nonunion, including patient-related modifiable risk factors, metabolic and endocrine factors, systemic disease, previous surgeries, medications, weight loss treatments, and posttraumatic and postsurgical factors. Despite the high nonunion rate, there is a lack of high-level evidence in the identification of high-risk patients, strategies to minimize nonunion, and the management of patients with nonunion. An accepted standard of practice has not been established. This review aims to provide foot and ankle surgeons with (1) a comprehensive review of risk factors for nonunion, (2) a tool to identify high-risk patients using a preoperative patient questionnaire, (3) a clinical practice guide to preoperative and intraoperative testing that aims to improve preoperative counselling and patient optimization, and (4) perioperative strategies to minimize nonunion risk. With the above framework, our goal is to minimize nonunion risk in patients undergoing foot and ankle arthrodesis surgery to improve patient care and outcomes.

Long-term patient reported outcomes after revision surgery for lower extremity nonunion: A retrospective cohort study

INTRODUCTION

Ongoing lower extremity long-bone nonunion is a devastating condition and associated with substantial patient morbidity. There is limited evidence regarding physical and mental function after surgical management of lower extremity nonunions. The purpose of this study was to assess general physical and mental health and lower extremity specific physical function of patients that underwent surgery for a lower extremity long-bone nonunion.

METHODS

One-hundred and twenty-four adult patients who underwent successful surgical management for a lower extremity long-bone nonunion between June 2002 and December 2021 were evaluated at an average follow-up of 8.6 years (interquartile range [IQR]: 4 - 12). General physical and mental health was assessed with the Short-Form 12 (SF-12) physical (PCS) and mental (MCS) component summaries, and lower extremity specific physical function with the Lower Extremity Functional Scale (LEFS). Multivariable linear regression was performed to identify variables that were independently associated with outcomes.

RESULTS

The median LEFS was 50 (IQR: 37 - 63) and the median SF-12 PCS was 43 (IQR: 33 - 52), which are both lower than normative population scores (LEFS: 77 and PCS: 51, p < 0.0001). The median SF-12 MCS was 50, which was comparable to the normative population score of 51 (p < 0.0001). The number of previous surgeries before the index nonunion treatment (p = 0.018 and p = 0.041) and the number of revision surgeries after the index nonunion treatment (p = 0.022 and p = 0.041) were associated with lower LEFS and SF-12 PCS scores.

CONCLUSION

At an average of 8.6 years after lower extremity nonunion surgery that led to bone healing, patients continue to report lower general and lower extremity specific physical functioning compared to the normative population. The number of surgical attempts to obtain definitive healing was associated with compromised physical function scores. Mental health scores may return close to normative population scores. These results can be used to inform patients and guide treatment strategies and healthcare policies.

Scientometric analysis of global research on delayed and nonunion of fractures (2004-2023): Insights from the Web of Science core collections

BACKGROUND AND AIMS

Nonunion of fractures continue to be the most challenging complication. The increased interest in this area has been anecdotally recognized through published research. The study aimed to conduct a comprehensive bibliometric analysis of global research on nonunion and delayed union of fractures to identify key trends, hotspots, and potential areas for future research development.

METHODS

Using a pre-defined search strategy, articles related to "Nonunion and Delayed Union of Fractures" that were published from January 1st, 2004 to December 31st, 2023, were retrieved from the Web of Science Core Collection for scientometric analysis. The bibliometrics method was used to analyze the publication dates, countries, institutions, journals, authors, highly cited literature and research hotspots.

RESULTS

A total of 1997 publications were identified, which registered an average of 21.42 citations per paper (CPP). The 30.39 % and 3.55 % of the 1997 global publications have received external funding support and were highly-cited papers, respectively. The USA, China and UK, were the most productive countries, while Canada, Scotland, and Belgium registered the highest citation impact. University Leeds, Shanghai Jiao Tong University and Kobe University were the most productive organizations, while Vanderbilt University, University of Edinburgh and University Leeds registered the highest citation impact. Giannoudis PV, Egol KA, and Konda SR were the most productive authors, while Bhandari M, Mehta S, and Schemitsch EH registered the highest citation impact. Injury, Journal of Orthopaedic Trauma and Archives of Orthopaedic and Trauma Surgery contributed the most papers, while Journal of Bone and Joint Surgery-American, Injury and Clinical Orthopaedics and Related Research registered the highest citation impact per paper.

CONCLUSION

The present bibliometric analysis shows the characteristics and trends of non-union fracture research and illuminates the current research situation and developmental trends.

Assessing diagnostic accuracy: 18F-FDG PET-CT scans in low-grade infection detection among post-traumatic long bone non-unions; a literature review and clinical data

INTRODUCTION

The diagnosis of low-grade infection in post-traumatic long bone non-unions poses challenges due to the absence of clinical signs. This study aimed to review the available literature on the diagnostic accuracy of imaging techniques for low-grade infections and assess the diagnostic accuracy of 18F-FDG PET-CT scans for low-grade infection in post-traumatic long bone non-unions.

METHODS

A mini-review was conducted using Pubmed in March 2024. A retrospective study was conducted including adult patients with a long bone non-union, suspected of infection. All patients underwent 18F-FDG PET-CT scans as the index test before surgical intervention, with peri‑operative cultures obtained during surgery serving as the reference standard. Quantitative analyses were performed on the standardized uptake value (SUV) measurements obtained from the 18F-FDG PET-CT scans. Diagnostic accuracy measures including sensitivity, specificity, positive predictive value (PPV), and negative predictive value (NPV) were calculated. Receiver operating characteristic (ROC) curve analysis was employed to evaluate the discriminatory ability of SUV measurements.

RESULTS

Literature suggests that 18F-FDG PET-CT is the most accurate imaging technique to detect low-grade infections. The study included a total of 51 18F-FDG PET-CT scans and cultures from 50 patients with long bone non-unions. The diagnostic accuracy was found to be 0.67 (95 % CI 0.44-0.87). The PPV and NPV were calculated as 0.79 (95 % CI 0.53-1.00) and 0.52 (95 % CI 0.30-0.73), respectively. Quantitative analyses of SUV measurements demonstrated a low level of accuracy, with all area under the curve (AUC) values < 0.75 and ROC curves showing a trajectory fairly parallel to the diagonal line.

CONCLUSION AND DISCUSSION

The findings of this study indicate that in post-traumatic long bone non-unions, where a low-grade fracture-related infection (FRI) is suspected, the 18F-FDG PET-CT has a performance that is advantageous over other imaging techniques. A careful interpretation of the scan results is warranted, possibly including the quantitative analysis on tracer uptake as an adjunct. Nevertheless, the diagnostic accuracy in this condition is not as good as in early-onset FRI cases, and this should be taken into account when treating these challenging cases.

Timing of debridement: When to do it, and who should perform it?

The timely and effective management of open fractures continues to be a challenge in modern orthopaedic practice. Lower limb high energy fractures with complex soft tissue injuries require multi-disciplinary care to achieve the best results. Despite an extensive published literature on open fractures, the timing of debridement and the most appropriate personnel to perform it continue to be a source of debate. National guidelines on the topic are few but they suggest immediate debridement for open fractures with highly contaminated wounds and debridement within 12 to 24 h is considered desirable for less contaminated wounds. There is actually limited evidence linking timing of debridement to infection risk but the largest studies recently published do indicate a link between delay to debridement and increasing infection risk. Most studies on management are based on a clinical model where the initial debridement and fixation are performed by an orthopaedic surgeon and if required delayed coverage and closure is subsequently carried out by a plastic surgeon. More recently, studies have proposed an alternative approach, with initial debridement and temporary fixation followed within 48 h with a further debridement, definitive fixation and flap cover with a combined orthoplastic team. Reported results have been favourable. This is a significant change in management and there are limited data at present to determine if this approach will improve results in the most complex open fractures.

Aging Influences Fracture Healing on the Cellular Level and Alters Systemic RANKL and OPG Concentrations in a Murine Model

Clinical complications frequently follow polytrauma and bleeding fractures, increasing the risk of delayed fracture healing and nonunions, especially in aged patients. Therefore, this study examines age's impact on fracture repair with and without severe bleeding in mice. Young (17-26 weeks) and aged (64-72 weeks) male C57BL/6J mice (n = 72 in total, n = 6 per group) are allocated into 3 groups: the fracture group (Fx) undergoes femur osteotomy stabilized via external fixator, the combined trauma group (THFx) additionally receives pressure-controlled trauma hemorrhage (TH) and Sham animals are implanted with catheter and fixator without blood loss or osteotomy. Femoral bones are evaluated histologically 24 h and 3 weeks post-trauma, while RANKL/OPG and β-CTx are measured systemically via ELISA after 3 weeks. Aging results in less mineralized bone and fewer osteoclasts within the fracture of aged mice in contrast to young groups after three weeks. Systemically, aged animals exhibit increased RANKL and OPG levels after fracture compared to their young counterparts. The RANKL/OPG ratio rises in aged Fx animals compared to young mice, with a similar trend in THFx groups. In conclusion, age has an effect during the later course of fracture healing on the cellular and systemic levels.

Extracorporeal shock wave therapy in treating ischial non-union following Bernese periacetabular osteotomy: A case report

BACKGROUND

Extracorporeal shock wave therapy (ESWT) is increasingly being recognized as an advantageous alternative for treating non-union due to its efficacy and minimal associated complications. Non-union following Bernese periacetabular osteotomy (PAO) is particularly challenging, with a reported 55% delayed union and 8% non-union. Herein, we highlight a unique case of ischial non-union post-PAO treated successfully with a structured ESWT regimen.

CASE SUMMARY

A 50-year-old patient, diagnosed with left ischial non-union following the PAO, underwent six cycles of ESWT treatment across ten months. Each cycle, spaced four weeks apart, consisted of five consecutive ESWT sessions without anesthesia. Regular X-ray follow-ups showed progressive disappearance of the fracture line and fracture union. The patient ultimately achieved a satisfactory asymptomatic recovery and bone union.

CONCLUSION

The results from this case suggest that this ESWT regimen can be a promising non-invasive treatment strategy for non-union following PAO.

rhBMP-2-loaded hydroxyapatite/beta-tricalcium phosphate microsphere/hydrogel composite promotes bone regeneration in a novel rat femoral nonunion model

Background

Nonunion following fracture treatment remains a significant clinical challenge, adversely affecting the patient's quality of life and imposing a substantial economic burden. The emergence of bone morphogenetic protein 2 (BMP-2) for bone regeneration represents a promising avenue, albeit limited by side effects such as inflammatory reactions primarily due to suboptimal drug delivery systems. This study focuses on NOVOSIS putty (NP), a novel biomaterial designed for the sustained release of BMP-2, aiming to mitigate these limitations and enhance bone healing.

Objective

This research aimed to evaluate the effectiveness of NP, a hydroxyapatite granules/β-tricalcium phosphate hydrogel composite (HA/β-TCP/hydrogel), as a BMP-2 carrier for promoting bone regeneration in a new rat nonunion model of long bone.

Methods

Using Sprague Dawley rats, a 2-mm silicone disk was interposed at the femoral fracture site, and intramedullary fixation with K-wire was performed to create a nonunion with a 2-mm bone defect. After 3 weeks, internal fixation with a plate, removal of the silicon disk, and refreshing the nonunion site were performed by implanting three different materials into the nonunion sites: allogenic iliac bone (IB), collagen sponge (CS) containing 10 μg of BMP-2, or NP containing 10 μg of BMP-2. Bone healing was evaluated weekly using micro-computed tomography (CT); ex vivo micro-Ct and histological evaluation were conducted at 6 weeks.

Results

At 6 weeks, NP demonstrated a significantly higher bone union rate (76.5%) compared with the CS group (35.3%, p = 0.037), and the IB group (6.3%, p < 0.0001). Bone mineral density (BMD) and bone volume/tissue volume (BV/TV) were also significantly higher in the NP group compared with the CS group (BMD, p < 0.0001; BV/TV, p = 0.031). Histological analysis showed the fracture gap in the NP group was filled with more trabecular bone and less fibrous tissue compared with the CS group.

Conclusion

The study confirms NP is a highly effective BMP-2 carrier, significantly improving bone union rates and new bone formation in nonunion fractures. The sustained release of BMP-2 from the hydrogel component reduced inflammatory responses and enhanced bone regeneration. NP can be a promising alternative to collagen-based BMP-2 delivery systems.

Proximal tibial replacement with megaprosthesis in the setting of proximal tibial nonunion: A case report

Background

Fracture nonunion is a major concern among an orthopaedic patient population, especially in those who have sustained traumatic fractures involving the tibia. Strong risk factors for nonunion include age, smoking history, and a poor diet. The incidence of nonunion also increases with each additional failed surgical intervention.

Methods

Our retrospective case study involved 56-year-old woman with a history of chronic low back pain, osteopenia, malnutrition, smoking, marijuana use, and alcohol use, who presented with a proximal tibia fracture after a fall, initial treatment included temporization with multiplanar external fixation and subsequent internal fixation. Five weeks later, she presented with atrophic nonunion. She subsequently underwent multiple unsuccessful surgeries to address her nonunion, including open repair with bone grafting and multiplanar external fixation for bone transport. Ultimately, the nonunion was addressed by proximal tibia replacement with megaprosthesis with excellent clinical results.

Results and conclusion

Replacement of a proximal tibia with megaprosthesis is a viable option for limb salvage, especially when all alternative treatments have been unsuccessful.

Healing of Humerus Non-union Fracture Using Recombinant Human Bone Morphogenetic Protein With Bone Graft Compared to Bone Graft Alone: A Systematic Review and Meta-Analysis

Non-union fractures of the humerus present significant challenges in orthopedic surgery, often requiring advanced treatments to achieve successful bone healing. The study aimed to compare the use of recombinant human bone morphogenetic protein (rhBMP) with bone grafts versus bone grafts alone for treating humerus non-union fractures with regard to healing rate and complications. Six databases, PubMed, ScienceDirect, The Cochrane Library, Scopus, Web of Science, and Google Scholar, were searched for relevant literature using the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines and studies were selected according to the set eligibility criteria. Quality assessment was performed using the Mixed Methods Appraisal Tool for randomized controlled trials (RCTs) and non-RCTs. Review Manager (RevMan) version 5.4 (2020, The Cochrane Collaboration, London, United Kingdom) was utilized for meta-analysis at a significance level of 0.01. Eighteen research papers were included for qualitative and quantitative analysis. Due to the unavailability of RCTs, data from the two studies were combined. The pooled data from 16 studies for effectiveness regarding union achieved for rhBMP with bone graft versus bone graft alone was 0.65 (95%CI: 0.07-6.38, I2 =67%, p=0.02). For rhBMP-2 and rhBMP-7 with bone graft, the pooled data was 0.09 (95%CI: 0.00-3.63) with high heterogeneity (I2 =88%) and statistically significant differences (p<0.00001). In the sub-group analysis, the pooled data for infection rate was 1.18 (95%CI, 0.37-3.73) with 39% heterogeneity and a non-significant difference (p=0.10). Adding rhBMP to bone grafts may not significantly improve union rates compared to bone graft alone in humerus non-union fractures. However, the trend shows increased infection rates with rhBMP usage. Further high-quality RCTs are warranted to confirm these findings and elucidate the optimal management strategy for humerus non-union fractures.

Bone health in adults with obesity before and after interventions to promote weight loss

Obesity and its associated comorbidities constitute a serious and growing public health burden. Fractures affect a substantial proportion of people with obesity and result from reduced bone strength relative to increased mechanical loading, together with an increased risk of falls. Factors contributing to fractures in people with obesity include adverse effects of adipose tissue on bone and muscle and, in many people, the coexistence of type 2 diabetes. Strategies to reduce weight include calorie-restricted diets, exercise, bariatric surgery, and pharmacological interventions with GLP-1 receptor agonists. However, although weight loss in people with obesity has many health benefits, it can also have adverse skeletal effects, with increased bone loss and fracture risk. Priorities for future research include the development of effective approaches to reduce fracture risk in people with obesity and the investigation of the effects of GLP-1 receptor agonists on bone loss resulting from weight reduction.

Assessment, Diagnosis and Management Strategies for Forearm Shaft Non-union: A Contemporary Perspective

Forearm non-union poses a challenge in orthopaedic surgery due to its intricate anatomy and functional significance. This review provides a comprehensive overview of the assessment, diagnosis and management of forearm non-union. Initial evaluation involves a meticulous history, physical examination and imaging studies to identify factors contributing to non-union, including infection. Surgical approaches are discussed, with emphasis on restoring biomechanical stability and promoting bone healing. Treatment options range from autografts to allografts, with considerations for vascularised bone transfers in complex cases. Decision-making strategies are outlined, considering patient-specific factors and individualised treatment plans. Special considerations for specific types of forearm non-unions are addressed, along with postoperative care protocols to optimise healing and functional outcomes. Overall, this review aims to provide clinicians with a comprehensive understanding of forearm non-union management based on current evidence and clinical practice. Level of Evidence: Level V (Therapeutic).