Intramedullary Nail and Plate Combination Fixation for Complex Distal Tibia Fractures: When and How?

Feasibility Study of Experimental Protocol for the Time-Dependent Mechanical Response of Synthetic Tibia

In this research, an experimental biomechanics construct was developed to reveal the mechanics of distal tibial fracture by submitting synthetic tibiae to cyclic loading, resulting in a combined stress state due to axial compression and bending loads. The synthetic tibia was fixed at the knee but allowed to rotate in the coronal and sagittal planes at the ankle. The first three loading regimes lasted for 4000 cycles/each, and the final until ultimate failure. After 12k±80 cycles, the observed failure patterns closely resembled distal tibial fractures. The collected data during cyclic loading were fitted into a phenomenological model to deduce the time-dependent response of the synthetic tibiae. Images were also collected and analyzed using digital image correlation to deduce the full-field state of strain. The latter revealed that longitudinal strain contours extended in the proximal-distal direction. The transverse strain contours exemplified a medial-to-lateral distribution, attributed to the combined contributions of the Poisson's effect and the flexural deformation from axial and bending components of the applied load, respectively. The experimental construct, full-field characterization, and data analysis approaches can be extended to elucidate the effect of different fixation devices on the overall mechanical behavior of the bone and validate computational models in future research.

Plating as a reduction aid prior to intramedullary nailing of tibia fractures: a systematic review and meta-analysis

PURPOSE

The purpose of this meta-analysis is to analyse the literature on plate-assisted reduction during intramedullary nailing of tibial shaft fractures and to compare the rates of infection and nonunion.

METHODS

The databases Medline, Embase, and Web of Science were searched from inception to February 2022 for literature comparing plate-assisted reduction during intramedullary nailing of extra-articular tibia fractures to standard, closed means of reduction. Data were extracted and pooled in a random effects meta-analysis for the primary outcomes of nonunion and infection risk.

RESULTS

Five comparative studies were identified including 520 total patients, of which 151 underwent tibial nailing with the use of plate-assisted reduction with an average follow-up time of 17.9 months. Approximately two-thirds of patients retained the plate used to assist reduction during intramedullary nailing (102 of 151). Pooled analysis of the infection rates found no significant difference with plate-assisted intramedullary nailing (Risk Ratio [RR] 0.90, 95% CI 0.49-1.65, p = 0.72), and for nonunion rates, there was also no significant difference with plate-assisted intramedullary nailing (Risk Ratio [RR] 0.80, 95% CI 0.40-1.60, p = 0.53).

CONCLUSIONS

Plate-assisted reduction during intramedullary nailing of tibia shaft fractures was not associated with an increased risk for nonunion or infection, and can be safely applied as an adjunct for reduction in challenging fracture patterns, without the need for later removal. However, evidence is quite limited and further investigation into the use of provisional plating as a technique is needed as its use in intramedullary nailing continues to expand.

Plate-Assisted Intramedullary Nailing of Distal Tibia Fractures

The combination of plate and intramedullary nailing has been established as the treatment of proximal tibial fractures. Nevertheless, at the distal end of the tibia, the application of the plate-assisted intramedullary nailing is rarely applied as a therapeutic technique. This technical note demonstrates the use of the reduction plating technique for nail insertion as the management of distal tibia fractures.

Does the distal nail position impact the rates of misalignment and bone union in distal tibial fractures?

PURPOSE

This retrospective study aimed to assess the impact of distal nail placement on misalignment and healing rates in distal tibial fractures.

METHODS

We reviewed all patients with distal tibial fracture treated with intramedullary nailing between 2015 and 2021, and a minimum follow-up of 12 months. Distal nail positioning was determined according to the Triantafillou zones. We related these positioning zones to misalignments (alignment ≥ 3°) and too bony union disorders (delayed union, non-union).

RESULTS

Out of the 62 patients included, 56 (90.3%) show bone union without additional procedure, 3 (4.8%) with dynamization, and 3 (4.8%) showed non-union. Twenty-one (33.8%) presented misalignment, with valgus in the coronal plane being the most frequent (76.19%). In patients with and without misalignment, the most frequent distal nail position was 2-2 in 47.6% and 80.5%, respectively (p = 0.01). In multivariate analysis, distal nail positioning in the 2-2 zone showed a significant protective effect against misalignment (OR 0.18; p = 0.018), while nail positioning in the 3-2 zone generated a significant risk of misalignment (OR 18.55; p = 0.009).

CONCLUSION

In intramedullary nailing of distal tibial fractures, distal positioning of the nail slightly lateral to the center of the talus in the coronal plane and slightly posterior in the sagittal plane (zone 2-2) allows high alignment percentages to be obtained. Positioning medial to this point in the coronal plane (zone 3) is associated with more significant misalignment and should be avoided.

Augmentation plate without bone graft in the management of distal tibial diaphyseal non-union

PURPOSE

The objective of this study was to assess the efficacy of augmentation plating with retaining of previous implant in situ in cases of non-united oligotrophic or atrophic aseptic distal tibial diaphyseal and metaphyseal fractures without bone grafting depending on the unified bone healing and non-union theory.

METHODS

Through the period between December 2019 and December 2022, twelve patients with distal third tibial non-unions who were fixed at time of fracture either by intramedullary interlocking nails (seven cases) or by minimally invasive plate osteosynthesis (five cases) were included. Non-union was diagnosed on basis of absence of any healing progression in three months period or absence of fracture healing after six months from index surgery. All patients had oligotrophic or atrophic non-union. Augmentation plating through an anterolateral approach was done on average of 7.25 months after initial surgery (6-9 months). Circumferential exposure of the fracture site and debridement of fibrous tissue were not necessary. No bone grafting was done as no cases had major bone defect.

RESULTS

All patients achieved complete radiological union with a mean time of 21.8 weeks (range 18-30 weeks) that mean full callus formation in all cortices. All patients were walking independently after three months (13weeks) from surgery and returned to work even in cases of absent complete radiological union. No cases had been complicated with wound healing problems (infection or dehiscence). One patient had incomplete ankle dorsiflexion (10°) due to tight calf muscles and one patient had paresthesia on the dorsum of the foot that was not improved at last follow up (one year after surgery).

CONCLUSION

Augmentation plating is a safe and effective option for management of distal tibial diaphyseal nonunion even in cases of oligotrophic or atrophic non-union.

Extreme nailing and immediate weight bearing constructs in fractures of the distal tibia

Extraarticular fractures of the distal tibia can present as difficult but manageable lower extremity injuries. Historically, these injuries have been fixed in a myriad of ways. Early management with intramedullary nailing had higher complication rates due to the unique anatomical and biomechanical features of the distal tibia. Modern improvements in intramedullary nailing surgical techniques and implant design have significantly decreased complication rates and led to improvement in patient outcomes. Many surgeons protect weight bearing postoperatively, but recent literature suggests that patients may safely weight bear immediately following intramedullary fixation. This article reviews technique and implant design changes that have facilitated immediate safe weight bearing following intramedullary nailing of extraarticular distal tibia fractures.

Fixation of Extra-articular Proximal Tibia Fractures: Biomechanical Comparison of Single and Dual Implant Constructs

OBJECTIVES

This biomechanical study seeks to define the relative effectiveness of contemporary single and dual implant constructs for fixation of an extra-articular proximal tibia fracture model.

METHODS

An extra-articular proximal tibia fracture model was created using synthetic tibias. Four constructs were tested. Constructs included (1) lateral locked plate (LLP), (2) intramedullary nail (IMN), (3) combined LLP and IMN (PN), and (4) LLP and medial locked plate. Specimens were axially loaded through the medial plateau to evaluate construct stiffness and the ability to resist varus collapse.

RESULTS

Dual implant constructs were stiffer than single implant constructs in this model. Although DP and PN were stiffer than IMN at all loads tested, the difference was notable only for DP at higher loads. Isolated LLP provided insufficient stability to be tested at higher loads.

CONCLUSION

Dual plate fixation provides the greatest resistance to varus collapse. In the clinical setting, consideration must be given to the fracture morphology, desired construct stiffness, and soft-tissue envelope in selecting the optimal construct to be used.

Permanent reduction plate and intramedullary nailing of open tibia fractures: Do we need to take them out?

INTRODUCTION

Provisional reduction plating has been advocated as a reduction aid for tibial shaft fractures. Concerns regarding soft tissue stripping, infection, wound complications and nonunion have been postulated. Recent studies investigating reduction plating present patient cohorts where plates are removed or left to the discretion of the surgeon. This study aims to identify a cohort of open tibial shaft fractures treated with intramedullary nailing aided by permanent reduction plating. Our hypothesis is that permanent reduction plating in conjunction with intramedullary nailing of open tibia fractures does not increase risk of nonunion, infection or time to fracture union compared to intramedullary nailing alone.

METHODS

An IRB approved retrospective study was performed using trauma registry data from January 2014 to June 2018 at a Level 1 trauma center. Open AO/OTA 41A/42 A-C/43A tibial shaft fractures treated with intramedullary nail alone (IM) or intramedullary nail and permanent reduction plates (PP) were included in patients over 18 years of age with at least six month follow up or until fracture union. Patient demographics, fracture characteristics, mechanism of injury, medical comorbidities, and length of follow up were recorded along with time to union, incidence of nonunion and treatment for documented or suspected infections.

RESULTS

During the study period, 389 patients underwent tibial intramedullary nailing with 162 identified as open fractures. 91 patients met inclusion criteria with 39 in the PP group and 52 in IM group. Statistical analysis revealed no difference between the two groups except more AO/OTA 42A fractures were noted in the IM group. Average follow up was 8.0 and 10.2 months for PP and IM respectively. Nonunion occurred in 2 PP group patients and 7 in the IM group (p = 0.29). Time to union was 5.5 months for PP group and 6.1 months for IM group (p = 0.39) with 4 infections in the PP group and 10 infections in IM group (p = 0.38).

CONCLUSION

Despite the small sample size, this study suggests that permanent reduction plating, in the setting of open tibia fractures, does not delay time to fracture union or increase risk of nonunion or infection.

Nail plate combination in the upper extremity: surgical technique and clinical application

Nail plate constructs (NPC) have shown promising results in complex lower extremity peri-articular fractures as well as in peri-prosthetic fractures. The combination of both implants allows for improved mechanical stability and immediate weight bearing. The use of NPC has not been described in the upper extremity in the literature. We herein describe potential indications and surgical technique for NPC usage for complex upper extremity trauma and reconstruction.

Reduction techniques for intramedullary nailing of tibial shaft fractures: a comparative study

Objectives:

To assess the impact of various reduction techniques on postoperative alignment following intramedullary nail (IMN) fixation of tibial shaft fractures.

Design:

Retrospective comparative study.

Setting:

Level I trauma center.

Patients:

Four hundred twenty-eight adult patients who underwent IMN fixation of a tibial shaft fracture between 2008 and 2017.

Intervention:

IMN fixation with use of one or more of the following reduction techniques: manual reduction, traveling traction, percutaneous clamps, provisional plating, or blocking screws.

Main outcome measures:

Immediate postoperative coronal and sagittal plane alignment, measured as deviation from anatomic axis (DFAA); coronal and sagittal plane malalignment (defined as DFAA >5° in either plane).

Results:

Four hundred twenty-eight patients met inclusion criteria. Manual reduction (MR) alone was used in 11% of fractures, and adjunctive reduction aids were used for the remaining 89%. After controlling for age, BMI, and fracture location, the use of traveling traction (TT) with or without percutaneous clamping (PC) resulted in significantly improved coronal plane alignment compared to MR alone (TT: 3.4°, TT+PC: 3.2°, MR: 4.5°, P = .007 and P = .01, respectively). Using TT+PC resulted in the lowest rate of coronal plane malalignment (13% vs 39% with MR alone, P = .01), and using any adjunctive reduction technique resulted in decreased malalignment rates compared to MR (24% vs 39%, P = .02). No difference was observed in sagittal plane alignment between reduction techniques. Intraclass correlation coefficient (ICC) results indicated excellent intraobserver reliability on both planes (both ICC>0.85), good inter-observer reliability in the coronal plane (ICC = 0.7), and poor inter-observer reliability in the sagittal plane (ICC = 0.05).

Conclusions:

The use of adjunctive reduction techniques during IMN fixation of tibia fractures is associated with a lower incidence of coronal plane malalignment when compared to manual reduction alone.

Level of evidence:

Therapeutic Level III.

The Drape Tower: A "Hands-Free" Draping Technique for Intraoperative Lateral Fluoroscopy Views

Maintaining surgical field sterility during fracture surgery is critical for reducing the likelihood of postoperative infection. Lateral fluoroscopic views are frequently obtained by rotating the emitter under the bed and up immediately adjacent to the sterile field on the side of the injured limb. Contamination can be prevented by sterilely covering the emitter with each rotation from the upright to the lateral positions. Here, we describe a novel draping setup, which maintains fluoroscopic coverage in a "hands-free" manner. The technique uses widely available materials and allows the surgeon to proceed with surgery without the need for additional hands to manage the drape.

Clinical Outcomes After Intramedullary Nailing of Intraarticular Distal Tibial Fractures: A Retrospective Review

The objective of this study was to evaluate the clinical and functional outcomes of intra-articular distal tibial fractures after intramedullary nail (IMN) and independent fixation compared with extra-articular fracture controls.

Methods

A retrospective chart review of distal tibial fractures treated with IMN was performed. Clinical outcomes were compared between fractures with and without intra-articular involvement. Outcomes included nonunion, malunion, ankle arthrosis, and infection. Patient-Reported Outcome Measurement System (PROMIS) scores were used to assess subjective outcomes.

Results

Of the 135 distal tibial fractures, 87 extra-articular and 48 intra-articular, no significant difference was observed in the rate of ankle arthrosis between intra-articular and extra-articular fractures (2% versus 0%; P = 0.35). Similarly, no difference was observed in the postoperative rates of infection (8% versus 3%; P = 0.25), the rate of nonunion (17% versus 10%; P = 0.29), or the rate of malunion (10% versus 21%; P = 0.17). No notable difference was observed in PROMIS scores between groups.

Conclusion

This study suggests that IMN is an acceptable method of fixation in select intra-articular distal tibial fractures. In the intra-articular group, low rates of ankle arthrosis were noted at intermediate follow-up, with no increase in nonunion, malunion, or infection compared with extra-articular fractures. Furthermore, PROMIS scores indicate similar functional outcomes in patients, regardless of intra-articular involvement.

Tibial intramedullary nailing in the lateral decubitus position: Technical notes and preliminary clinical outcomes

BACKGROUND

Traditional intramedullary nailing (IMN) for tibial shaft fractures through an infrapatellar approach is typically performed in the supine position and requires a specially designed operative table and an experienced assistant throughout the surgery. We attempted to perform IMN for tibial fractures in the lateral decubitus position to make the process easier both for surgeons and radiographers.

METHODS

A total of 36 tibial IMN procedures were performed with the patient in the lateral position from May 1, 2014 to April 30, 2016. The technical feasibility and early results were evaluated.

RESULTS

The mean time to complete the nailing procedure during surgery was 78.4 ± 1.1 min. The mean intraoperative time for fluoroscopy was 36.7 ± 1.1 min. No radiographic angular malalignment or bone non-union was reported. No surgical site infections or other surgery-related complications occurred in our series.

CONCLUSION

Tibial IMN through an infrapatellar approach in the lateral decubitus position may be a valuable alternative as it simplifies the procedure for both surgeons and radiographers. This technique is highly effective for surgical operation and fluoroscopy compared to traditional supine position. This technique also seems to provide satisfactory clinical and radiographic outcomes in our preliminary clinical outcomes.

Plate-Assisted Intramedullary Nailing of Gustilo Type IIIB Open Tibial Diaphyseal Fractures: Does Adjunctive Plate Retention Affect Complication Rate?

OBJECTIVES

To investigate the complication rates after use of retained adjunctive plate (RAP) fixation with intramedullary nailing of Gustilo-Anderson type IIIB open tibia fractures, as part of a 2-stage orthoplastic approach.

DESIGN

Consecutive cohort study.

PATIENTS/PARTICIPANTS

One hundred and thirty-seven consecutive patients with a Gustilo-Anderson type IIIB open diaphyseal tibia fracture (OTA/AO 42) treated between May 2014 and January 2018. Ninety-eight patients (RAP = 67; non-RAP = 31) met the inclusion criteria and underwent 2-stage reconstruction. All patients were treated using a small fragment adjunctive plate to hold the fracture reduced before intramedullary nailing.

INTERVENTION

At stage 2, the temporary small fragment (in-fix) plate was removed and the site further thoroughly debrided. After this, the fracture is reduced and held with a new small fragment plate to facilitate the definitive intramedullary nailing. This new plate was either retained (RAP) as part of the definitive fixation at second stage or removed before wound coverage.

MAIN OUTCOME MEASUREMENT

The main outcome measures were reoperation rate, deep infection, nonunion, and flap-related complication.

RESULTS

Six patients (6/98, 6.1%) proceeded to nonunion (RAP 5/67, non-RAP 1/31). This was not significant (P = 0.416). Two hundred twelve operations were undertaken, and the median was 2. Sixteen (16/212, 7.5%) complication-related reoperations were undertaken, affecting 8 patients (8/67, 11.9%) in the RAP group. Eight patients (8/98, 8.2%) developed a deep infection (RAP 6/67, non-RAP 2/31). This was not significant (P = 0.674).

CONCLUSIONS

In the context of an orthoplastic approach, the use of a RAP with definitive intramedullary nailing does not seem to significantly increase the rate of deep infection or nonunion in patients with type IIIB open tibial shaft fractures.

LEVEL OF EVIDENCE

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

Supplementation of Lateral Locked Plating for Distal Femur Fractures: A Biomechanical Study

OBJECTIVES

To investigate the biomechanical properties of a lateral locked plate alone or in combination with a supplemental medial plate or an intramedullary nail (IMN).

METHODS

Intra-articular distal femur fractures with metaphyseal comminution (OTA/AO 33-C) were simulated with a standardized model in 28 synthetic femora and divided into 4 groups. Group I was instrumented with a 4.5-mm lateral locked distal femoral plate alone, group II with a lateral locked plate plus a low-profile precontoured 3.5-mm medial distal tibial plate, group III with a lateral locked plate plus a medial 3.5-mm reconstruction plate, and group IV with a lateral locked plate plus a retrograde IMN. Specimens were then axially loaded and cycled to failure or runout. Outcomes of interest were baseline stiffness, survivability, and cycles to failure.

RESULTS

Groups III and IV have a significantly higher baseline stiffness (P < 0.001) when compared with groups I and II. Furthermore, groups III and IV had a higher max load to failure (P < 0.01) when compared with groups I and II. The survivability in groups III and IV was 71% and 100%, respectively, while no specimens in group I or II survived maximum loading. There was no significant difference between group III and IV regarding stiffness, survivability, and cycles to failure.

CONCLUSION

When considering fixation for intra-articular distal femur fractures with metaphyseal comminution (OTA/AO 33-C), we found that supplementation of a lateral locked plate with a medial plate or an IMN to be biomechanically superior to lateral locked plating alone regarding stiffness, survivability, and cycles to failure. A low-profile precontoured plate did not add significantly to the construct stiffness in this study.

Locked Plating and Advanced Augmentation Techniques in Osteoporotic Fractures

"The incidence of osteoporotic fracture is increasing with the aging US population. Because osteoporosis leads to a decrease in bone mineral density with a decrease in both trabecular and cortical bones, osteoporotic fracture presents fixation challenges with standard plate and screw constructs. Locked plating has been developed to create a fixed-angle plate-screw construct that is more resistant to failure in osteoporotic bone. Endosteal replacement, additional plates, and cement augmentation have all been demonstrated to further supplement osteoporotic fracture fixation. Technologies on the horizon to treat osteoporotic fracture include SMV screws, hydroxyapatite-coated implants, and far cortical locking screws."