Intraosseous Plating for the Management of Cortical Defects

In Vitro and In Vivo Evaluation of a Bio-Inspired Adhesive for Bone Fixation

Compared to metallic hardware, an effective bone adhesive can revolutionize the treatment of clinically challenging situations such as comminuted, articular, and pediatric fractures. The present study aims to develop such a bio-inspired bone adhesive, based upon a modified mineral-organic adhesive with tetracalcium phosphate (TTCP) and phosphoserine (OPS) by incorporating nanoparticles of polydopamine (nPDA). The optimal formulation, which was screened using in vitro instrumental tensile adhesion tests, was found to be 50%_molTTCP/50%_molOPS-2%_wtnPDA with a liquid-to-powder ratio of 0.21 mL/g. This adhesive has a substantially stronger adhesive strength (1.0-1.6 MPa) to bovine cortical bone than the adhesive without nPDA (0.5-0.6 MPa). To simulate a clinical scenario of autograft fixation under low mechanical load, we presented the first in vivo model: a rat fibula glued to the tibia, on which the TTCP/OPS-nPDA adhesive (n = 7) was shown to be effective in stabilizing the graft without displacement (a clinical success rate of 86% and 71% at 5 and 12 weeks, respectively) compared to a sham control (0%). Significant coverage of newly formed bone was particularly observed on the surface of the adhesive, thanks to the osteoinductive property of nPDA. To conclude, the TTCP/OPS-nPDA adhesive fulfilled many clinical requirements for the bone fixation, and potentially could be functionalized via nPDA to offer more biological activities, e.g., anti-infection after antibiotic loading.

Endosteal plating for the treatment of malunions and nonunions of distal femur fractures

PURPOSE

To describe the surgical technique and the outcome of a case series of nonunion and malunion of distal femur fractures treated with an endosteal medial plate combined with a lateral locking plate and with autogenous bone grafting.

METHODS

We retrospectively analyzed a series of patients with malunion or nonunion of the distal femur treated with a medial endosteal plate in combination with a lateral locking plate, in a period between January 2011 and December 2019, Database from chart review was obtained including all the clinical relevant available baseline data (demographics, type of fracture, mechanism of injury, time from injury to surgery, number of previous surgical procedures, type of bone graft, and type of lateral plate). Time to bone healing, limb alignment at follow-up and complications were documented.

RESULTS

Ten patients were included into the study: 7 male and 3 female with mean age of 48.3 years (range 21-67). The mechanism of trauma was in 8 cases a road traffic accident and in 2 cases a fall from height. According to AO/OTA classification 5 fractures were 33 A3, 3 were 33 C1, 1 was 33 C2 and 1 was 33 C3. The average follow up was 13.5 months. In all cases but one bony union was achieved. Bone healing was observed in average 3.3 months after surgery. No intraoperative or postoperative complications were reported.

CONCLUSION

A medial endosteal plate is a useful augmentation for lateral plate fixation in nonunion or malunion following distal femur fractures, particularly in cases of medial bone loss, severe comminution, or poor bone quality.

LEVEL OF EVIDENCE

Level IV (retrospective case series).

Intraosseous Plate Reduction and Fixation of Complex Proximal Ulnar Fractures: A Report of 2 Cases

CASE

We describe 2 cases using a novel technique of intraosseous plating of the coronoid as a reduction tool and fixation construct for complex elbow fracture dislocations. Each patient sustained traumatic, complex injuries of the elbow and were radiographically healed at the final follow-up.

CONCLUSION

Elbow fracture dislocations are complex injuries because of the interplay between primary and secondary stabilizers. This technique provides access to fracture fragments with minimal to no soft-tissue disruption and does not obstruct additional reduction or fixation of the injury.

Treatment of Distal Femur Fractures With the DePuy-Synthes Variable Angle Locking Compression Plate

OBJECTIVES

To determine the failure rate of the DePuy-Synthes variable angle locking compression curved condylar plate (VA-LCP) and quantify failure modes.

DESIGN

Retrospective review.

SETTING

Level I Trauma Center.

PATIENTS/PARTICIPANTS

One hundred thirteen patients with 118 OTA/AO classification 33A and 33C distal femoral fractures were included in the study.

INTERVENTION

Internal fixation using only the DePuy-Synthes VA-LCP plate.

MAIN OUTCOME MEASUREMENTS

Primary outcomes included mechanical failure rate of the DePuy-Synthes VA-LCP plate in open and closed fractures. Secondary outcomes included overall failure rate of treatment, risk factors for mechanical failure, and the specific location of failure: loss of fixation in the proximal segment, implant failure over the working length, or failure of locking screw fixation distally.

RESULTS

There were 11 total failures (9.3%) in 118 fractures. Failure rates for the closed and open fracture groups were 5.4% and 15.9%, respectively. Twenty patients (16.9%) required reoperation to promote union. Open fractures (P = 0.00475), the presence of medial metaphyseal comminution (P = 0.037), the length of the zone of comminution (P = 0.037), and plate length (P = 0.0096) were significantly higher in those with implant failure. Most failures (63.6%) were in the working length of the implant.

CONCLUSIONS

The use of the Synthes VA-LCP is a viable option in distal femoral fractures and has an acceptable failure rate and reoperation to promote union rate.

LEVEL OF EVIDENCE

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