Intramedullary nailing of tibial fractures is commonplace and freehand techniques are increasingly popular. The standard freehand method has the knee of the injured leg flexed over a radio-lucent bolster. This requires the imaging C-arm to swing from antero-posterior to lateral position several times. Furthermore, guide wire placement; reaming and nail insertion are all performed well above most surgeons' shoulder height. If instead the leg is hung over the edge of the table, the assistant must crouch and hold the leg until the nail is passed beyond the fracture.

We describe a method of nailing which is easier both for the surgeons and the (often inexperienced) radiographer and present a series of 87 consecutive cases managed with this technique.

Currently the debate continues in definitive fixation method for complex tibial plateau fractures. The aim of surgical management remains prevention of further damage to the articular cartilage, whilst avoiding iatrogenic risks - Low Risk Surgery (LRS). The purpose of this study was to determine the functional impact, clinical radiological outcome following tibial plateau fractures treated with either external fixation or internal fixation.

124 Schatzker IV-VI tibial plateau fractures were reviewed following surgical fixation. Fractures analysed included 24 type IV, 20 type V and 80 type VI tibial plateau fractures. The majority of Schatzker IV fractures were treated with internal fixation, but 67 of 80 Schatzker VI fractures were treated with the Ilizarov method. The average IOWA knee score, was 86 (16 to 100) and the average range of motion was 133 degrees (60 to 150). There were no differences between the circular fixator group and the internal fixation group in terms of range of motion or IOWA scores. There were comparable functional outcomes and complication rates between both groups.

In summary patients with high energy tibial plateau fracture treated with internal or external fixation, have a good chance of achieving satisfactory long term knee function.

We reviewed our results and complications of using a pre-bent 1.6mm Kirschner wire (K-wire) for extra-articular metacarpal fractures. The surgical procedure was indicated for angulation at the fracture site in a true lateral radiograph of at least 30 degrees and/or in the presence of a rotatory deformity.

A single K-wire is pre-bent in a lazy-S fashion with a sharp bend at approximately 5 millimetres and a longer smooth curve bent in the opposite direction. An initial entry point is made at the base of the metacarpal using a 2.5mm drill by hand. The K-wire is inserted blunt end first in an antegrade manner and the fracture reduced as the wire is passed across the fracture site. With the wire acting as three-point fixation, early mobilisation is commenced at the metacarpo-phalangeal joint in a Futuro hand splint.

The wire is usually removed with pliers post-operatively at four weeks in the fracture clinic.

We studied internal fixation of 18 little finger and 2 ring finger metacarpal fractures from November 2007 to August 2009. The average age of the cohort was 25 years with 3 women and 17 men. The predominant mechanism was a punch injury with 5 diaphyseal and 15 metacarpal neck fractures. The time to surgical intervention was a mean 13 days (range 4 to 28 days). All fractures proceeded to bony union. The wire was extracted at an average of 4.4 weeks (range three to six weeks). At an average follow up of 8 weeks, one fracture had to be revised for failed fixation and three superficial wound infections needed antibiotic treatment.

With this simple and minimally invasive technique performed as day-case surgery, all patients were able to start mobilisation immediately.

The general outcome was good hand function with few complications.

Aim: To assess mid to long-term functional and symptomatic outcome after internal fixation of the distal radius.

Methods: All patients operated upon between June 2004 and October 2007 were retrospectively assessed using the ‘Disabilities of arm, shoulder and hand’ (DASH, range 0–100), and Mayo wrist (range 0–100) functional scoring systems. Fractures were classified according to the AO system. All patients were treated in one unit by the same group of surgeons using standard accepted techniques. Revision operations and patients treated at greater than four weeks after injury were excluded. Radiographic analysis of time to union was also performed.

Results: 201 patients underwent surgical fixation of which, 183 patients were contactable for follow up (9% loss). Only these patients were included in the study. Mean age was 62.5 years. Mean follow up time was 30 months. Mean time to surgery was eight days. 74% had good/excellent Mayo and 75% good/excellent DASH scores. 2% of patients had a poor outcome with both scores. 28 % reported no functional or symptomatic deficit. There was a 14% overall complication rate (6% major). Mean time to union was 8.39 weeks. Time to union increased with advancing AO grade. There was no significant difference in scores with regard to postoperative immobilisation, time to surgery, time to follow up, patient age, surgeon grade or fracture type.

Conclusion: This is one of the largest series of its type and the results compare favourably with other published operative and non-operative treatment modalities. This is a safe, reproducible technique with excellent functional outcome and is recommended as the treatment of choice when surgery is indicated for these fractures.

Aim: To describe a radiographic biomechanical classification of tibial plateau fractures which dictates treatment. To compare the intra- and interobserver reliability and reproducibility of this, the Chertsey (C1-3) classification, and the Schatzker (SK1-6) classification.

Method: This classification system has been used at this institution for 8 years by the orthopaedic trauma consultants and consists of C1 – valgus fractures, C2 – Varus fractures and C3 axial fractures. Our treatment regime is based on this classification and results presented in a sperate study. These consultants were excluded from the study on reliability and reproducibility. 2 Orthopaedic consultants, 2 orthopaedic registrars and 2 radiologists were selected randomly to classify 30 sets of AP and Lateral radiographs, of randomly selected patients treated in this institution with tibial plateau fractures, consisting of 9 SK1-3/C1, 8 SK4/C2 and 13 SK5,6/C3 fractures, and again with the same radiographs in a random order 1 month later. Radiographs of fractures treated conservatively were excluded. Statistical analysis included Kappa concordance according to Landis and Koch, and the Mann-Whitney U test.

Results: The Schatzker system was only moderately reliable (K=0.66), and the Chertsey classification system significantly more reliable (K=0.82) (p=0.03) with regards to interobserver reliability. Excellent reproducibility (intra-observer reliability) was seen amongst all observers. The consultant orthopaedic surgeons were significantly more reliable than the radiologists, but not the orthopaedic registrars. No particular fracture type in any classification proved to be significantly more difficult to classify.

Conclusion: We present a classification used in our institution based on plain radiographs, which depicts investigations and treatment. The Chertsey classification is significantly more reliable between observers than the Schatzker classification and is reproducible.

Traditionally, immobilisation following achilles tendon rupture has been for 10 to 12 weeks.

We have previously published a series of 71 consecutive repairs with no re-ruptures, using a lateral surgical approach. The latter part of this cohort were immobilised for six weeks instead of 12, with early weight bearing. The lack of any re-ruptures encouraged us to pursue the accelerated rehabilitation.

This study documents a further 34 cases followed prospectively for 6–24 months (mean 15.9 months). All were repaired with a single Kessler-type suture using loop PDS, through a lateral approach. Patients were partial weight-bearing immediately in an Aircast boot with three cork heel wedges. At two-weekly intervals the wedges were reduced, and the boot abandoned after six weeks.

There have been no re-ruptures. Thirty of the 34 patients returned to pre-injury activity levels. All patients were satisfied or very satisfied with the immobilisation device and the accelerated rehabilitation regime. Cost savings were also made through use of a single removable orthosis rather than sequential casts.

We advocate this regimen of careful operative achilles tendon repair and accelerated weight bearing rehabilitation with a removable orthosis.

Traditionally, immobilisation following Achilles tendon rupture has been for 10 to 12 weeks.

We have previously published a series of 71 consecutive repairs with no re-ruptures, using a lateral surgical approach. The latter part of this cohort were immobilised for six weeks instead of 12, with early weight bearing. The lack of any re-ruptures encouraged us to persue the accelerated rehabilitation.

This study documents a further 34 cases followed prospectively for 6–24 months (mean 15.9 months). All were repaired with a single Kessler-type suture using loop PDS, through a lateral approach. Patients were partial weight-bearing immediately in an Aircast boot with three cork heel wedges. At two-weekly intervals the wedges were reduced, and the boot abandoned after six weeks.

There have been no re-ruptures. Thirty of the 34 patients returned to pre-injury activity levels. All patients were satisfied or very satisfied with the immobilisation device and the accelerated rehabilitation regime. Costs savings were also made through use of a single removable orthosis rather than sequential casts.

We advocate this regimen of careful operative achilles tendon repair and accelerated weight bearing rehabilitation with a removable orthosis.