Introduction and Aims:. The surgical treatment of fractures of the scaphoid with delayed presentation or with established non-union pose a formidable challenge with reported failure rates between 15% and 45%. The aim of this study is to report the results of percutaneous versus open fixation with bone grafting of these fractures. Method:. 34 Consecutive patients who underwent surgery between 2009 and 2013 for delayed presentation and established non-union of scaphoid fractures have been reviewed retrospectively. There were 27 males and 7 females with a mean age of 31 years (15 to 66). The mean delay from time of injury to operation was 12 weeks (4 weeks to 11 months) in the percutaneous fixation group and 19 months (5 months to 6 years) in the open fixation group. 19 Patients were treated with percutaneous screw fixation alone and 15 patients underwent open reduction and internal fixation supplemented with autogenous corticocancellous iliac bone graft. The classification of Slade and Dodds (2009) was used as a guide for surgical treatment and the Mini-Acutrak headless compression screw was used as the fixation device in all cases. Results:. Patients underwent final clinical and radiological assessment with plain radiographs 6 months following their surgery. There was one failed union in the percutaneous fixation group and there was one failed union in the open fixation group. One patient in the open fixation group was lost to follow up. No serious complications were recorded in either group. Conclusion:. The success of percutaneous internal fixation for acute fractures of the carpal scaphoid may be extended to include scaphoid fractures with delayed presentation and fractures of the scaphoid with established nonunion. However, appropriate patient selection is necessary to ensure optimal outcomes

Acute scaphoid fractures are commonly treated with cast for 8–12 weeks. With this prolonged period of immobilisation patients can encounter joint stiffness and muscle wasting requiring extensive physiotherapy. Despite best practice, these fractures also pose a risk of non-union and suboptimal function. Fracture location, duration of time lost from work and impairment in activities of daily living are key factors in scaphoid fracture management. The aim of our study was to compare percutaneous screw fixation of the scaphoid with other operative fixation techniques. Parameters documented were length of conservative treatment, mechanism of injury, post-op complications and patient satisfaction levels with each technique using a standardised questionnaire. Economic benefit was also measured by examining time to return to work, number of x-rays and outpatient visits required per treatment group. In this study, 76 patients requiring operative scaphoid fixation were evaluated. 27 patients underwent percutaneous fixation. Waist fractures accounted for 66% (n= 18), proximal pole fractures 33% (n=8) and distal pole fractures 4% (n=1). There were 16 non-displaced fractures (59%) and 11 displaced fractures (41%). The average length of conservative treatment was 77 days (range: 2–256 days). Within the percutaneous group 2 patients developed non-union. We did not encounter any wound infection or superficial radial nerve damage. Patients treated with early percutaneous fixation had highest satisfaction levels, returned to work earlier and required less follow-up (P< 0.001). In conclusion percutaneous screw fixation provides earlier bone union and avoids the need for prolonged immobilisation when compared to other treatment modalities. The economic benefit of early percutaneous fixation must also be considered when managing patients with scaphoid fractures

Background. Percutaneous K-wire fixation is a well-recognised and often performed method of stabilisation for distal radius fractures. However, there is paucity in the literature regarding the infection rate after percutaneous K-wire fixation for distal radius fractures. Aims. To analyse the rate and severity of infection after percutaneous K-wire fixation for distal radius fractures. Material and methods. Between October 2004 and June 2005, 43 patients with closed distal radius fractures had percutaneous K-wire fixation. The wires were left outside the skin in all the cases for easy removal at the end of six weeks at the clinic. They were followed up in the clinic at 1, 2, 4, and 6 weeks. The pin tracts were examined at 2 weeks and six weeks, or if needed earlier. The severity of pin tract infection was graded using modified Oppenheim classification. Results. Out of 43 patients, the male to female ratio was 13:30. The mean age was 49.1 years (range 5-86 years). There were nine cases of pin tract infection, out of which three were grade I, three were grade II, two were grade III, and one was grade IV. In three cases the K-wires had to be removed earlier. Discussion. The infection rate after percutaneous K-wire fixation for distal radius fractures is high (20.9%), which is equivalent to the infection rate quoted in the literature for hybrid external fixators. As the K-wires are used to fix the fractures, the expected implant infection rate in Trauma and Orthopaedics which is less than 1% should be aimed for. However this is not the case. Hence, burying the K-wires under the skin may be an alternative to reduce the infection rate after percutaneous K-wire fixation of distal radius

Purpose. Primary internal fixation of uncomplicated scaphoid fractures offers many advantages compared to conventional casting. However, ideal fixation placement along the central scaphoid axis can be challenging, especially if the procedure is performed percutaneously. Because of the lack of direct visualization, percutaneous procedures demand liberal use of imaging, thereby increasing exposure to harmful radiation. It has been demonstrated that computer-assisted navigation can improve the accuracy of guidewire placement and reduce X-ray exposure in procedures such as hip fracture fixation. Adapting the conventional computer-assist paradigm, with preoperative imaging and intraoperative registration, to scaphoid fixation is not straightforward, and thus a novel tactic must be conceived. Method. Our navigation procedure made use of a flatpanel C-arm (Innova, GE Healthcare) to obtain a 3D cone-beam CT (CBCT) scan of the wrist from which volumetrically-rendered images were created. The relationship between the Innova imager and an optical tracking system (OptoTrak Certus, Northern Digital Inc.) was calibrated preoperatively so that an intraoperatively-acquired image could be used for real-time navigation. Optical markers fitted to a drill guide were used to track its orientation, which was displayed on a computer monitor relative to the wrist images for navigation. Randomized trials were conducted comparing our 3D navigated technique to two alternatives: one using a standard portable C-arm, and the other using the Innova flatpanel C-arm with 2D views and image intensification. A model forearm with an exchangeable scaphoid was constructed to provide consistency between the trials. The surgical objective was to insert a K-wire along the central axis of a model scaphoid. An exposure meter placed adjacent to the wrist model was used to record X-ray exposure. Procedure time and drill passes were also noted. CT scans of the drilled scaphoids were used to determine the shortest distance from the drill path to the scaphoid surface. Results. The closest distance from the drill path to the scaphoid surface was significantly larger using navigation compared to the 2D Innova method (p<0.05). Fewer drill passes were required using navigation compared to a conventional C-arm (p<0.01). Navigated procedures were significantly longer, although the overall time remained clinically acceptable (∼4min). There was no significant difference in radiation exposure to the patient between the three methods. The 3D CBCT image was acquired remotely in the navigated approach, so conceivably the exposure to the surgeon was much less than the other techniques. Conclusion. Computer-assisted navigation was successfully adapted to percutaneous scaphoid fixation without requiring the tedious preoperative imaging and intraoperative registration that typically plague these procedures. Navigation resulted in superior central screw placement with fewer drilling attempts in comparison to conventional techniques

Primary internal fixation of uncomplicated scaphoid fractures is growing in popularity due to its advantages over conventional cast fixation. Performing the procedure percutaneously reduces the risk of infection and soft tissue damage, but can be tricky because of the small size and complex three-dimensional (3D) shape of this bone. Computer-assisted navigation has been an invaluable tool in other pin insertion procedures.

This in-vitro study aimed to evaluate two different rendering techniques for our navigation interface: (i) 3D volume rendering of the CBCT image to show digitally-reconstructed radiographs of the anatomy, and (ii) volume-slicing, analogous to CT-images.

As the shape of the scaphoid is highly variable, a plastic model of the wrist was constructed in order to provide consistency that would not be possible in a cadaver-based study. The plastic model featured a removable scaphoid such that a new one was replaced between trials. Three surgeons each performed eight trials using each of the two navigated techniques (yielding a total of 48 trials for analysis). Central placement of scaphoid fixation has been linked with mechanical stability and improved clinical outcomes, thus the surgical goal was to place a K-wire to maximise both depth from the surface and length of the drill path. The wire was drilled through the scaphoid, from distal to proximal, allowing for post-trial analysis of the drill path. A ceiling-mounted OptoTrak Certus camera (Northern Digital Inc., Canada) and a floor-mounted isocentric 3D CBCT C-arm (Innova 4100, GE Healthcare, France) permitted a registration transformation between the tracking and imaging systems to be computed preoperatively, before each trial, using a custom calibration device. Optical local coordinate reference bodies were attached to the wrist model and a custom drill guide for tracking with the Certus camera. During each trial, a 3D spin image of the wrist model was acquired, and rendered according to the technique under study.

For 3D volume rendering, the spin image was rendered as a digitally-reconstructed radiograph (DRR) that could be rotated in three dimensions. In the planning phase, the surgeon positioned a desired drill path on the images. Anterior-posterior and lateral views of the 3D volume rendering were used for navigation during the drilling phase. The real-time orientation of the drill guide was shown relative to these images and the plan on an overhead.

For volume-sliced (VS) navigation, the spin image was volume-rendered and sliced along the principal planes (axial, coronal, sagittal) for planning. A slider interface allowed the surgeon to scroll through the slices in each of the planes, as if they were looking at individual CT slices. Once the desired drill path was positioned, the volume-sliced views were reconfigured to show slices along the oblique planes of the planned path for navigation.

Following all trials, model scaphoids with wire intact were imaged using CT with a slice thickness of 0.625 mm. The CT series were segmented and used to construct 3D digital models of the wire and drilled scaphoid. Algorithms were developed to determine the minimum distance from the centerline of the wire and the scaphoid surface, and to compute the length of the drill path. Screw breach should be avoided as it disrupts the articular surface and may lead to a sequela of cartilage deterioration and osteoarthritic changes. The shortest distance measure was extrapolated to assess whether a standard fixation screw (Accutrak Mini, 1.78 mm radius) would have breached the scaphoid surface. There were three screw breaches noted in the 3D DRR trials, while only one occurred using volume-slicing. The minimum distance from the centerline of the wire to the scaphoid surface can also be thought of as a “safe zone” for screw breach. Although no difference in the mean distance (μ) was noted between groups (μ_DRR = 2.3 mm, μ_VS = 2.2 mm), the standard deviation (σ) was significantly higher for the DRR trials (σ_DRR = 0.50 mm, σ_VS = 0.37 mm, p < 0.1), suggesting a higher reliability of central placement using VS for navigation. In contrast, the length of the drill paths were significantly longer for the DRR trials (μ = 28.7 mm, σ = 0.66 mm) than for VS-navigation (μ = 28.3 mm, σ = 0.62 mm) at p < 0.1.

The surgical goal was to pick a path that maximised both the length of the path, as well as the minimum distance from the scaphoid surface. Algorithms were developed to find the paths that would maximise: (i) the length and (ii) the distance from the surface of the model scaphoid used in this study. The maximum possible length was 29.8mm (with a minimum distance of 2.2mm from the scaphoid surface), and the maximum distance was 3.3mm (with a length of 27.5mm). Therefore, the set of optimal drill paths had length > 27.5 mm, and distance > 2.8 mm. Of the DRR-navigated trials, 11 were below the minimum optimal depth, and only one trial was below the optimal length; 13 of the 24 trials (54%) were of both optimal length and depth. Of the VS-navigated trials, nine were below the minimal optimal distance, and four were below the minimum optimal length; 11 out of 24 trials (46%) were within both the optimal length and depth.

From this comparative study, we conclude that VS-navigation was superior in locating a central location for the fixation wire, while DRRs were superior in maximising the depth of the drill path. Thus, we propose a hybrid interface, incorporating both volume-slicing and DRRs, in order to maximise the effectiveness of navigation for percutaneous scaphoid pinning.

Background. Prospective study to compare patient reported outcome measures (PROM) for sacroiliac joint (SIJ) fusion using HA-coated screw (HACS) vs triangular titanium dowel (TTD). First study of its kind in English literature. Methods. 40 patients underwent percutaneous SIJ stabilisation using HACS and TTD was used in 70 patients. Patients were followed up closely and outcome scores were collected prospectively. PROMs were collected preoperatively and 12 months after surgery. Short Form (SF)-36, Oswestry Disability Index, EuroQol-5D-5L and Majeed Pelvic Scores were collected. Shapiro-wilk test was used to determine normality of data. Mann-whitney U test was used to compared non-parametric data and Independent sample T test for parametric data. Results. 33 patients in HACS group and 61 in TTD group completed follow-up. There was no significant difference in all preoperative PROMs in both groups hence the data was considered comparable. All postoperative PROMs were significantly higher in the TTD group. In the HACS group, 21 patients (63%) had lysis around the screw and a sub-group analysis showed that improvement in PROMs was significantly less in patients with lysis around the screw. 4 patients with lysis around the screw were offered revision due to ongoing pain. Revision was successful in only 1 patient. In TTD group only 5 patients (8.2 %) patients had radiological evidence of lysis. Relative risk of developing lysis was 6.7 times higher in HACS group. Conclusion. Percutaneous SIJ fixation procedure has been shown to have good clinical outcomes and TTD leads to significantly better patient reported outcomes compared to HACS. There is a 6.7 time higher risk of lysis with use of HACS and lysis is a risk factor for poor outcomes

Abstract. Background. Prospective study to compare patient reported outcome measures (PROM) for sacroiliac joint (SIJ) fusion using HA-coated screw (HACS) vs triangular titanium dowel (TTD). First study of its kind in English literature. Methods. 40 patients underwent SIJ stabilisation using HACS and TTD was used in 70 patients at CAVUHB, Cardiff. PROMs were collected prospectively before surgery and 12 months post-op. Short Form (SF)-36, Oswestry Disability Index, EuroQol-5D-5L and Majeed Pelvic Scores were collected. Shapiro-wilk test was used to determine normality of data. Mann-whitney U test was used to compared non-parametric data and Independent sample T test for parametric data. Results. 33 patients in HACS group and 61 in TTD group completed follow-up. There was no significant difference in all preoperative PROMs in both groups hence the data was considered comparable. All postoperative PROMs were significantly higher in TTD group. In HACS group, 21 patients (63%) had lysis around screw and sub-group analysis showed that PROMs were lower in patients with lysi. 4 patients with lysis around screw were offered revision due to ongoing pain. Revision was successful in only 1 patient. In TTD group only 5 patients (8.2 %) patients had radiological evidence of lysis. Relative risk of developing lysis was 6.7 times higher in HACS group. Conclusion. Percutaneous SIJ fixation procedure has good clinical outcomes and TTD leads to significantly better patient reported outcomes compared to HACS. There is a 6.7 time higher risk of lysis with use of HACS and lysis is a risk factor for poor outcomes

The treatment for Humeral Supracondylar fractures in children is percutaneous fixation with Kirschner wires using a unilateral or crossed wire configuration. Capitellar entry point with divergent wires is thought crucial in the lateral entry approach. Crossed wire configuration carries a risk of Ulnar nerve injury. Our department had recorded a number of failures and this required review. A search was conducted for children with this injury and surgical fixation. A two year time frame was allocated to allow for adequate numbers. The hospitals radiography viewing system and patient notes were utilized to gather required information. 30 patients from 2–14 years all underwent surgery on the day of admission or the following day. 18 had sustained Gartland grade 3 or 4 injuries. Unilateral configuration was used in 10 cases; a loss of reduction was noted in 5 of these with one case requiring reoperation. Crossed wires were used in 20 cases with a loss of reduction in 1. Crossed wire configuration provides a more reliable fixation with a lower chance or re-operation. Our DGH policy now advises the use of this configuration. A small “mini-open” ulnar approach is utilized with visualization and protection of the nerve

Percutaneous fixation of scaphoid fractures has become popular in recent years, mainly due to its reduced complexity compared to open surgical approaches. Fluoroscopy is currently used as guidance for this percutaneous approach, however, as a projective imaging modality, it provides only a 2D view of the complex 3D anatomy of the wrist during surgery, and exposes both patient and physician to harmful X-ray radiation. To avoid these drawbacks, 3D ultrasound has been suggested to provide imaging for guidance as a widely available, real-time, radiation-free and low-cost modality. However, the blurred, disconnected, weak and noisy bone responses render interpretation of the US data difficult so far. In this work, we present the integration of 3D ultrasound with a statistical wrist model to allow development of an improved ultrasound-based guidance procedure. For enhancement of bone responses in ultrasound, a phase symmetry based approach is used to exploit the symmetry of the ultrasound signal around the expected bone location. We propose an improved estimation of the local phase symmetry by using the local spectrum variation of the ultrasound image. The statistical wrist model is developed through a group-wise registration based framework in order to capture the major modes of shape and pose variations across 30 subjects at different wrist positions. Finally, the statistical wrist model is registered to the enhanced ultrasound bone surfaces using a probabilistic registration approach. Feasibility experiments are performed using two volunteer wrists, and the results are promising and warrant further development and validation to enable ultrasound guided percutaneous scaphoid fracture reduction

We would like to present this case series of 10 adolescent patients with displaced, closed diaphyseal tibial fractures managed using the Taylor Spatial Frame. Management options for these injuries include non-operative treatment, antegrade nailing, flexible nailing systems, plating and external circular fixation. External circular fixation allows anatomical reduction avoiding potential complications such as growth arrest associated with antegrade nailing and retained metal work with plating. Flexible nailing system and cast immobilisation are unreliable for precise anatomical reduction. With limited evidence as to the extent of post-traumatic deformity that is acceptable, combined with the limited remodeling potential that this patient group possess, the precision of percutaneous fixation with the Taylor Spatial Frame system has clear advantages. This is a retrospective analysis of 10 adolescent patients with a mean age of 14.5 years (range 13 to 16 years). Data collected includes fracture configuration, deformity both pre and post operatively compared to post frame removal, length of time in frame and complications. The data was gathered using the patient case notes and the Picture Archiving and Communications System. The mean time in frame was 15.5 weeks (range 11 to 22 weeks). One non-union in a cigarette smoker was successfully managed with a second Taylor Spatial Frame episode. Our conclusion was that with careful patient selection the Taylor Spatial Frame allows successful treatment of closed tibial fractures in adolescents, avoiding complications such as growth arrest and post-traumatic deformity as well as avoiding retained metalwork

Purpose of study. Unstable pelvic ring injuries usually occur in polytrauma patients and are associated with high mortality and morbidity. Percutaneous screw fixation of sacro-iliac joint dislocations, fracture-dislocations and sacral fractures is a well-recognised technique first described by Routt and is increasingly gaining popularity. This method is biomechanically comparable to open reduction and internal fixation with plates and screws but offers the advantages of minimally invasive surgical techniques. It is however a technically demanding procedure with reported complications including hardware failure, misplacement of screws, nerve injury and poor posterior reduction. The purpose of the study is to report clinical results of patients treated with closed reduction and percutaneous ilio-sacral screw fixation for unstable pelvic ring fractures by a single surgeon. Methods. A review of prospectively collected data was performed on all patients who had percutaneous sacro-iliac fixation between 2009 and 2012. Thirty five percutaneus sacro-iliac screws were inserted in 30 patients with a mean age of 25.6 years (range 17–62). Fracture types included 10 AO type B, and 20 AO type C. The mean follow-up period was 11.6 months (range 3–38). The complications assessed were screw misplacement, neurovascular complications, hardware breakage and loss of reduction. Results. All patients had a satisfactory initial reduction. One patient (2.8%) had misplacement of a screw with resultant temporary neurological fallout. One patient (2.8%) had screw misplacement without neurological fallout. Both of these patients initially had two screws inserted and the misplaced screws were removed and not reinserted. One patient (2.8%) had screw cut-out with loss of reduction. This screw was removed, open reduction peformed and the screw was re-inserted. Conclusion. The use of percutaneous sacro-iliac screws provides a safe and effective technique for the management of unstable posterior pelvic ring injuries. Our combined complication rate is comparable to published literature. NO DISCLOSURES

Supra-condylar humerus fractures (SCHF) are amongst the most common fractures requiring surgical stabilisation in the pediatric age group (1). Closed reduction and percutaneous fixation with Kirschner wires (KW) is currently the standard of care (2). The number of KW used and their configuration has been the subject of much research (3, 4). The failure modes leading to loss of fracture reduction are not clear and have not been quantified. The aim of this study is to compare the mechanical stability of the opt-used configurations for various loading modes and contact interactions at the KW/bone interface. A Gartland type-III SCHF was introduced to a fourth generation composite saw bone (Sawbones®, Vashon, Washington, USA). The model was CT scanned with a slice spacing of 0.5mm and pixel size 0.3×0.3mm. The CT data set was imported into AmiraDev (AmiraDev 5.2 Visage Imaging, Inc). A uniaxial mechanical test was conducted in order to measure the KW pullout forces from the distal humerus. A model of the fractured humerus was constructed with the following steps: 1) manual segmentation; 2) surface generation of each fragment, and; 3) automatic volumetric grid generation for each fragment. The fracture was then virtually reduced and KWs were placed at the desired configurations (Fig 1a-b). For each configuration, a separate model was generated. Material properties were assigned to the bone-model elements according to the manufacturer's data sheet; Young's modulus E = 16GPa and E = 150MPa for the cortical and cancellous bone respectively. The KW were assigned a Young's modulus of 200GPa. Each of the models created in Amira was imported to a finite element application (Abaqus 6.9, DS-Simula) for structural analysis. For each of KW configuration four different torque forces load types were simulated (Fig 1c left): 1) a clockwise and counterclockwise torque with a magnitude of 1.5 NM (Newton/Meters); 2) a translational force with a magnitude of 30 N (Newtons) in the direction of the humerus shaft, and; 3) a shear force with a magnitude of 30 N in the direction parallel to the fracture plane. The results were normalised such that the maximum displacement for the crossed pin configuration with a coefficient of friction equal to zero (μ = 0) was used as unity for each load configuration. Similarly, for each of KW configuration four different translational forces load types were simulated (Fig 1c right): 1) a clockwise and counter clock-wise torque with a magnitude of 1.5 NM (Newton/Meters); 2) a translational force with a magnitude of 30N in the direction of the humerus shaft, and; 3) a shear force with a magnitude of 30N in the direction parallel to the fracture plane. The results were normalised as described above. Results. Torque forces: the crossed configuration was found to be almost independent of the bone-implant friction and was symmetric in terms of direction of the applied torque. The diverging configuration exhibited larger dependency on the bone-implant interface. This is especially noticed as the coefficient of friction (COF) reduced to values below μ = 0.2. Translational forces: the diverging configuration exhibited high sensitivity to reduction of the COF μ = 0. Displacement of the fracture for μ = 0 was substantially larger for the diverging configuration relative to the crossed configuration: 13.5 times and 19 times for the transverse and pullout directions, respectively. As the COF increased to values above μ = 0.5, both fixation configurations performed in a similar manner. Stabilisation of SCHF has been the subject of numerous studies. Relative stability of the different configurations and the risk for iatrogenic ulnar nerve injury has been in the center of the debate. Crossed KW configuration was shown in some clinical studies to be more stable than two lateral KW while others demonstrated no significant difference in stability. As ulnar nerve injury may occur in up to 15.4% of surgeries even if insertion of a medial KW is performed under direct vision, utilisation of two lateral KW configurations offers the advantage of reducing this risk significantly. The main finding of this study is that for a COF exceeding a threshold level (µ = 0.2) the crossed KW configuration did not offer any mechanical advantage over the diverging lateral KW configuration. However, for very low COF values (µ<0.2) the crossed configuration exhibited improved performance when compared with divergent lateral KW (figure 1d). The data demonstrates that the KW-bone bonding has a profound effect on the stability of the fixated bone construct. This is mostly evident when distraction forces are applied but also occurs, to a lesser degree, with rotational or translational forces. This may be a clinically important consideration in the rare SCHF in children with abnormal bones and possibly more commonly, when the KW-bone bonding was compromised after multiple attempts of passing the KW through the same entry point. We have conducted a combined in-vitro mechanical test and finite element-based simulations of a fixated SCHF with different KW configurations, under various friction conditions. Under normal bone-implant interface bonding conditions, the two diverging lateral KW configuration offers adequate mechanical stability and may be the preferred choice of SCHF fixation

Purpose of the study:. Is circular external fixation a safe and effective method of managing closed distal third tibia fractures. These fractures are conventionally treated with plaster casts, intramedullary nails or plate fixation. These treatment modalities have complication rates in the literature of up to 16% malunion, 12% non-union, and 17% deep infections. Description and Methods:. Retrospective review of 18 patients with closed distal third tibia fractures, with or without extension into the ankle joint, treated with circular fixator systems and minimal percutaneous internal fixation of the intra-articular fragment if required. Patients were followed up for time to union, malunion incidence as well as incidence of pin tract and deep infection. Distal third fractures which were extra articular or with simple intra articular extension were included. (AO 43 A, B1, C1, C2 + AO 42 in distal third) Patients with pilon fractures (AO 43 B2, B3 and C3) were excluded. Summary of results:. The average time to union in these patients was 16 weeks (11–33 weeks). The non-union rate was 11.1% in comparison to 12% with conventional treatment. The malunion rate was 0% compared to 16% with conventional treatment. The incidence of pin tract infection was 16.6%, but no deep infections were noted, whilst conventional treatment shows deep infection in up to 17%. Conclusion:. Circular external fixation is a safe and efficient option in the treatment of distal tibia fractures. The incidence of complications is significantly reduced in comparison to conventional treatment

The royal victoria hospital is a tertiary trauma centre receiving pelvic injury referrals for a population of 1.7 million. The use of ilio-sacral screw fixation with low anterior frame stabilisation has been adopted as the principle treatment for unstable pelvic ring injuries in our institution. We aim to describe our practice and outcomes following the use of percutaneous screw fixation of the pelvis. The review included standardised assessment of health-related quality of life (SF-36) as well as the Iowa pelvic score and Majeed pelvic injury outcome scores. Data was also collected on associated injuries, post-operative complications, nerve injury and pain scores. A total case series of 45 patients undergoing percutaneous ilio-sacral screw fixation following traumatic pelvic injury were identified over a 5 year period. Of these 23 were contactable to follow-up or responded to questionnaire review. The mean follow up was 680 days (range 151–1962). The mean age was 33 (range 18–57). The mean SF-36 physical and mental scores were 38 and 46 respectively. The mean Majeed score was 69 and Iowa pelvic score was 65. The mean pain score was 3.5 (range 0–7). There were no incidences of deep infection, post-operative PE or nerve injury related to screw insertion. Patients with isolated pelvic injuries performed better on outcome scoring however the low SF-36 scores highlight the severity of pelvic injuries

Objective. To report clinical results of patients who underwent closed reduction and percutaneous iliosacral screw fixation for Tile Type C fractures. Materials and Methods. Retrospective, we collected data using medical records and images of patients treated in our centre. Prospectively, we followed up patients with two questionnaires. Minimum follow up time was 12 months with the mean being 24 months. 36 patients were followed up with a mean age 34 years (range 14- 65) from 2001-2009. Fracture types included 1 C1-1, 18 C1-2, 26 C1-3. Functional status was assessed using the Majeed pelvic score and the Iowa pelvic Score. Results. Types of injury included 38% road traffic accidents, 16% pedestrians hit by a car, 11% crush injuries, 11% falls from a significant height (>10ft),and 9% forklift injury. 32% of injuries occurred at work. The most commonly associated injury was pubic rami fractures closely followed by spinal injury and femoral fractures. The average Majeed score for those unemployed, pre injury, was 68 (good) and those employed was 67 (fair). The average Iowa score was 71 (good). 36% of patients returned to work, 36% were unable to return to work, 4% retired and, 22% were unemployed pre and post injury. The average visual pain score was 3.9/10 and 20% of patients experience no pain. Surgical complications included 2 non unions requiring open reduction and internal fixation, and 1 wound infection requiring removal of metalwork. Three patients required removal of metalwork due to ongoing back pain, of these 2 patients symptoms improved. Conclusion. Our patients experienced a low rate of complications and had a good functional outcome after undergoing closed reduction and percutaneous iliosacral fixation for Tile Type C fractures

The straddle fractures represent a distinct anatomical pattern of pelvic trauma. Their specific clinical characteristics, associated injuries and clinical outcome remain mostly underreported and ambiguous. Over a 3-year period all straddle fractures were identified from a prospective database of a tertiary referral hospital. For all cases, excluding children < 16 years and pathologic fractures, demographic characteristics, associated trauma, ISS-2005, transfusion requirements, surgical procedures, post-operative course, complications and clinical outcome were recorded over a median follow-up of 19 months (7-36). All fractures were classified by the two senior authors separately. Of 280 pelvic fractures, 31(11%) straddle fractures were identified. The median age was 38 years (17-88) and the male/female ratio was 1.38. Half of them were classified as lateral-compression (51.6%), 19.4% as anteroposterior-compression, and 29% combined mechanism of injury. 9 cases had an intra-articular extension to one or both acetabula. Median ISS was 21 (9-57), while 71% had a serious (AIS>2) associated thoracic injury, 48.4% head injury, 38.7% abdominal injury, 51.6%- lower extremity fracture, and 38.7% significant urogenital injuries. Six underwent acute embolisation, and the mean transfusion rates over the initial 72hrs were 7.5 units-cRBC, 2.3 units-FFP, 0.5 units-PLTs. All cases were treated operatively, either with ORIF (14 cases), closed reduction and percutaneous screw fixation (10 cases), while an external fixator was used in 21 cases. The median length of stay was 21 days (1-106). The mortality rate was 6.5% (one on the day of admission and another after 15 days at the ICU). Eight superficial infections, 2 deep sepsis of pfannestiel wounds, as well as 1 asymptomatic nonunion of an inferior pubic rami were recorded. 5 cases underwent further surgery for late urogenital repair and 4 cases have chronic incontinence and sexual dysfunction symptoms. Straddle fractures represent a severe type of pelvic trauma, associated with severe mostly thoracic, head and extremity trauma, severe urogenital complications, and suggest pelvic ring instability that requires surgical stabilisation in the acute setting. They are easily identifiable at the initial radiological investigations and should alert the clinician for multidisciplinary assessment and early referral

Using inaccurate quotations can propagate misleading information, which might affect the management of patients. The aim of this study was to determine the predictors of quotation inaccuracy in the peer-reviewed orthopaedic literature related to the scaphoid. We randomly selected 100 papers from ten orthopaedic journals. All references were retrieved in full text when available or otherwise excluded. Two observers independently rated all quotations from the selected papers by comparing the claims made by the authors with the data and expressed opinions of the reference source. A statistical analysis determined which article-related factors were predictors of quotation inaccuracy. The mean total inaccuracy rate of the 3840 verified quotes was 7.6%. There was no correlation between the rate of inaccuracy and the impact factor of the journal. Multivariable analysis identified the journal and the type of study (clinical, biomechanical, methodological, case report or review) as important predictors of the total quotation inaccuracy rate.

We concluded that inaccurate quotations in the peer-reviewed orthopaedic literature related to the scaphoid were common and slightly more so for certain journals and certain study types. Authors, reviewers and editorial staff play an important role in reducing this inaccuracy.