Purpose: Recognition of the proximal ulna dorsal angulation (PUDA) is important for anatomic reduction of proximal ulnar fractures or osteotomies, especially when using newer straight precontoured proximal ulnar plates. The purpose of this study was to characterize the PUDA in 50 patients with bilateral elbow radiographs. Method: Bilateral elbow radiographs (100 radiographs) were magnified four times using commercial software. The PUDA was measured from the intersection of lines tangent to the subcutaneous border of the olecranon and the proximal ulnar shaft. The olecranon tip-to-apex distance of the PUDA was also measured. Three orthopaedic surgeons independently examined the radiographs and intra/inter-observer reliability was calculated using Intra-Class-Correlation (ICC). Results: A PUDA was present in 96% of radiographs. The average PUDA was 5.7° (range, 0°to14°). The Pearson Correlation coefficient for a side-to-side comparison was 0.86(p< 0.001). The average tip-to-apex distance was 47 mm (34 mm–78mm). No correlation was identified with sex or age. Intra-observer reliability was excellent for the PUDA (ICC 0.892 and 0.863) and good for tip-to-apex distance (ICC 0.762 and 0.827). Inter-observer reliability was good for PUDA (ICC 0.784 and 0.925) and for tip-to-apex distance (ICC 0.711 and 0.769). Conclusion: A mean proximal ulna dorsal angulation of 5.7° is present in 96% of patients at an average of 47 mm distal to the olecranon tip. Measurement of the PUDA has good/excellent inter/intra-observer reliability. Recognition of the PUDA may be helpful in anatomic plating of the ulna. Contralateral PUDA measurements are useful for surgical planning in cases with comminution or distorted anatomy

Aims. The primary aim of this study was to report the radiological outcomes of patients with a dorsally displaced distal radius fracture who were randomized to a moulded cast or surgical fixation with wires following manipulation and closed reduction of their fracture. The secondary aim was to correlate radiological outcomes with patient-reported outcome measures (PROMs) in the year following injury. Methods. Participants were recruited as part of DRAFFT2, a UK multicentre clinical trial. Participants were aged 16 years or over with a dorsally displaced distal radius fracture, and were eligible for the trial if they needed a manipulation of their fracture, as recommended by their treating surgeon. Participants were randomly allocated on a 1:1 ratio to moulded cast or Kirschner wires after manipulation of the fracture in the operating theatre. Standard posteroanterior and lateral radiographs were performed in the radiology department of participating centres at the time of the patient’s initial assessment in the emergency department and six weeks postoperatively. Intraoperative fluoroscopic images taken at the time of fracture reduction were also assessed. Results. Patients treated with surgical fixation with wires had less dorsal angulation of the radius versus those treated in a moulded cast at six weeks after manipulation of the fracture; the mean difference of -4.13° was statistically significant (95% confidence interval 5.82 to -2.45). There was no evidence of a difference in radial shortening. However, there was no correlation between these radiological measurements and PROMs at any timepoint in the 12 months post-injury. Conclusion. For patients with a dorsally displaced distal radius fracture treated with a closed manipulation, surgical fixation with wires leads to less dorsal angulation on radiographs at six weeks compared with patients treated in a moulded plaster cast alone. However, the difference in dorsal angulation was small and did not correlate with patient-reported pain and function. Cite this article: Bone Jt Open 2024;5(2):132–138

This study examined the effect of wrist fracture deformities on the work and kinematics of forearm rotation in vitro. An osteotomy was performed on eight fresh frozen upper extremities just proximal to the distal radioulnar joint and a three-degree of freedom modular implant designed to simulate distal radius fracture deformities was secured in place. This allowed for accurate adjustment of dorsal angulation, dorsal displacement, and radial shortening. The study was divided into two parts, the first phase examining the effects of distal radius deformity and the second sectioned the TFCC and repeated the testing, reviewing the effects of a progressive soft tissue injury in conjunction with distal radius deformity. The magnitude of muscle activity required to achieve the motion, namely the work of rotation, was affected by the degree of simulated malunion and whether the TFCC was intact or sectioned. Increasing dorsal angulation caused a significant reduction in forearm pronation and supination. Once the TFCC ligaments were sectioned, the range of motion was restored to the pre-injured state for both pronation and supination. Dorsal displacement decreased the forearm range of motion significant at 10mm from native (p=0.02) and 5mm (p=0.03) for intact pronation. Radial shortening of 5mm or less had no effect on forearm rotation. However, 7.5mm of radial shortening could not be achieved in any of the specimens until the TFCC was divided. Our results reveal that a significant loss of forearm rotation can be expected if a radius fracture exceeds thirty degrees dorsal angulation or 10mm of dorsal displacement. Radial shortening greater than 7.5mm could only be achieved concomitant with a TFCC rupture. This and further study in this area, should assist clinicians in developing treatment strategies for their patients with fractures and deformities of the distal radius

Purpose: This in-vitro study examined the effect of simulated Colles fractures on load transmitted to the distal ulna, using an in-line load cell. Our hypothesis was distal radial fracture malposition will increase distal radial ulnar joint (DRUJ) load relative to the native position of the radius. Method: Eight fresh frozen upper-extremities were mounted in a motion simulator which enabled active forearm rotation. An osteotomy was performed just proximal to the distal radioulnar joint, and a 3-degree of freedom modular appliance was implanted which simulated Colles type distal radial fracture deformities. This device allowed for accurate adjustment of dorsal angulation and translation (0, 10, 20 and 30 degrees dorsal angulation and 0, 5 and 10mm dorsal translation both isolated and in combination). A 6-DOF load cell was inserted in the distal ulna 1.5 cm proximal to the ulnar head to quantify DRUJ joint forces. Distal ulnar loading was measured following simulated distal radial deformities with both an intact and sectioned triangular fibrocartilage complex (TFCC). Results: The maximum resultant transverse distal ulnar load occurred during active forearm pronation and supination. Increasing magnitudes of dorsal angulation and translation of the distal radius increased loading in the distal ulna. For pronation with the ligaments intact, the transverse resultant load for the non-fracture, native positioning was significantly lower (p< 0.05) than the majority of malpositioned cases except for the translations only (not combined with angulation). However, all fracture orientations for supination had an increased effect on the resultant loading (p< 0.05) when ligaments were intact. Greater forces were measured in the distal ulna when the TFCC intact relative to TFCC sectioning. Sectioning the TFCC eliminated the effect of fracture malposition for both pronation and supination. The range of maximum transverse force for intact pronation and supination was between 118& #61617;34N and 130& #61617;39N, respectively. Similarly, for sectioned pronation and supination, the maximum transverse forces were and 93& #61617;40N and 89& #61617;24N, respectively. Conclusion: Malpositioning of distal radial fractures in dorsal translation and angulation was found to increase forces in the distal ulna, which may be an important source of residual pain following malunion of Colles fractures. Healing of the distal radius in an anatomic position resulted in the least forces. Sectioning the TFCC released the tethering effect of the radius on the ulna, decreasing DRUJ force. This is the first study of its kind to attempt to quantify the forces at the DRUJ as a result of Colles fractures, and these early findings provide important baseline information related to the biomechanics of the DRUJ

Distal radius fractures are the most common fracture of the upper extremity. Malunion of the distal radius is a common clinical problem after these injuries and frequently leads to pain, stiffness loss of strength and functional impairments. Currently, there is no consensus as to whether not the mal-aligned distal radius has an effect on carpal kinematics of the wrist. The purpose of this study was to examine the effect of dorsal angulation (DA) of the distal radius on midcarpal and radiocarpal joint kinematics, and their contributions to total wrist motion. A passive wrist motion simulator was used to test six fresh-frozen cadaveric upper extremities (age: 67 ± 17yrs). The specimens were amputated at mid humerus, leaving all wrist flexor and extensor tendons and ligamentous structures intact. Tone loads were applied to the wrist flexor and extensor tendons by pneumatic actuators via stainless steel cables. A previously developed distal radius implant was used to simulate native alignment and three DA deformity scenarios (DA 10 deg, 20 deg, and 30 deg). Specimens were rigidly mounted into the simulator with the elbow at 90 degrees of flexion, and guided through a full range of flexion and extension passive motion trials (∼5deg/sec). Carpal motion was captured using optical tracking; radiolunate and capitolunate joint motion was measured and evaluated. For the normally aligned radius, radiolunate joint motion predominated in flexion, contributing on average 65.4% (±3.4). While the capitolunate joint motion predominated in extension, contributing on 63.8% (±14.0). Increasing DA resulted in significant alterations in radiolunate and capitolunate joint kinematics (p<0.001). There was a reduction of contribution from the capitolunate joint to total wrist motion throughout flexion-extension, significant from 5 degrees of wrist extension to full extension (p = 0.024). Conversely, the radiolunate joint increased its contribution to motion with increasing DA; significant from 5 degrees of wrist extension to full extension as the radiolunate and capitolunate joint kinematics mirrored each other. A DA of 30 degrees resulted in an average radiolunate contribution of 72.6% ± 7.7, across the range of motion of 40 degrees of flexion to 25 degrees of extension. The results of our study for the radius in a normal anatomic alignment are consistent with prior investigators, showing the radiocarpal joint dominated flexion, and the midcarpal joint dominated extension; with an average 60/40 division in contributions for the radiocarpal in flexion and the midcarpal in extension, respectfully. As DA increased, the radiocarpal joint provided a larger contribution of motion throughout flexion and extension. This alteration in carpal kinematics with increased distal radius dorsal angulation may increase localised stresses and perhaps lead to accelerated joint wear and wrist pain in patients with malunited distal radial fractures

Intro. Distal radial fractures are a commonly encountered fracture & anatomical reduction is the standard. Dorsal angulation is the traditional method of assessment but is inaccurate in rotated lateral xrays. Previously a relationship has been demonstrated between the dorsal cortex (DC) of the radius & the superior pole of the lunate (SL) & its sensitivity for assessing dorsal angulation & translation. Hypothesis. A constant anatomical relationship maintained between the DC and the SL when rotated up to 30 degrees from standard lateral?. Methods. MRI scans of 28 wrists including the distal third of the radius to the proximal carpal row. Beginning 5cm proximal to the distal radius articular surface, a line was superimposed upon the DC extending distally through the metaphysis. Lunate height (LH) & distance from the DC line to the SL (DC-SL) were measured at 5-degree rotational increments around the radial shaft central axis to 30 degrees of supination & pronation (S+P). The DC-SL/LH ratio was compared to 0 degrees (anatomical lateral) using the two-tailed paired student t-test. Results. No significant difference in DC-SL:LH between 0 degrees of rotation and any 5-degree increment up to 30 degrees of S+P (lowest p=0.075). The DC line lay consistently dorsal to the SL. Conclusion. A constant DC-SL relationship is maintained with up to 30 degrees of S+P. This reference can be quickly and accurately used to assess DRF reduction in poorly-taken films with malrotation

53 patients underwent closed reduction and longitudinal k-wiring of displaced Colles’ fractures and were reviewed after a mean of 26 months. Radiographs taken at the time of injury, after reduction and k-wiring, and at fracture union were compared for radial shortening and dorsal angulation. Manipulation significantly improved fracture position (p< 0.001). Dorsal angulation was successfully corrected by manipulation in 98%, and this position was maintained to fracture union in all cases. 73% of fractures manipulated for radial shortening > 2mm were adequately reduced, but 41% of these fractures subsequently lost position to malunite. The mean shortening between reduction and fracture union was 1.6mm. This did not correlate with Frykman Class or radial shortening at injury. Closed Reduction and k-wire stabilisation is an attractive technique because it is relatively non-invasive compared with plating or external fixation. However, a degree of radial shortening between reduction and fracture union must be anticipated. Fractures reduced inadequately to allow for this loss of radial length, are more likely to malunite. This may compromise functional outcome

Introduction: Displaced Colles’ fractures are usually managed by closed reduction and cast immobilisation. They are reduced initially but frequently lose position because cast immobilisation is an inefficient means of stabilisation. This results in malunion. If position is lost after reduction and cast immobilisation or the fracture is unstable, closed reduction and cast immobilisation is often supplemented by longitudinal k-wire fixation. There is a paucity of literature examining the incidence of unacceptable malunion after closed reduction and k-wire stabilisation. Aim: The aim of this study was to determine whether closed reduction, longitudinal k-wire fixation and cast immobilisation of displaced fractures of the distal radius avoids unacceptable malunion. A secondary aim was to define the type of fracture best treated by this method. Methods: 53 patients underwent closed reduction and longitudinal k-wiring of displaced Colles’ fractures and were reviewed after a mean of 26 months. Radiographs taken at the time of injury, after reduction and k-wiring, and at fracture union were compared for radial shortening and dorsal angulation. Results: Manipulation significantly improved fracture position (p< 0.001). Dorsal angulation was successfully corrected by manipulation in 98%, and this position was maintained to fracture union in all cases. 73% of fractures manipulated for radial shortening > 2mm were adequately reduced, but 41% of these fractures subsequently lost position to malunite. The mean shortening between reduction and fracture union was 1.6mm. This did not correlate with Frykman Class or radial shortening at injury. Discussion: Closed Reduction and k-wire stabilisation is an attractive technique because it is relatively non-invasive compared with plating or external fixation. However, a degree of radial shortening between reduction and fracture union must be anticipated. Fractures not reduced to allow for this later loss of radial length are more likely to malunite. This may compromise functional outcome

The aim of this study was to assess patient-based outcome two years following non-operative management of displaced Colles fractures. 100 patients were evaluated at a minimum of two years after displaced Colles fracture. Fractures were reduced under regional anaesthesia and immobilised in a Colles-type cast for five weeks. The fractures were assessed radiographically by measurement of radial angle, dorsal tilt, radial shortening and carpal malalignment at the time of injury, post-manipulation, and after one and five weeks. The fractures were classified according to Frykman classification. A validated patient-based outcome questionnaire, using a visual analogue score, was used to assess outcome at the end of two years. 7 patients had died, 8 patients were unable to complete the questionnaire because of confusion and 5 were lost to follow-up. Complete outcome data were available on 80 patients. The median age was 61 years. The median pain score was 5 (25%-2 and 75%-12, range 0–100). There was loss of reduction, with more than 5° dorsal angulation and/or 5mm radial shortening in 70% cases. We found that age had no effect on patient outcome except that patients over 50 years complained of more finger stiffness The Frykman classification was an important prognostic factor and a higher grade resulted in worse outcome in a number of areas. Dorsal angulation had no significant effect and carpal malalignment correlated with poor visual appearance. Radial angle and radial shortening were both associated with increased complaints of wrist pain and stiffness. This prospective patient based outcome study has demonstrated that patients make a good functional recovery following nonoperative management of Colles fracture. 70% of our patients had a poor radiological outcome but few reported problems with pain and function at 2 years. Extra-articular malunion due to radial angulation and shortening was common and correlated with wrist pain and stiffness at two years. Frykman classification correlated with pain and functional outcome

Paediatric distal radial and forearm fractures account for 37.4% of all fractures in children. We present our 2.5-year results of a novel safe approach to the treatment of simple distal radial and diaphyseal fractures using intranasal diamorphine and entonox in a designated fracture reduction room in the emergency department. All simple fractures of the distal radius and forearm admitted to our ED between March 2012 and August 2014 that could be reduced using simple manipulation techniques were included in this study. These included angulated diaphyseal fractures of the forearm, angulated metaphyseal fractures of the distal radius and Salter Harris types I and II without significant shortening. All children included were given intranasal diamorphine as well as entonox. The orthopaedic registrar on call performed all reductions. 100 children had their distal radius or forearm fracture reduced in the emergency department using entonox and diamorphine analgesia and had a same day discharge. Average age was 10 years (range 2.20–16.37 years). No complications were reported regarding the use of the analgesia and all children and parents were pleased with their treatment not requiring a hospital admission. The mean initial dorsal angulation of all fracture types was 28.05° degrees (23.91–32.23 95% CI) which was reduced to 7.03° (5.11–8.95 95% CI) post manipulation. There were 9 cases lost to follow up. Two cases lost the initial reduction of the fracture on subsequent clinic follow up and underwent internal fixation in theatre. The use of entonox and intranasal diamorphine is a safe, effective treatment of providing adequate analgesia for children with distal radial and forearm fractures to allow manipulation of displaced dorsally angulated fractures in the emergency department. By facilitating a same day discharge, over £45,000 was saved using this safe method of treatment

This study was designed to investigate distal radial osteotomy performed from a volar approach for dorsal deformity. In the past conventional dorsal approaches have led to extensor tendon synovitis and a volar approach was thus appealing. A prospective analysis of 8 consecutive patients with distal radial malunions with residual dorsal angulation was performed. In each case a volar approach was used and a locked distal radial plate was applied. Laic crest bone graft was used. In each case an acceptable correction was obtained. Union occurred in 6–8 weeks. Pain and grip strength were improved in all 8 cases. The author concludes that a volar approach and locked plate fixation is useful for the correction of dorsal deformity in distal radial malunions. Implant problems with this approach

Aims

It is not clear which type of casting provides the best initial treatment in adults with a distal radial fracture. Given that between 32% and 64% of adequately reduced fractures redisplace during immobilization in a cast, preventing redisplacement and a disabling malunion or secondary surgery is an aim of treatment. In this study, we investigated whether circumferential casting leads to fewer fracture redisplacements and better one-year outcomes compared to plaster splinting.

Introduction. The classical Colles fracture (extraarticular, dorsally angulated distal radius fracture) in patients with osteoporotic bone is becoming increasingly more frequent. There still appears to be no clear consensus on the most appropriate surgical management of these injuries. The purpose of this study is to appraise the use of percutaneous extra-focal pinning, in the management of the classical colles fracture. Methods. We retrospectively analysed 72 consecutive cases of Colles fractures treated with interfragmentary K-wire fixation, in female patients over sixty years of age, in two orthopaedic centres, under the care of twelve different orthopaedic surgeons. We correlated the radiographic distal radius measurements (ulnar variance, volar tilt, and radial inclination) at the pre-operative and intra-operative stages with the final radiographic outcome. Result. Mean dorsal angulation was 21° at time of presentation. Closed reduction significantly improved fracture position to a mean of 2.7° volar angulation (p<0.05). Mean angulation at time of k-wire removal was 1.6° dorsal, this was not significant in comparison to post reduction measurements (p< 0.05). Mean ulnar variance at time of presentation was 2.5mm (range 7.4 to -4.2). Reduction improved fracture displacement to a mean of 0mm, which was statistically significant (p<0.05). Mean ulnar variance at time of k-wire removal was 2.4mm (p<0.05). 56.8% of cases demonstrated radial shortening of 2mm or more. Conclusion. In female patients over 60 years of age, the best predictor of radial length, when K-wire fixation is to be used, is the radial length prior to fracture reduction. Thus if there is radial shortening visible in the initial radiographs as measured in terms of ulnar variance, one should consider a method of fixation other than inter-fragmentary K-wires

Distal radius fractures are common, yet the long-term functional outcome of these patients is unknown. This study investigated the long-term functional outcomes after distal radius fracture (DRF) in adult patients 16–23 years following injury. Secondary aims were to establish morbidity, mortality and function related to pattern of injury and patient demographics. Methods. 622 consented adult patients with a DRF were enrolled in the study. Prospective data was recorded; patient age, mechanism of injury and fracture pattern. Patients were assessed 16–23 years post-injury. 275 patients were deceased. 194 patients were able to complete a Quick Dash (QD) validated upper limb pain and function Patient-Reported Outcome Measure (PROM). Five patients declined follow-up. Socioeconomic status was assessed using the Scottish Index of Multiple Deprivation (SIMD) 2009. Results. The mean age at injury was 41 years for men and 64 for women in the initial cohort. 146 women and 48 men completed final follow-up. The mean age at QD assessment was 57 years for men and 76 for women; mean and median SIMD deciles were 6.7 and 7, respectively, for both genders. The mean QD score was 10.35 for all patients, with no significant gender difference (p=0.63). 85.6% (n=166) reported no or at most, mild limitation. High socioeconomic status, absence of other injuries at DRF and age under 85 years old at follow-up was associated with better long-term function. Early function and pain predicted long-term function; comminution pattern, treatment modality as chosen by surgeon, and early complications did not. Mortality data was analysed for the deceased (n=275). The mean patient survival from DRF to death was 11 years 5 months, with no significant gender difference (p=0.43); survival was predicted by age at injury, post-treatment dorsal angulation and early function. Respiratory, cardiovascular causes and malignancy were the three most common primary causes of death

Aims. To study the outcomes of DVR plating for distal radius fractures. Methods. We prospectively studied all patients managed with a DVR plate, over a twelve-month period in 2006/07. All patients were seen in our dedicated research clinic at 2, 6, 12 and 26 weeks post-operatively. Physiotherapy started at 2 weeks post-operatively. Active range of motion (ROM) of the injured wrist was recorded at 6, 12 and 26 weeks and compared with the normal side. Standardised radiographs were taken at 2 and 6 weeks and compared with pre- and post-operative films for radial and volar angulations, relative radial length, ulnar variance and implant position. Patient satisfaction was measured with the Patient Rated Wrist Evaluation score (PRWE) at 6, 12 and 26 weeks. Results. 129 patients (male:female 1:3) with a median age of 59 years (92-17 years) were seen. Mean measurements of pre-operative films were of 16 degrees dorsal angulation, 15 degrees radial inclination, 7 mm relative radial length and +2mm ulnar variance. In comparison post-operative results were -6 degrees, +22 degrees, 11mm and 0mm respectively, which remained unchanged at 2 and 6 weeks. The mean comparative active ROM was 70%, 88% and 98% at 6, 12 and 26 weeks respectively. The PRWE Score showed a mild degree of disability at 6 weeks and only minimal disability at 12 and 26 weeks. There were two cases of lost fracture position and no case of deep infection. Conclusion. Our study suggests that the DVR locking plate provides excellent fracture stability, allowing for early rehabilitation, with minimal complications. Radiological measurements were markedly improved and this correlated with a good ROM and high patient satisfaction. We recommend the use of the DVR plate to manage unstable distal radius fractures

Objective: The purpose of the present study was to report on the author’s experience using injectable cement as a bony substitute in distal radius corrective osteotomies. The interest of such a bone substitute is the real capacity to adapt itself to the bone defect. Harvesting a trapezoidal cortico spongious graft which can fill very precisely the void and not more remains a challenging objective in treating extra articular mal union. Material and Methods: 5 patients with an average age of 57 yo (42–74) had a corrective osteotomy for a malunited distal radius fracture using Injectable bone substitute (Eurobone, Jectos, Kasios Inc) as an alternative to an autogenous bone graft. Internal fixation of the osteotomy was achieved by using one plate without post operative immobilisation. Two patients were stiff at preoperative time. Results: At an average follow-up evaluation of 26 months (14–37 mo) all the osteotomies united. Wrist flexion-extension motion improved from 56° to 110°, forearm rotation increased from 112° to 142°, and grip strength had an average increase of 120% at the time of the final follow-up evaluation. All patients were satisfied but there one report of persistent pain. Radiographic evaluation showed an average volar tilt improvement from a preoperative dorsal angulation shifting into a neutral position in the sagittal plane; Radiographically the injectable cement showed evidence of progressive re-absorption over time but with no complete disappearance. Conclusions: On the basis of this preliminary experience it is reasonable to consider injectable cement as a viable alternative to bone grafting in conjunction with surgical correction and internal fixation of extra articular distal radius malunion

Introduction: Common misconceptions about distal radius fractures result in undertreatment, particularly in active population.Loss of reduction can cause a symptomatic malunion. The aim of the study is to present the clinical consequences of a dorsally malunited distal radius fractures and the results of a corrective osteotomy for the treatment of this problem. Material: 18 patients with distal radius fractures healed in a dorsal angulation and a mean age of 39 years, treated with a corrective osteotomy. 13 patients had been treated by closed means, and 5 had undergone a earlier surgical procedures without success. 11 patients had a DISI instability of the wrist. 12 patients underwent a radius corrective osteotomy alone, 4 had a cpmined radial osteotomy amd ulnar shortening osteotomy, and 2 underwent only a Sauve-Kapandji procedure. Results: The average follow up was 26 months. All the osteotomies healed. 15 of the deformities were corrected. 7 patients with DISI deformity were regained normal wrists whereas the rest 4 remained with DISI instability. One patient with normal wrist led to DISI instability postop. Conclusion: Distal radius corrective osteotomy is a technically demanding operation, and by no means can guarantee a postop normal anatomy. Furthermore and despite the functional improvement it is unknown the remote consequences wth a ersidual DISI deformity

Purpose: External fixation is a popular treatment method of unstable distal radius fractures. There has been much debate and confusion however regarding the use of bridging versus non-bridging fixation. The aim of this study is to define the indications for bridging and non-bridging external fixation in the treatment of unstable distal radius fractures. The study also endeavours to evaluate the complications and pitfalls associated with this treatment and to determine if non-expert surgeons can reproduce successful outcomes. Methods: Between January 1995 and December 2000, 641 patients with fractures of the distal radius were treated at our institution with external fixation. The fractures were treated either by bridging or non-bridging external fixation. Demographic data was collected prospectively for these patients including their hospital number, date of birth, gender, age at injury, mode of injury, type of external fixator and whether the fracture was an open or closed injury. Further information was collected retrospectively from review of case notes and x-rays and included AO classification, status of the operating surgeon, duration of fixation, and complications. Results: Patients treated with bridging external fixation had significantly more mal unions in terms of dorsal angulation and shortening. The non-bridging fixators were better able to maintain and in some cases improve on the immediate post external fixation measurements. Minor pin tract infections were more common in the non-bridging group. Conclusions: Non-bridging external fixation is the treatment of choice for unstable fractures of the distal radius with sufficient space for the placement of pins in the distal fragment. A predictable outcome with low complication rate can be expected

Introduction: We present our results from a series of patients with symptomatic distal radial malunions. Between January 2005 and October 2008, 15 patients (11 female: 4 male) underwent corrective osteotomy using fixed-angle plates and either structural iliac crest or inlay hydroxyapa-tite (HA) graft. 2 patients had correction for palmar, and the remainder for dorsal, angulation. The mean age was 48 years. The mean time from injury to corrective osteotomy was 12 months (range 3–40 months). Methods: Radiological parameters included ulna variance, radial inclination, palmar angulation and time to union following osteotomy. Clinical outcomes included wrist RoM, grip strength, VAS for pain and DASH score (Disability of the Arm, Shoulder and Hand) preoperatively and 3 months post-operatively. Results: The mean change in radiographic parameters were 2mm increase in ulnar variance, 9° increase in radial inclination (14° – 23°) and 23° increase in palmar angulation (−26° – 3°). The only statistically significant change in RoM was an increase in supination from 55° preoperatively to 73° postoperatively. DASH scores improved from a mean 51 pre-op to 15 post-op, statistically and clinically significant. The mean improvement in grip strength was 8kg, and the VAS for pain improved from 5 preoperatively to 1 postoperatively. We found a positive correlation between age and time to union/graft incorporation (R2 = 0.47). The mean time to graft incorporation was 16 weeks. All of the patients treated with iliac crest structural graft progressed to union. Only 2 of the 4 patients treated with HA graft achieved incorporation, while the other 2 have required revision surgery. Conclusion: Our results therefore show a significant improvement in both radiological and clinical outcome measures following corrective surgery. We had inferior results with the HA graft, and have subsequently abandoned its use. These results support the use of corrective osteotomy following distal radial malunion

Aim: To investigate factors that influence outcomes one year after distal radial fractures To investigate how deformity (radiologically), functional outcome and patient satisfaction affect one another. Background: Identifying the factors that influence outcome in DRF is important in anticipating and treating patients with potentially correctable factors that may affect recovery. Previous studies have looked at different sub-sets of the DRF group most often with patient reported outcomes. We have reviewed a large consecutive group of DRF looking at which factors influenced the outcomes. Methods: Data on 640 distal radial fractures was prospectively recorded over a 24 month period. The database was reviewed and validated. Mechanism of injury, hand dominance and occupation were noted. Initial, post reduction, one week, 6 week and one year x-rays were taken. The volar and dorsal shortening, tilt and angulation were recorded. Any operative intervention or complication was noted. At one year follow up functional testing was performed including range of movement. This tested for grip strength, multiple postional strengths and a functional score looking at activities of daily living. Results: Prediction of functional outcome was significantly associated with age, volar communition, dorsal angulation and pain. The grip strength after a distal radial fracture is significantly stronger in dominant side fractures compared with non dominant, in younger patients and those without dorsal communition. We also showed that fractures that are most likely to malunite show a significantly poorer functional outcome and weaker grip strength. Conclusion: This study identifies factors that predict the functional outcome in Distal Radial fractures. Although many assumptions are made that certain fractures lead to poorer results this has rarely been shown in such a large, diverse group of DRFs. In an age where patients and practitioners strive to ever increasing levels of knowledge this study allows us to counsel patients in their likely functional outcomes more accurately