Aims: The purpose of this roentgenographic study is to quantify patellar tilt after total knee arthroplasty and substantiate which factors might affect it. Methods: We reviewed the þles of 446 patients with 485 primary total knee arthroplasties, solely on the diagnosis of degenerative osteoarthritis. Mean follow-up approximated 8.5 (range, 5–20) years. Resurfacing-type prostheses were exclusively used. Patellar resurfacing was accomplished in 51 (11.4%) knees. Patellar tilt was measured pre- and postoperatively using standard Merchant views. Chi-square analysis was used in an attempt to disclose any relationship of patellar tilt with variables like button positioning, lateral release, patellar thickness, limb alignment, joint line elevation, patellar height and posterior cruciate ligament retention or sacriþce. Results: Pre-operatively, 27%, 40% and 33% of patellae demonstrated neutral, lateral and medial tilt respectively. These þgures subsequently changed to 49%, 19% and 32% immediately post-op. However, at þnal follow-up, patellar tilt pattern looked much like the pre-operative one, namely, 31%, 38% and 31% respectively. A statistically signiþcant positive correlation was only documented for patellar thickness, buttonmedialization and pre-operative tilt. The rest of the parameters tested were found not to have any statistical signiþcance with post-operative tilt values. Conclusions: After knee arthroplasty, the patella has, on the long term, a tendency to revert laterally. Lateral release does not seem to ameliorate this tendency. Finally, pre-operative tilt does not correlate to post-operative external mechanism complications

Introduction. Tibial tuberosity and trochlear groove (TT-TG) distance has been investigated for the patients with primary patellofemoral subluxation/dislocation. To date, TT-TG distance after TKA has not been evaluated, and the effect of postoperative TT-TG distance on patellar tracking is unknown. The purpose of the current study was to investigate the effect of TT-TG distance and rotational position of the femoral and tibial components on patellar tilt after TKA. Methods. Consecutive 115 knees for the diagnosis of osteoarthritis were included in the current study. TKA was performed using posterior cruciate ligament sacrificed prosthesis. A total of 17 men and 96 women with an average age of 75.3 years were included at the time of the surgery. Computed tomography (CT) was taken after TKA in full extension. Postoperative TT-TG distance was measured as a reference of surgical epicondylar axis (SEA) of the femur. Patellar tilt was defined as the angle of the patellar component relative to SEA. Femoral and tibial component rotation was measured as the angle relative to SEA and tibial antero-posterior (AP) axis. Tibial AP axis was defined as the line connecting medial one-third of the tibial tuberosity and center of medial-lateral width. Pearson correlation coefficients were calculated to determine the correlations between patellar tilt and TT-TG distance and between patellar tilt and femoral and tibial component rotation. Results. TT-TG distance had significant correlation with patellar tilt (Figure 1; r = 0.254, p = 0.006), whereas femoral component rotation (p = 0.092) and tibial component rotation (p = 0.062) were not correlated with patellar tilt. Concerning the effect on TT-TG distance, femoral component rotation (r = 0.248, p = 0.008) and tibial component rotation (r = −0.567, p < 0.001) were correlated with TT-TG distance. Conclusion. The current study investigated the effect of TT-TG distance on patellar tilt with postoperative CT scan. Greater TT-TG distance resulted in more patellar tilt, which might have negative effects on patellar tracking. In previous clinical studies, femoral component and tibial component rotation affected patellar maltracking. In the current study, however, component rotation itself did not affect patellar tilt. Postoperative TT-TG distance includes information of rotational and medial-lateral positioning of the femoral and tibial components, and can be a useful indicator to predict patellar maltracking after TKA. For any figures or tables, please contact authors directly

Internal fixation is currently the standard of care for Garden I and II femoral neck fractures in the elderly. However, there may be a degree of posterior tilt on the preoperative lateral radiograph above which failure is likely, and primary arthroplasty would be preferred. The purpose of this study was to determine the association between posterior tilt and the risk of subsequent arthroplasty following internal fixation of Garden I and II femoral neck fractures in the elderly. This study represents a secondary analysis of data collected in the FAITH trial, an international multicenter randomized controlled trial comparing the sliding hip screw to cannulated screws in the management of femoral neck fractures in patients aged 50 years or older. For each patient who sustained a Garden I or II femoral neck fracture and had an adequate preoperative lateral radiograph, the amount of posterior tilt was categorized as < 2 0 degrees or ≥20 degrees. Multivariable Cox proportional hazards analysis was used to assess the association between posterior tilt and subsequent arthroplasty during the two-year follow-up period, while controlling for potential confounders. Of the 555 patients in the study sample, posterior tilt was classified as ≥20 degrees for 67 (12.1%) and < 2 0 degrees for 488 (87.9%). Overall, 13.2% (73/555) of patients underwent subsequent arthroplasty in the 24-month follow-up period. In the multivariable analysis, patients with posterior tilt ≥20 degrees had a significantly increased risk of subsequent arthroplasty compared to those with posterior tilt < 2 0 degrees (22.4% (15/67) vs 11.9% (58/488), Hazard Ratio (HR) 2.22, 95% confidence interval (CI) 1.24–4, p=0.008). The other factor associated with subsequent arthroplasty was age ≥80 (p=0.03). In this study of patients with Garden I and II femoral neck fractures, posterior tilt ≥20 degrees was associated with a significantly increased risk of subsequent arthroplasty. Primary arthroplasty should be considered for Garden I and II femoral neck fractures with posterior tilt ≥20 degrees, especially among older patients

Introduction. The potential structural effect of the sacral tilt on the development of disc wedging adjacent to lowest instrumented vertebra (LEV), and consequent postoperative coronal trunk decompensation in the surgical treatment of idiopathic scoliosis are well known. The aim of this study is firstly to establish the possible role of sacral tilt, limb length inequality, and associated pelvic girdle anomalies in the cause of idiopathic scolisosis, and secondly to determine the effect of sacral tilt on adjacent disc wedging below LEV in some idiopathic curves such as thoracolumbar/lumbar curves, and double major curves postoperatively. Methods. Between 2006 and 2008, 159 patients with idiopathic scoliosis from outpatient clinics were included in analyses. In all patients, standing posteroanterior and lateral spinal column and Ferguson radiographs were routinely taken. If direct radiographs suggested iliac bone asymmetry, hemi-pelvis volume measurements were done with CT scan. Curve type, sacral tilt, L5 tilt, iliac asymmetry, and limb-length differences were measured. As a second part of study, 87 surgically treated patients with double major curves were examined retrospectively in terms of adjacent subjacent disc wedging below LEV and sacral tilt. Results. In the first part of the study, the mean age of patients was 14·21 years (range 2–25) and all but 14 were female. The curve types were lumbar in 31 patients, thoracolumbar in 42, double major in 55, thoracic in 27, and triple in four. Sacral tilt towards the convex side of TL/L curve was present in 117 (74%) patients with an average of 8° measured from Ferguson graphs. L5 tilt towards the convex side of TL/L curve, and limb length inequality of less than 5 mm on the convex side of TL/L curve were more prevalent in patients with sacral tilt (57%) than in those without sacral tilt (p=0·021). On hemi-pelvis volume measurement, patients with no sacral tilt (n=42) had no difference in both sides whereas patients with sacral tilt (n=117) showed significant difference, with the convex side being smaller. We noted a correlation between L5 tilt and sacral tilt (p=0·048) and between sacral tilt and hemi-pelvis volume (p=0·024). There was no correlation between sacral tilt and pelvic asymmetry, age, sex, curve type, or amount of limb length inequality. In the second part of the study, disc wedging adjacent to LEV was present in 75 of 87 patients and sacral tilt was present in 72 of 75 (96%) (p=0·008). Six patients had limb length inequality of more than 1 cm, showing the postoperative trunk decompensation, which was corrected by elevating the shorter leg by shoe-lift. Conclusions. This study revealed significant association between sacral tilt and hemi-pelvis hypoplasia independent from age. This association may have a primary role in the cause of this disease. Although LEV is paralel to pelvis, intervertebral disc adjacent to LEV is often wedged and there is lumbosacral hemicurve distally below the instrumentation in patients treated by either anterior or posterior surgery. We believe that lumbosacral hemicurve due to sacral tilt behaves like hemivertebra, which is impossible to detect with preoperative standing anteroposterior radiographs. Ferguson view is necessary to detect the sacral tilt. The postoperative trunk decompensation is greater with presence of sacral tilt and limb length inequality

The purpose of this research is to propose CT-free cup orientator using tilt sensors without expensive point tracking devices in total hip replacement. In the case of using a mechanical guide, the accuracy of cup orientation can be sacrificed because of change of the patient’s posture during procedure. Several navigation systems have been introduced to secure an accurate position and orientation of the implant in THR. These systems are expensive and have some weakness due to possible interference inoptical measurement. Our orientator employs a T-bar shaped gauge and economic tilt sensors to secure a fairly orientation of acetabular cup inTHR. The T-bar gauge having three feet with adjustable distance is designed to obtain the anatomical landmarks concurrently. Each foot is placed on the anatomical landamark of the sawbone. The gauge has its own tilt sensor to identifiy the tilt angle of the guage using AD input board. Similary, the cup positioning tool and dynamic reference base (DRB) have their own tilt sensors. The experimental procedures of CT-free cup orientator are done as follows:. Place the T-bar gauge in right place on the pelvis by setting three feet on the ASIS and pubic. Attach DRB to pelvis and align its orientation parallel to the T-bargauge. Align the tilt sensor of the cup positioner parallel to DRB. We define errors as difference between experimental data and ground truth obtained by Micro-Scribe (Immersion Inc.) Errors of the cup in abduction and anteversion were 1.2 and 1.0 degrees respectively when the test is performed on a sawbone. We analyzed the causes of error to improve the accuracy of our cup orientator. Measuring landmarks and aligning three tilt sensors seemed to cause some errors. Base on this study, we expect to make an experiment on cadaver

It is generally appreciated that the internal structure and external shape of living bone adapt to mechanical stimuli according to Wolff’s law. However, the precise details of bone adaptation to external forces are not fully understood and there has been no previous investigation of the association between specific loading conditions and the skeletal architecture of a particular anatomical area using case-specific observations in a group of individuals. The aim of the present study was to investigate a previously unreported correlation between the maximum wrist joint reaction force and the volar tilt angle of the distal radius using parameters radiographically obtained parameters from normal wrist joints. Using free body analysis of the forces acting on the distal radius for the loading condition that corresponds to the lift of a weight using the supinated hand, the wrist joint reaction force F and the angle formed between the vector of F and the long axis of the radius have been expressed as a function of the lifted weight, the lever-arm of the wrist flexor tendons and that of the lifted weight. Measurements of the volar tilt angle of distal radius and the lever-arms of the flexor tendons and the lifted weight were performed from lateral wrist radiographs of 30 normal wrists. Subsequently, using the equations obtained from free body analysis, the maximum wrist joint reaction force F and the angle that the latter forms with the long axis of the radius were calculated for each the cases. Statistical analysis compared the angle of the maximum wrist force and the volar tilt of the distal radius (two-tailed paired t-test) and correlated (a) the angle of the maximum wrist force and the volar tilt angle and (b) the maximum joint reaction force and the volar tilt angle. Results showed no significant difference (p=0.33, 95% confidence interval −0.64° to 0.22°) but a statistically significant correlation (R. 2. = 0.74, r = 0.86, p < 0.001) between the angle of the maximum wrist force and the volar tilt angle of the distal radius. Additionally, an inverse relationship between the volar tilt angle and the magnitude of the maximum wrist force (R. 2. = 0.71, r =−0.84, p< 0.001) was found. These observations may explain the mechanism of the phylogenetical development of the volar tilt angle and support the ‘minimum effective strain’ theory of adaptive bone remodeling. 1. The importance of accurate restoration of the volar tilt during treatment of distal radius fractures, especially in wrists that are normally characterised by a low volar tilt angle, is also emphasized by the results of the present study

Introduction: With the recent advancement, total ankle arthroplasty has been performed more frequently for painful end-stage ankle arthritis. However the indications of total ankle arthroplasty have yet to be determined. There is no clear consensus regarding the use of total ankle arthroplasty in end-stage arthritis with severe varus talar tilt. The present study evaluated the surgical outcome of total ankle arthroplasty performed in the cases with varus talar tilt of more than 20 degrees within the mortise. Material and Method: Among 33 TAAs that were performed at our institution by single surgeon between August 2006 and February 2008, 4 cases showed varus talar tilt of more than 20 degrees determined by tibio-talar angle on preoperative standing ankle AP radiograph. There were 2 males and females, their ages were 60, 74, 75 and 76 years old. All the patients were not able to walk more than 10 minutes. Preoperative AOFAS ankle/hindfoot scale were rated as 28, 57, 60 and 50. The degree of varus talar tilt for each patient was 23, 25, 29 and 27. In 2 cases only TAA was performed, while a calcaneal osteotomy and peroneus longus transfer to peroneus brevis was added for one case, and a dorsiflexion osteotomy of the first metatarsus for the other case to address combined or remaining deformity and instability. Result: There was no postperative surgical complication such as wound problems or surgical infection. The tibio-talar angle measured at sixth month postoperatively was 4, 4, 2 and 3 degree for each patient. Neither instability nor loosening was shown for all the patients. Postoperative AOFAS score improved to 72, 86, 87 and 98 at sixth month after the surgery. Conclusion: Total ankle arthroplasty could be performed safely in the cases with varus talar tilt of more than 20 degrees within the mortise, of which results were satisfactory. For successful surgery, preoperative and intraoperative evaluation of the deformed ankle should be done, and if necessary additional surgeries should be performed to address combined or remaining deformity and instability

Background: Postural re-training is one element used in the physiotherapeutic management of spinal disorders. Clinicians need outcome measures that are accurate, reliable and easy to use to monitor effects of treatment and to provide justification for the management of these conditions. This study aimed to assess the reliability of digital video analysis of thoracic, neck and head tilt angles using one measurer within one day. Methods: Twenty healthy subjects were recruited. L4, C7 spinous processes and tragus were marked on the skin and identified with reflective markers. The subject sat in a relaxed comfortable position in a chair and was video recorded from a lateral view for one minute. The markers were removed and the subject rested, in a chair, for a few minutes. Two further recordings were taken in the same day. Still images were taken at 30seconds of the recording and were analysed using a bespoke programme within MATLAB software. Analysis included Intraclass Correlation Coefficients (ICCs) and Bland Altman plots. Results: Excellent reliability was ascertained for thoracic, neck and head tilt angles identified by ICC of 0.94 (mean difference 0.34° ±4.7°), 0.91 (mean difference 1.1°±3.7°) 0.84 (mean difference 0.9°±4.9) respectively. All points, except one for neck angle and head tilt angle and two for thoracic angles, were within 95% limits of agreement. Conclusion: Digital video analysis using MATLAB is a reliable way to measure thoracic, neck and head tilt angles. This is an inexpensive method for measuring posture that could be used in the management of people with spinal disorders. Conflict of Interest: None. Source of Funding: This study has been financially supported by the Physiotherapy Research Foundation, UK and Research Collaboration Building Capacity Wales (rcbc Wales)

There is a complex interaction among acetabular component position and the orientation of the femoral component in determining the maximum, impingement-free prosthetic range of motion (ROM) in total hip arthroplasty (THA). Regarding restrictions in ROM, femoral antetorsion is one of the most important parameters. But, ROM is also influenced by parameters like the deviation between the femoral shaft and the mechanical axis in a sagittal projection. This deviation is best described as “Femoral Tilt” (FT). This study analysis the incidence of FT in clinical practice and its consequences on post-operative ROM. Based on these results, the effects of changes in FT on ROM-based cup optimisation are assessed by a using a virtual ROM analysis. For studying the incidence of FT, 40 (16 male, 24 female) postoperative computerised tomography (CT) scans were analysed using a 3D CT planning software. The implant models were superimposed onto the image data to determine their exact position. The anatomical orientations were determined by planning anatomical landmarks and coordinate directions (i.e. mechanical axis, posterior condyle axis). Descriptive statistics were calculated for FT. Effects of changes in FT and CCD on ROM were analysed by calculating zones of compliance. FT was varied between 2.1° and 9.3° for 135°. The overall range of post-operative values for femoral tilt was 5.7° ± 1.8° (mean ± standard deviation, minimum 1.7°, maximum 10.2°). The zone of compliance significantly depended on FT (difference more than 200%). The optimum cup position changed from 35° radiographic inclination/30° anteversion to 39°/30° when FT was increased from 2.1° to 9.3°. Within this study, it was demonstrated that FT has a significant effect on postoperative ROM in THAs. First of all, it was shown that clinically FT values lie in a range between 2.1° and 9.3° (95% CI), where we used a long-shaft stem type with a relatively low possibility to influence sagittal tilt angles. FT may significantly change zones of compliance up to 200% as well as optimised cup positions. Thus, standard combined anteversion formulas, which were proposed in the literature to implement femur first approaches for THA, do only particularly address an optimisation of post-operative ROM. Instead, a sophisticated virtual ROM analysis based on a navigated femur-first approach would enable accurate ROM estimations as parameters like FT are hard to be assessed intra-operatively

Introduction:. Shoulder balance after surgery is one main attribute of the cosmetic outcome. It has been difficult to assess on 2D images. The balance results from the interaction of rib cage, shoulder joint and scapular positions, spinal alignment and rotation, muscle size and co-ordination and pain interaction. Attempts have been made to predict shoulder balance from radiograph measurements. There is no consensus on this. Attempt:. To assess whether T1 tilt has any relation to final shoulder balance after surgery. Method:. Retrospective review of radiographs of adolescent idiopathic scoliosis patients from 2009 to 2012. 61 identified with average age of 17 and follow up of 24 months. T1 tilt is measured pre-op, immediately post-op and at the latest follow up. Radiographic shoulder balance based on soft tissue shadow is assessed at the same interval. The balance is based on eyeballed perception, which is what patients do normally. Results:. The average T1 tilt is 3.6° pre-op (−11° to 12°), changing to −2.4° (−14° to 8.2°) immediately post op and to −3.5° (−9.3° to 0.7°) at the latest follow up. The proportion of balanced shoulder improved from 14% pre-op to 14% immediately post op and to 65% at final follow up. No relation of pre-op T1 tilt and the final shoulder balance can be found. Discussion:. Shoulder balance is a dynamic feature. Patients can regain shoulder balance given time. We cannot tell whether this is due to their adaptive process or rotational movement of the spinal construct over time here. Conflict Of Interest Statement: No conflict of interest

We have performed an RCT of cross-linked versus non cross-linked polyethylene with 125 patients followed for five years. The study showed a dramatic reduction of wear with the cross-linked polyethylene consistent with the in-vitro studies. Because it has been recognised that hard bearings are sensitive to edge loading we were concerned that highly cross-linked polyethylene might exhibit wear properties similar to hard bearings. We have therefore analysed the wear rate as it relates to both anteversion and tilt, to compare non cross-linked polyethylene with cross-linked polyethylene. We found that there was no relationship between tilt and ante-version on any wear indices. These data suggest that, despite having different mechanical properties to non cross-linked polyethylene, cross-linked polyethylene does not exhibit increased wear with conditions that increase edge loading

Background: In lumbar scoliosis curves of school screening referrals were evaluated (1) for the possible relation of pathomechanisms to standard and non-standard vertebral rotation (NSVR) [. 1. ], and (. 2. ) the relation between apical lumbar axial vertebral rotation and the frontal plane spinal offset angle (FPTA) [. 2. ]. Methods: Consecutive patients referred to hospital during routine school screening using the Scoliometer were examined in 1996–9. None had surgery for their scoliosis. There are 40 subjects with either pelvic tilt scoliosis (11), idiopathic lumbar scoliosis (19), or double curves (10)(girls 31, postmenarcheal 25, boys 9, mean age 15.3 years). One observer (RGB) measured: 1) in AP spinal radiographs Cobb angles (CAs), apical vertebral rotations (Perdriolle AVRs), and trigonometrically sacral alar tilt angle (SATA), and FPTA as the tilt of the T1–S1 line to the vertical; and 2) total leg lengths (tape). Results: Excluding the double curves there are 16 left and 14 right lumbar curves mean CA 11 degrees (range 4–24 degrees), mean AVR 9 degrees (concordant to CA in 18/30, discordant in 7/30), SATA 2.8 degrees (range 0.2–7.7 degrees associated with CA side and severity, p=0.0003), and leg-length inequality 0.7 cm (significantly shorter on left, p< 0.0001 and associated with SATA (p=0.02) but not CA). Neither CA nor AVR in each of the laterality concordant and discordant lumbar or thoracic curves is significantly different. Twenty-six subjects have thoracic curves (16 right) 22 with AVR (mean CA 11 degrees, range 4–17 degrees, AVR 9 degrees, n=22) the CA being associated with each of lumbar CA and SATA (respectively p< 0.0001, p=0.003, n=26). Thoracic curve laterality of CA and AVR is concordant in 12/26 curves and discordant in 10/26 and for concordance/discordance neither is significantly different; thoracic AVR sides with laterality of lumbar curve AVR shown by thoracic AVR (but not CA) being greater in lumbar discordant than in lumbar concordant curves (14 & 7 degrees respectively, p=0.03, n=18 & 7). Both for lumbar curves alone and for lumbar with double curves, AVR by side is significantly associated with FPTA by side (r= −0.568, p=0.001, n=30; r=−0.560, p=0.0002, n=40). Conclusion: (1) It is hypothesized that different pathomechanisms may separately affect the frontal (CA) and transverse (AVR) planes: in discordant curves these mechanisms may neutralize each other and limit curve progression; concordant curves require these biplanar mechanisms to summate and facilitate curve progression. (2) The association of frontal plane spinal tilt angle and lumbar AVR may result from balance mechanisms affecting trunk muscles – mechanisms that may underlie the complication of post-operative frontal plane spinal imbalance or decompensation [. 2. ]

Displaced distal radial fractures in adults are commonplace. Acknowledging that satisfactory radiographic parameters typically will beget satisfactory functional outcomes, management of these fractures includes a reduction followed by either cast/splint immobilisation or internal fixation. While we can generally rely on internal fixation to maintain the reduction the same is not true of cast immobilisation. There are, however, limited data defining the fate of a fracture reduction in those treated in a cast and up to the time of radial union. Traditional practice is to recommend six weeks of immobilisation. Our goal was to detail the radiographic patterns of change in the radiographic parameters of radial inclination (RI), ulnar variance (UV) and radial tilt (RT) over the first twelve weeks in women fifty years old and older who had sustained a displaced distal radial fracture. We examined serial standard PA and lateral distal radius radiographs of 647 women treated by closed reduction and casting for a displaced fracture of the distal radius. Measurements of RI, UV and RT from standardised radiographs were made immediately post-reduction as well as, as often as possible/feasible, at 1,2,3,6,9 and 12 weeks post fracture. All measurements were made by the senior author (accuracy range: 2 degrees for RI, 1 mm for UV and 4 degrees for RT, in 75% of cases). The primary outcome measure was the change in fracture position over time. Secondary outcomes included changes related to age group; known bone density; the relation to associated ulnar fractures; and independence of the variables of RI, UV and RT. The mean immediate post-reduction values for RI, UV and RT were 21 degrees, 1.5 mm, and −6 degrees, respectively. These all changed in the first six weeks, and did not in the second six week period. The mean change in RI was 3 degrees, 60% of the change occurring in the first week post-reduction; only 0.3 degrees of change was noted beyond three weeks. The mean UV increased by 2.2 mm over the first 6 weeks, 23% in the first week post reduction. The mean RT change of 7.7 degrees was also gradual over the first 6 weeks, with no significant change afterwards. The RI changes identified were not influenced by patient age, while UV and RT changes were greater in older groups. Those fractures of the distal radius associated with a distal ulnar shaft or neck fracture did not lose radial inclination over the study period. We have defined patterns of loss of reduction that commonly occur post reduction of a displaced distal radius fracture in women fifty years and older. Such patterns ought to guide our closed management of distal radial fractures, whether by altering the duration or method of casting. Women fifty years old and older, and physicians alike, must be advised that conventional casting post distal radial fracture reduction unreliably maintains fracture reduction

Introduction

Sagittal pelvic tilt (SPT) can change with spinal pathologies and fusion. Change in the SPT can result in impingement and hip instability. Our aim was to determine the magnitude of the SPT change for hip instability to test the hypothesis that the magnitude of SPT change for hip instability is less than 10° and it is not similar for different hip motions.

Aims. The localization of necrotic areas has been reported to impact the prognosis and treatment strategy for osteonecrosis of the femoral head (ONFH). Anteroposterior localization of the necrotic area after a femoral neck fracture (FNF) has not been properly investigated. We hypothesize that the change of the weight loading direction on the femoral head due to residual posterior tilt caused by malunited FNF may affect the location of ONFH. We investigate the relationship between the posterior tilt angle (PTA) and anteroposterior localization of osteonecrosis using lateral hip radiographs. Methods. Patients aged younger than 55 years diagnosed with ONFH after FNF were retrospectively reviewed. Overall, 65 hips (38 males and 27 females; mean age 32.6 years (SD 12.2)) met the inclusion criteria. Patients with stage 1 or 4 ONFH, as per the Association Research Circulation Osseous classification, were excluded. The ratios of anterior and posterior viable areas and necrotic areas of the femoral head to the articular surface were calculated by setting the femoral head centre as the reference point. The PTA was measured using Palm’s method. The association between the PTA and viable or necrotic areas of the femoral head was assessed using Spearman’s rank correlation analysis (median PTA 6.0° (interquartile range 3 to 11.5)). Results. We identified a negative correlation between PTA and anterior viable areas (rho −0.477; p = 0.001), and no correlation between PTA and necrotic (rho 0.229; p = 0.067) or posterior viable areas (rho 0.204; p = 0.132). Conclusion. Our results suggest that residual posterior tilt after FNF could affect the anteroposterior localization of necrosis. Cite this article: Bone Jt Open 2024;5(5):394–400

Aims. The rationale for exacting restoration of skeletal anatomy after unstable ankle fracture is to improve outcomes by reducing complications from malunion; however, current definitions of malunion lack confirmatory clinical evidence. Methods. Radiological (absolute radiological measurements aided by computer software) and clinical (clinical interpretation of radiographs) definitions of malunion were compared within the Ankle Injury Management (AIM) trial cohort, including people aged ≥ 60 years with an unstable ankle fracture. Linear regressions were used to explore the relationship between radiological malunion (RM) at six months and changes in function at three years. Function was assessed with the Olerud-Molander Ankle Score (OMAS), with a minimal clinically important difference set as six points, as per the AIM trial. Piecewise linear models were used to investigate new radiological thresholds which better explain symptom impact on ankle function. Results. Previously described measures of RM and surgeon opinion of clinically significant malunion (CSM) were shown to be related but with important differences. CSM was more strongly related to outcome (-13.9 points on the OMAS; 95% confidence interval (CI) -21.9 to -5.4) than RM (-5.5 points; 95% CI -9.8 to -1.2). Existing malunion thresholds for talar tilt and tibiofibular clear space were shown to be slightly conservative; new thresholds which better explain function were identified (talar tilt > 2.4°; tibiofibular clear space > 6 mm). Based on this new definition the presence of RM had an impact on function, which was statistically significant, but the clinical significance was uncertain (-9.1 points; 95% CI -13.8 to -4.4). In subsequent analysis, RM of a posterior malleolar fracture was shown to have a statistically significant impact on OMAS change scores, but the clinical significance was uncertain (-11.6 points; 95% CI -21.9 to -0.6). Conclusion. These results provide clinical evidence which supports the previously accepted definitions. Further research to investigate more conservative clinical thresholds for malunion is indicated. Cite this article: Bone Jt Open 2022;3(10):841–849

Background. Supination-external rotation (SER) injuries make up 80% of all ankle fractures. SER stage 2 injuries (AITFL and Weber B) are considered stable. SER stage 3 injury includes disruption of the posterior malleolus (or PITFL). In SER stage 4 there is either medial malleolus fracture or deltoid injury too. SER 4 injuries have been considered unstable, requiring surgery. The deltoid ligament is a key component of ankle stability, but clinical tests to assess deltoid injury have low specificity. This study specifically investigates the role of the components of the deep deltoid ligament in SER ankle fractures. Aim. To investigate the effect of deep deltoid ligament injury on SER ankle fracture stability. Methods. Four matched pairs (8 specimens) were tested using a standardised protocol. Specimens were sequentially tested for stability when axially loaded with a custom rig with up to 750N. Specimens were tested with: ankle intact; lateral injury (AITFL and Weber B); additional posterior injury (PITFL); additional anterior deep deltoid; additional posterior deep deltoid; lateral side ORIF. Clinical photographs and radiographs were recorded. In addition, dynamic stress radiographs were performed after sectioning the deep deltoid and then after fracture fixation to assess tilt of the talus in eversion. Results. All specimens with an intact posterior deep deltoid ligament were stable when loaded and showed no talar tilt on dynamic assessment. Once the posterior deep deltoid ligament was sectioned there was instability in all specimens. Surgical stabilisation of the lateral side prevented talar shift but not talar tilt. Conclusion. If the posterior deep deltoid ligament is intact SER fractures may be managed without surgery in a plantigrade cast. Without immobilisation the talus may tilt, risking deltoid incompetence

Aims. Hip arthroplasty aims to accurately recreate joint biomechanics. Considerable attention has been paid to vertical and horizontal offset, but femoral head centre in the anteroposterior (AP) plane has received little attention. This study investigates the accuracy of restoration of joint centre of rotation in the AP plane. Methods. Postoperative CT scans of 40 patients who underwent unilateral uncemented total hip arthroplasty were analyzed. Anteroposterior offset (APO) and femoral anteversion were measured on both the operated and non-operated sides. Sagittal tilt of the femoral stem was also measured. APO measured on axial slices was defined as the perpendicular distance between a line drawn from the anterior most point of the proximal femur (anterior reference line) to the centre of the femoral head. The anterior reference line was made parallel to the posterior condylar axis of the knee to correct for rotation. Results. Overall, 26/40 hips had a centre of rotation displaced posteriorly compared to the contralateral hip, increasing to 33/40 once corrected for sagittal tilt, with a mean posterior displacement of 7 mm. Linear regression analysis indicated that stem anteversion needed to be increased by 10.8° to recreate the head centre in the AP plane. Merely matching the native version would result in a 12 mm posterior displacement. Conclusion. This study demonstrates the significant incidence of posterior displacement of the head centre in uncemented hip arthroplasty. Effects of such displacement include a reduction in impingement free range of motion, potential alterations in muscle force vectors and lever arms, and impaired proprioception due to muscle fibre reorientation. Cite this article: Bone Joint Res 2022;11(3):180–188

The aim of this study is to analyse the radiological outcomes and predictors of avascular necrosis following 2-hole DHS in Garden I and II neck of femur fractures in patients more than 60 years with a minimum follow up of one year. We retrospectively reviewed 51 consecutive patients aged more than 60 years who underwent DHS fixation for Garden I and II fractures. Demographics, fracture classification, time to surgery, pre-operative AMTS, preoperative posterior tilt angle, quality of reduction, pre and post-operative haemoglobin(hb), creatinine and comorbidities were analysed for correlation with AVN using Chi-Square test, Independent Sample and paired t test. There were 40 (78.4%) females and the mean age of the cohort was 77 years. 28 and 23 were Garden I and II NOF fractures respectively. Union was observed in all our patients except one(kappa =1). 12/51(23.5%) developed AVN of the femoral head. Statistically significant higher incidence of AVN was noted in patients with a pre-op tilt angle > 200 (p = 0.006). The mean drop in Hb was higher in patients who developed AVN (21.5 g/L) versus the non-AVN group (15.9 g/L) (p = 0.001). There was no difference in AVN rates with respect to laterality, mean time to surgery, pre-op AMTS and Charlson comorbidity index. 4/52 (7.6%) had re-operations (one hardware prominence, two conversions to arthroplasty, one fixation failure during the immediate post-op period). The 30-day and one year mortality rates were 1.9 % and 11.7 % respectively. 2-hole DHS fixation in undisplaced NOF fractures has excellent union rates. A pre-operative posterior tilt angle of >200 and a greater difference in pre and post operative haemoglobin were found to correlate positively with the progression to AVN . No correlation was observed between AVN and time to surgery, laterality, quality of reduction and comorbidities

Abstract. Patellofemoral Arthroplasty (PFA) is an alternative to TKA for patellofemoral osteoarthritis that preserves tibiofemoral compartments. It is unknown how implant positioning affects biomechanics, especially regarding the patella. This study analysed biomechanical effects of femoral and patellar component position, hypothesising femoral positioning is more important. Nine cadaveric knees were studied using a repeated-measures protocol. Knees were tested intact, then after PFA implanted in various positions: neutral (as-planned), patellar over/understuffing (±2mm), patellar tilt, patellar flexion, femoral rotation, and femoral tilt (all ±6°). Arthroplasties were implemented with CT-designed patient-specific instrumentation. Anterior femoral cuts referenced Whiteside's line and all femoral positions ensured smooth condyle-to-component transition. Knee extension moments, medial patellofemoral ligament (MPFL) length-change, and tibiofemoral and patellofemoral kinematics were measured under physiological muscle loading. Data were analysed with one-dimensional statistical parametric mapping (Bonferroni-Holm corrected). PFA changed knee function, altering extension moments (p<0.001) and patellofemoral kinematics (p<0.05), but not tibiofemoral kinematics. Patellar component positioning affected patellofemoral kinematics: over/understuffing influenced patellar anterior translation and the patellar tendon moment arm (p<0.001). Medially tilted patellar cuts produced lateral patellar tilt (p<0.001) and vice versa. A similar inverse effect occurred with extended/flexed patellar cuts, causing patellar flexion and extension (p<0.001), respectively. Of all variants, only extending the patellar cut produced near-native extension moments throughout. Conversely, the only femoral effect was MPFL length change between medially/laterally rotated components. PFA can restore native knee biomechanics. Provided anterior femoral cuts are controlled and smooth condyle-to-component transition assured, patellar position affects biomechanics more than femoral, contradicting the hypothesis