Aims. The use of fluoroscopy in orthopaedic surgery creates risk of radiation exposure to surgeons. Appropriate personal protective equipment (PPE) can help mitigate this. The primary aim of this study was to assess if current radiation protection in orthopaedic trauma is safe. The secondary aims were to describe normative data of radiation exposure during common orthopaedic procedures, evaluate ways to improve any deficits in protection, and validate the use of electronic personal dosimeters (EPDs) in assessing radiation dose in orthopaedic surgery. Methods. Radiation exposure to surgeons during common orthopaedic trauma operations was prospectively assessed using EPDs and thermoluminescent dosimeters (TLDs). Normative data for each operation type were calculated and compared to recommended guidelines. Results. Current PPE appears to mitigate more than 90% of ionizing radiation in orthopaedic fluoroscopic procedures. There is a higher exposure to the inner thigh during seated procedures. EPDs provided results for individual procedures. Conclusion. PPE currently used by surgeons in orthopaedic trauma theatre adequately reduces radiation exposure to below recommended levels. Normative data per trauma case show specific anatomical areas of higher exposure, which may benefit from enhanced radiation protection. EPDs can be used to assess real-time radiation exposure in orthopaedic surgery. There may be a role in future medical wearables for orthopaedic surgeons. Cite this article: Bone Jt Open 2022;3(11):907–912

Aims. To monitor the performance of services for developmental dysplasia of the hip (DDH) in Northern Ireland and identify potential improvements to enhance quality of service and plan for the future. Methods. This was a prospective observational study, involving all infants treated for DDH between 2011 and 2017. Children underwent clinical assessment and radiological investigation as per the regional surveillance policy. The regional radiology data was interrogated to quantify the use of ultrasound and ionizing radiation for this population. Results. Evidence-based changes were made to the Northern Ireland screening programme, including an increase in ultrasound scanning capacity and expansion of nurse-led screening clinics. The number of infant hip ultrasound scans increased from 4,788 in 2011, to approximately 7,000 in 2013 and subsequent years. The number of hip radiographs on infants of less than one year of age fell from 7,381 to 2,208 per year. There was a modest increase in the treatment rate from 10.9 to 14.3 per 1,000 live births but there was a significant reduction in the number of closed hip reductions. The incidence of infants diagnosed with DDH after one year of age was 0.30 per 1,000 live births over the entire period. Conclusion. Improving compliance with the regional infant hip screening protocols led to reduction in operative procedures and reduced the number of pelvic radiographs of infants. We conclude that performance monitoring of screening programmes for DDH is essential to provide a quality service. Cite this article: Bone Joint J 2020;102-B(4):495–500

Introduction. Diagnosis of osteoarthritis relies primarily on image-based analyses. X-ray, CT, and MRI can be used to evaluate various features associated with OA including joint space narrowing, deformity, articular cartilage integrity, and other joint parameters. While effective, these exams are costly, may expose the patient to ionizing radiation, and are often conducted under passive, non-weightbearing conditions. A supplemental form of analysis utilizing vibroarthrographic (VAG) signals provides an alternative that is safer and more cost-effective for the patient. The objective of this study is to correlate the kinematic patterns of normal, diseased (pre-operative), and implanted (post-operative) hip subjects to their VAG signals that were collected and to more specifically, determine if a correlation exists between femoral head center displacement and vibration signal features. Methods. Of the 28 hips that were evaluated, 10 were normal, 10 were diseased, and 8 were implanted. To collect the VAG signal from each subject, two uniaxial accelerometers were placed on bony landmarks near the joint; one was placed on the greater trochanter of the femur and the other along the anterior edge of the iliac crest. The subjects performed a single cycle gait (stance and swing phase) activity under fluoroscopic surveillance. The CAD models of the implanted components were supplied by the sponsoring company while the subject bone models were created from CT scans. 3D-to-2D registration was conducted on subject fluoroscopic images to obtain kinematics, contact area, and femoral center head displacement. The VAG signals were trimmed to time, passed with a denoise filter and wavelet decomposition. Results. When comparing the femoral head displacement to the vibration signals with respect to the normal hips, insignificant magnitudes of vibration were present (0.05 volts). For the diseased hips, greater magnitudes were seen (0.2 volts). For the implanted subjects, the overall vibration features were small (0.05 volts) much like the signals from the normal hips except for spikes that correlated to features within the gait cycle. Therefore, grinding sounds were heard from the degenerative hips, but not present for the normal or implanted hips in this study. Discussion. In regards to the normal hip subjects, the lesser magnitude of volts correlated well with the kinematic results showing no separation of the femoral head center (1 mm). For the diseased hips, the instances of greater feature quantity occurred at moments where the subjects experienced higher values of head center displacement (1 mm). These subjects also had an overall increase in average voltage magnitude likely due to the loss of cartilage about the articulating surface resulting in a rougher surface for the accelerometers to record. For the implanted subjects, due to no head center displacement and a smoother surface for joint articulation, the vibration signals were smaller than the diseased case but showed better correlation with features within the gait cycle. No exact quantification has been determined between separation and accelerometer voltage output, further studies and testing will need to be carried out in order to reach such a conclusion. For any figures or tables, please contact authors directly

Aim of the study was the evaluation of the efficacy of the use of a new wearable AR video see-throught system based on Head Mounted Displays (HMDs) to guide the position of a working cannula into the vertebral body through a transpedicular approach without the use X-Ray images guidance. We describe a head mounted stereoscopic video see-through display that allows the augmentation of video frames acquired by two cameras with the rendering of patient specific 3D models obtained on the basis of pre-operative radiological volumetric images. The system does not employ any external tracker to detect movements of the user or of the patient. User's head movements and the consistent alignment of the virtual patient with the real one, are accomplished through machine vision methods applied on pairs of live images. Our system has been tested on an experimental setup that simulate the reaching of lumbar pedicle as in a vertebral augmentation procedure avoiding the employment of ionizing radiation. Aim of the study is to evaluate the ergonomics and the accurancy of the systems to guide the procedure. We performed 4 test sessions with a total of 32 kirschner wire implanted by a single operator wearing the HMD with the AR guide. The system accurancy was evaluated by a post-operative CT scan. The most ergonomic AR visualization comprise the use of a pair of virtual viewfinders (one at the level of the skin entry point and one at the level of the trocar's bottom) aligned according to the planned direction of the trocar insertion. With such AR guide the surgeon must align the tip of the needle to the center of the first viewfinder placed on the patient's skin. indeed the viewfinder barycenter provides a 2 degrees of freedom (DoFs) positioning guide corresponding to the point of insertion preoperatively planned over the external surface of the model. The second viewfinder is used by the surgeon to rotate and align the trocar according to the planned direction of insertion (2 rotational DOFs). After the first test series a clamping arm has been introduced to maintain the reached trocar's trajectory. The post-operative CT scan was registered to the preoperative one and the trajectories obtained with the AR guide were compared to the planned one. The overal results obtained in the 4 test session show a medium error of 1.18+/−0.16 mm. In the last year there was a growing interest to the use of Augmented Reality systems in which the real scene watched by the surgeon is merged with virtual informations extracted from the patient's medical dataset (medical data, patient anatomy, preoperative plannig). Wearable Augmented Reality (WAR) with the use of HDMs allows the surgeon to have a “natural point of view” of the surgical field and of the patient's anatomy avoiding the problems related to eye-hand coordination. Results of the in vitro tests are encouraging in terms of precision, system usability and ergonomics proving our system to be worthy of more extensive tests

The nature of the Aneurysmal Bone Cyst (ABC) is still controversial among benign tumor, often identifiable in the “aggressive” form (Enneking stage 3) or pseudotumoral lesion. It is well known instead the very high risk of intraoperative bleeding, indicating a strongly unfavorable relationship between the surgical morbidity and the nature of the disease. Recently, excellent results have been obtained in the treatment of ABC by repeated arterial embolizations (SAE), without any surgery, while initial experiences with administration of denosumab and doxycycline are still under study. This study presents the results of our initial experience in the treatment of vertebral ABC through the use of concentrated autologous mesenchymal stem cells (MSCs). Two teenagers aged 15 years, male, and 14 years, female, came to our attention both with diagnosis of ABC in C2 vertebra which was histologically confirmed. They were both neurologically intact, the girl complained of neck pain. The arteriography showed in both cases close relationships between the pathological ABC vascularization and the vertebral and cervical ascending arteries, making treatment by selective arterial embolization unsuitable. After discussion with the parents of patients, we jointly decided to undertake the treatment by direct injection of MSCs preceded, in the same operative session, by harvesting from the iliac crest of 60 cc of bone marrow (by needle aspiration) and its separation with the use of concentration system Res-Q ™ 60 BMC. In the second case the treatment was repeated two times at distance of 4 months. The clinical and radiological follow-up is to of 30 months from the first treatment in both cases. In the first case the presence of newly formed bone within the ABC appeared as a clear sign of recovery just a month after the first treatment and increased gradually, until the cyst appeared completely ossified one year after the treatment, with associated disappearance of the pain. In the second case an initial sclerotic peripheral margin appeared after the second treatment and later ossification progressed, concurrently with the disappearance of the pain. Treatment with selective serial arterial embolization is considered effective in the treatment of ABC even if not without risks, mainly related to the frequent and repeated exposure to ionizing radiation. Furthermore, in a certain percentage of cases the procedure is not technically executable, especially for the presence of arteries afferent to the medullar vascularization. Inconsistent results were obtained with other procedures: the injection of calcitonin, steroid, alcoholic solutions, or the use of sclerosing substances. Radiation therapy, though very effective, it is not considered the first choice. Recently, promising results have been achieved by the injection of mononuclear cells derived from bone marrow in the treatment of Aneurysmal Bone Cyst. Based on the early results obtained in the two cases described, the injection of MSCs can be considered a valid alternative in the treatment of vertebral ABCs untreatable by embolization

Aim: Accurate placement of the distal screws into the interlocking nails is a demanding procedure due in part to inaccuracy of the targeting device supplied with the system and to deformation of the nail during insertion. Distal locking can be time consuming and expose the surgeon to unnecessary increased ionization radiation. The described technique allows the distal femoral screw holes to be localized accurately with minimal radiation exposure. Our technique requires no aiming device and no assistant. The only equipment needed is another IM nail at the same length. Materials and Methods: We describe our new protocol in a subgroup of 20 patients, among those attended to our institution during the last 1.5 years treated with reamed, locked intramedullary nailing. After placement of the nail in a tibia or femur, a second interlocking nail at the same length is placed along side the limb. Using the proximal insertion jig provided with the system, proximal holes of the internal nail are locked with long screws passing through the nail-mounted outrigger to the far cortex. After avoiding the outrigger motion and rod torsion, distal screws are locked. Proximal holes’ locking is then accomplished. Results: In 20 consecutive distally locked nailing (eight tibiae and 12 femora), the technique was easily mastered. In the operation, there had been taken antero-posterior and lateral graphies in order to evaluate the reduction, the length of the nail and the screws. Conclusion: The advantages of this protocol are; decreasing the roentgenogram exposure and minimizing the operating time when compared to freehand techniques. This technique can be a safe alternative to the common distal targeting techniques. It can be used when an image intensifier is unavailable

Most types of bone tumor surgery require intra-operative imaging or measurement to control margins and prevent unnecessary bone loss. Computer Assisted Surgery (CAS) has been used as a replacement of fluoroscopy or direct measurement tools in four specific types of oncological orthopaedic surgical approaches. There are intralesional treatments, image-based resections, image-based resections with image-based reconstructions and image-based resections with imageless tumor prostheses reconstruction. Since 2006 we have performed 130 oncological surgeries with CAS. Most cases were excochleations, 64, where CAS replaces fluoroscopy as an intra-operative imaging modality. Advantages over fluoroscopy are real time three dimensional feedback, high-res image and no use of ionizing radiation. It is especially useful in larger lesions or lesions located in the femoral head or pelvis. Currently a study is being performed on patient satisfaction, recurrence and complications. Another application where CAS has often been used is in resections and segmental resections (together 45). These can be preplanned before surgery, incorporating the margin required, and checked intra-operatively. Coloration of the tumor, critical structures is useful to avoid these. Sometimes it's possible with careful planning to spare structures that otherwise probably would not confidently have spared. With hemicortical resection (5) it's possible to use CAS to exactly copy the shape of the resected bone to an allograft. A Ct scan of one case shows an average gap between host and graft of 0.9 mm (range 0–5.4) along the 6 cm resection. Finally in 16 cases of imageless use in placement of tumor prostheses it feels greatly helpful in reconstructing the joint line, length and correct rotation. There were 8 failures in these 130 cases with the system or software. Setup time was measured in 47 cases and was on average 6:50 (range 2:26–14:27). Indication and performance of CAS in orthopedic oncology is an under researched aspect of CAS. In our opinion CAS shows great promise in the field of orthopedic oncology and is a valuable tool in the operating room

Non-invasive, in vivo measurement of the three-dimensional (3-D) motion of the tibiofemoral joint is essential for the study of the biomechanics and functional assessment of the knee. Real-time magnetic resonance imaging (MRI) techniques enable the measurement of dynamic motions of the knee with satisfactory image quality and free of radiation exposures but are limited to planar motions in selected slice(s). The aims of the current study were to propose a slice-to-volume registration (SVR) method in conjunction with dual-slice, real-time MRI for measuring 3-D tibiofemoral motion; and to evaluate its repeatability during passive knee flexion. Eight healthy young adults participated in the current study, giving informed written consent as approved by the Institutional Research Board. A 3-T MRI system (Verio, Siemens, Erlangen, Germany) incorporated with a neck matrix coil was used to collect the MRI data. A 3-D scanning using the VIBE sequence was used to collect the volumetric data of the knee at fully extended position (TR = 4.64 ms, TE = 2.3 ms, flip angle = 15°, in-plane resolution = 0.39 × 0.39 mm. 2. and slice thickness = 0.8 mm). A real-time MRI using the refocused radial FLASH sequence (TR = 4.3 ms, TE = 2.3 ms, flip angle = 20°, in-plane resolution = 1.0 × 1.0 mm. 2. , slice thickness = 6 mm) was used to acquire a pair of image slices of the knee at a frame rate of 3 fps during passive flexion. The volumetric MRI data sets were segmented for the femur and tibia/fibula to isolate the sub-volumes containing bone segments. A slice-to-volume registration method was then performed to determine the 3-D poses of the bones based on the spatial matching between sub-volume of the bones and the real-time image slices. The bone poses for all frames were used to calculate the rigid-body kinematics of the tibiofemoral joint in terms of the flexion/extension (FE), internal/external rotation (IR/ER), abduction/adduction (Abd/Add) and joint center translations along three anatomical axis of the tibia. The procedures were carried out five times for repeatability analysis. The standard deviation (SD) of the rigid-body kinematics for each frame from the five trials were calculated and then averaged across all frames to give quantitative measures of the repeatability of the kinematic variables. The repeatability analysis showed that the mean±SD of the averaged SD in FE, Abd/Add and IR/ER components across all subjects were 0.25±0.09, 0.46±0.13 and 0.77±0.16 degrees, respectively. The corresponding values for the joint translations in anterior/posterior, proximal/distal and medial/lateral directions were 0.21±0.04, 0.11±0.03 and 0.43±0.09 mm. An SVR method in conjunction with dual-slice real-time MRI has been successfully developed and its repeatability in measuring 3-D motion of the tibiofemoral joint evaluated. The results show that the proposed method is capable of providing rigid-body kinematics with sub-millimeter and sub-degree precision (repeatability). The proposed SVR method using real-time MRI will be a valuable tool for non-invasive, functional assessment of the knee without involving ionizing radiation, and may be further developed for joint stability assessment

Introduction: The Ganz periacetabular osteotomy aims to improve femoral head coverage in dysplastic hips. It is joint preserving procedure and therefore is ideally preformed before significant articular cartilage degeneration. One proposed advantage of this procedure is that it partially preserves the posterior column and does not disrupt the vascular supply of the main fragment. This study aims to 1) assess the role of MR imaging in the perioperative evaluation of articular cartilage and labrial tissues prior to Ganz osteotomies and 2) to document any alteration in the vascularity of the acetabular fragment post operatively. Patient and Methods: Twenty patients (all female, average age 18.2 years) under consideration for peracetabular osteotomy for hip dysplasia and MR Studies of the pelvis as part of the perioperative assessment. Sixteen patients had follow-up imaging at 4, 12 and 26 weeks post surgery, at which time evidence of healing, oedema, vascularity and femoral head coverage were assessed. Discussion: MR imaging has proven to be a reliable method of assessing articular cartilage health before considering pelvic osteotomy. Hopefully this will allow more appropriate selection of patients likely to benefit from this procedure. In addition MRI scanning allows clearer assessment of other articular elements, such as labium and ligamentum teres, that are difficult to visualize with plain radiographs and CT scans. A further benefit of MR scanning is that, as this study has shown the vast majority of patients who are potential candidates are female of childbearing age and it voids the use of ionizing radiation in this sensitive group of patients. This study has shown that despite some early alterations in osteotomy fragment vascularity the ultimate outcome is that vascularity is substantively unharmed by periacetabular osteotomy. Conclusion: MR imaging is extremely useful in the perioperative workup and postoperative follow-up in patients undergoing Ganz periacetabular osteotomies

Background: The late effect of ionizing radiation on the development of sarcomas within the field of radiation is referred to as Post Irradiation Sarcoma (PRS). Methods: A retrospective study from the Scottish Bone Tumor Registry (1940–2000) of PRS of the upper limb. The diagnostic criterion of Cahan was strictly followed and all patients followed up for 5 years. Results: 11 female patients with previous history of radiotherapy (XRT) for carcinoma breast were identified as having PRS. The mean age at diagnosis was 68.7 years (51–80y). The latent period between irradiation and diagnosis ranged from 8 to 36 years (mean 15.6 y). All lesions occurred on the same side as breast malignancy. 6 lesions involved the proximal humerus and 5 the scapula. Histologically there were 7 osteosarcomas (65%), 1 chondrosarcoma, 1 spindlecell sarcoma and 2 dedifferentiated sarcomas. 2 humeral lesions underwent forequarter amputation, 2 excisions and endoprosthesis and 2 chemotherapy. Cumulative 5 year survival for humeral lesions was 33%. Survival was better with patients who achieved complete surgical margins. Majority of scapular lesions presented with either pulmonary/chest wall secondaries and were unresectable. Cumulative survival was poor ranging from 1 to 12 months (mean 6.2 months). De-differentiated lesions had the worst prognosis. Both orthovoltage and megavoltage XRT were implicated. It was not possible to analyze the relationship between total irradiation dose, individual fraction dose and incidence of PRS. Discussion: PRS is an uncommon tumor with an incidence less than 1%, for patients who survive 5 years after XRT. Delay in diagnosis, aggressive nature, truncal location making extirpative surgery difficult and elderly patients all make the prognosis worse than that of primary sarcomas. As treatment of carcinoma of the breast evolves towards greater breast conservation it will be important to monitor the frequency of this complication more closely

We evaluated the accuracy of a Magnetic Resonance Imaging (MRI)-based method to measure three-dimensional patellar tracking during loaded knee flexion. This method determines the relative positions of the knee bones by shape matching high-resolution three-dimensional geometric models of these bones to fast low-resolution scans taken during loaded flexion. The accuracy of the method’s assessment of patellar position and orientation was determined by comparing test measurements in four cadaver specimens to measurements made in the same specimens using Roentgen Stereophotogrammetric Analysis (RSA). This MRI-based method is more accurate than current two-dimensional imaging methods. The purpose of this study was to determine the accuracy of a MRI-based technique for measuring patellar tracking in loaded flexion. This novel, noninvasive, MRI-based method measures three-dimensional patellar tracking during loaded knee flexion with sufficient accuracy to detect clinically significant changes. Although abnormal patellar tracking is widely believed to be associated with pain and cartilage degeneration at the patella, these relationships have not been clearly established because most current methods assess only the two-dimensional alignment of the patella at one position. Measurements possible with this method should be sufficiently accurate to yield new insights into these relationships. Four cadaver knee specimens were flexed through seventy-five degrees of flexion in an MRI-compatible knee loading rig. A high-resolution image was acquired with each knee in extension and then a series of low-resolution scans (in two slice directions: axial and sagittal) were acquired through a flexion cycle. Segmenting bone outlines from high-resolution scans generated models of the femur, tibia and patella. These models were shape matched to the segmented bone outlines in the low resolution scans. Patellar attitude and position were determined and compared to measurements made using RSA. The mean measurement error in every kinematic parameter was lower for “fast” sagittal plane slices than for “fast” axial plane slices. In general, the mean measurement error was increased by decreasing the number of low-resolution slices. This method is more accurate than many two-dimensional methods, exposes participants to no ionizing radiation, and can be used through a large range of loaded knee flexion. Funding: Supported by an operating grant from the Canadian Institutes for Health Research and a Strategic Grant from the Natural Sciences and Engineering Research Council. NJM is supported by the Arthritis Society/CIHR Partnership Fund. Please contact author for figures and/or tables

Introduction: Accurate and quantitative measurements of the spine are essential for deformity diagnosis and assessment of curve progression. There is much concern related to the multiple exposures to ionizing radiation associated with the Cobb method of radiographic measurement, currently the standard procedure for diagnosis and follow-up of the progression of scoliosis. In addition, the Cobb method relies on two-dimensional analysis of a three-dimensional deformity. The Ortelius800TM aims to provide a radiation-free method for scoliosis assessment in three planes (coronal, sagittal, apical) with simultaneous automatic calculation of the Cobb angle in both coronal and sagittal views. This new device is based on direct measurement of the position of the tips of the spinous processes in space. A low intensity electromagnetic field records the spatial position of a sensor attached to the examiner’s finger while palpating the patient’s spinous processes. This study investigates the correlation of spinal deformity measurements with Ortelius800TM radiation-free system as compared to standard radiographic measured Cobb angles in order to assess Ortelius800TM clinical value while enabling a significant reduction of x-ray exposure. Methods: 124 patients diagnosed with Adolescent Idiopathic Scoliosis (AIS) from four different medical centers were measured with the Ortelius800TM system using the same standard protocol. The entire process required an average of 2 minutes. The Ortelius800TM measurements were correlated with the standard Cobb angle as measured on routine standing coronal and sagittal radiographs. The Pearson correlation coefficient was calculated for matched pair measurements. The mean difference and the absolute mean difference between measurements with the two methods was estimated. Results: Standing full-spine coronal radiographs were obtained for each patient. Radiograph analysis for these 124 patients revealed 249 deformity measurements. The deformity measurements were comprised of 142 thoracic curves with a mean of 18.3° and 107 lumbar curves with a mean of 17.4°. Lateral radiographs were obtained from 38 patients with a mean of 36.1°. Correlation between Cobb angles measured manually on standard erect posteroanterior radiographs and those calculated by this new technique showed an absolute difference between the measurements to be significantly less than +\−5° for coronal measurements and significantly less than +\−6° for sagittal measurements indicating good correlation between the two methods. Pearson’s correlation coefficient between deformity angles obtained by the two methods was highly significant (0.86) with a P value < 0.0001. The measurements from four independent sites were not significantly different. Discussion: The results reveal good correlation between the two measuring methods in both coronal and sagittal views. We propose the Ortelius800TM as a clinical tool for the routine follow-up measurements of AIS patients, thus enabling a significant reduction of radiation exposure

Summary Statement. DNA damage induced by systemic drugs or local γ-irradiation drives disc degeneration and DNA repair ability is extremely important to help prevent bad effects of genotoxins (DNA damage inducing agents) on disc. Introduction. DNA damage (genotoxic stress) and deficiency of intracellular DNA repair mechanisms strongly contribute to biological aging. Moreover, aging is a primary risk factor for loss of disc matrix proteoglycan (PG) and intervertebral disc degeneration (IDD). Indeed, our previous evidences in DNA repair deficient Ercc1−/Δ mouse model strongly suggest that systemic aging and IDD correlate with nuclear DNA damage. Thus the aim of the current study was to test whether systemic or local (spine) genotoxic stress can induce disc degeneration and how DNA repair ability could help prevent negative effects of DNA damage on IDD. To test this hypothesis a total of twelve Ercc1−/Δ mice (DNA repair deficient) and twelve wild-type mice (DNA repair competent) were challenged with two separate genotoxins to induce DNA damage, i.e. chemotherapeutic crosslinking agent mechlorethamine (MEC) and whole-body gamma irradiation. Local effects of gamma irradiation were also tested in six wild-type mice. Methods. Ercc1. −/Δ. mice (n=6) and their wild-type littermates were chronically exposed to genotoxic stress beginning at 8 wks of age by subcutaneous administration of a subtoxic dose of MEC (8 μg/kg once per week for 6 weeks). Similarly, six Ercc1. −/Δ. mice and their wild-type littermates were exposed to genotoxic stress by whole-body administration of ∼10% radiotherapeutic dose of ionizing radiation (0.5 Gy 1x per week for 10 weeks). A third set of wild-type mice (n=6) were exposed to one shot local spine irradiation at 0, 6, and 10 Gy at 22 weeks old and sacrificed 10 weeks later. Histological staining for proteoglycan (Safranin O) and collagen (Masson's Trichrome), PG synthesis (. 35. S-sulfate incorporation) and GAG content (DMMB assay), disc ADAMTS4, aggrecan and its fragments terminating in NITEGE-. 373. (immunohistochemistry (IHC)) were analyzed. Cellular senescence markers (p16) and apoptosis (TUNEL assay) were also measured. Results. Histological staining revealed substantial reduction in matrix collagen, proteoglycan, and endplate cellularity in the discs of MEC-exposed and irradiated mice. IHC analysis showed decreased aggrecan and increased levels of ADAMTS4 and NITEGE-. 373. containing aggrecan proteolytic fragments. Disc PG synthesis was reduced 2–3 folds in MEC-treated mice and irradiated mice. Locally irradiated mice showed similar effects on disc matrix. Expression of p16 as well as apoptosis significantly increased in MEC-treated and irradiated mice. The overall effect of the treatments on disc matrix and endplate cartilage was more severe in Ercc1−/Δ mice than wild-type mice. Discussion/Conclusion. MEC and IR treatment resulted in loss of disc matrix proteoglycan and collagen in adult wild-type and Ercc1−/Δ mice. The finding that loss of matrix proteoglycan was greater in the DNA repair deficient mice strongly supports the conclusion that DNA damage can drive disc degeneration and DNA repair ability is extremely important to help prevent these effects. Results of this work suggest that patients treated with genotoxic drugs (i.e. long-term cancer survivors) may be at increased risk of IDD

Aims

Highly cross-linked polyethylene (HXLPE) greatly reduces wear in total hip arthroplasty, compared to conventional polyethylene (CPE). Cross-linking is commonly achieved by irradiation. This study aimed to compare the degree of cross-linking and in vitro wear rates across a cohort of retrieved and unused polyethylene cups/liners from various brands.

Aims

Recurrent dislocation is both a cause and consequence of glenoid bone loss, and the extent of the bony defect is an indicator guiding operative intervention. Literature suggests that loss greater than 25% requires glenoid reconstruction. Measuring bone loss is controversial; studies use different methods to determine this, with no clear evidence of reproducibility. A systematic review was performed to identify existing CT-based methods of quantifying glenoid bone loss and establish their reliability and reproducibility

Abstract

Robotic-assisted total knee arthroplasty (TKA) has proven higher accuracy, fewer alignment outliers, and improved short-term clinical outcomes when compared to conventional TKA. However, evidence of cost-effectiveness and individual superiority of one system over another is the subject of further research. Despite its growing adoption rate, published results are still limited and comparative studies are scarce. This review compares characteristics and performance of five currently available systems, focusing on the information and feedback each system provides to the surgeon, what the systems allow the surgeon to modify during the operation, and how each system then aids execution of the surgical plan.

Cite this article: Bone Jt Open 2023;4(1):13–18.

Aims

Radiological residual acetabular dysplasia (RAD) has been reported in up to 30% of children who had successful brace treatment of infant developmental dysplasia of the hip (DDH). Predicting those who will resolve and those who may need corrective surgery is important to optimize follow-up protocols. In this study we have aimed to identify the prevalence and predictors of RAD at two years and five years post-bracing.

Aims

This systematic review aims to identify 3D predictors derived from biplanar reconstruction, and to describe current methods for improving curve prediction in patients with mild adolescent idiopathic scoliosis.

Aims

The number of females within the speciality of trauma and orthopaedics (T&O) is increasing. The aim of this study was to identify: 1) current attitudes and behaviours of UK female T&O surgeons towards pregnancy; 2) any barriers faced towards pregnancy with a career in T&O surgery; and 3) areas for improvement.

Aims

The aim of this study was to establish a reliable method for producing 3D reconstruction of sonographic callus.