Aims. This study aims to enhance understanding of clinical and radiological consequences and involved mechanisms that led to corrosion of the Precice Stryde (Stryde) intramedullary lengthening nail in the post market surveillance era of the device. Between 2018 and 2021 more than 2,000 Stryde nails have been implanted worldwide. However, the outcome of treatment with the Stryde system is insufficiently reported. Methods. This is a retrospective single-centre study analyzing outcome of 57 consecutive lengthening procedures performed with the Stryde nail at the authors’ institution from February 2019 until November 2020. Macro- and microscopic metallographic analysis of four retrieved nails was conducted. To investigate observed corrosion at telescoping junction, scanning electron microscopy (SEM) and energy dispersive x-ray spectroscopy (EDX) were performed. Results. Adjacent to the nail’s telescoping junction, osteolytic changes were observed in bi-planar radiographs of 20/57 segments (35%) after a mean of 9.5 months (95% confidence interval 7.2 to 11.9) after surgery. A total of 8/20 patients with osseous alterations (40%) reported rest and ambulation pain of the lengthened segment during consolidation. So far, 24 Stryde nails were retrieved and in 20 (83%) macroscopic corrosion was observed at the nail’s telescoping junction. Before implant removal 11/20 radiographs (55%) of lengthened segments with these 20 nails revealed osteolysis. Implant retrieval analysis by means of SEM showed pitting and crevice corrosion. EDX detected chromium as the main metallic element of corrosion. Conclusion. Patients are exposed to the risk of implant-related osteolysis of unclear short- and long-term clinical consequences. The authors advocate in favour of an early implant removal after osseous consolidation. Cite this article: Bone Joint Res 2021;10(7):425–436

The vast majority of total hip replacements (THR) implanted today enable modularity by means of a tapered junction; based on the Morse taper design introduced for cutting tools in the 19. th. Century . 1. Morse-type tapers at the head-stem junction provide many benefits, key for a successful surgical outcome such as wider component selection and restoration of better biomechanics . 2. However, moving from mono-block to modular designs has not been without its issues. Fluid ingress and motion at the interface has led to a complex multifactorial degradation mechanism better known as fretting-corrosion . 3. Fretting-corrosion products created at the junction are commonly associated with adverse local tissue reactions . 4. . There is a wide variation in the taper junction of THR differing quite significantly from Morse's original design. Performance of the taper junction has been found to vary with different designs . 5,6. However, there is still a lack of common understanding of what design inputs makes a ‘good’ modular taper interface. The aim of this study was to better understand the links between implant design and fretting-corrosion initially focussing on the role of angular mismatch between male and female taper. A combination of experimental approaches with the aid of computational models to assist understanding has been adopted. A more descriptive understanding between taper design, engagement, motion and fretting-corrosion will be developed. Three different sample designs were created to represent the maximum range of possible angular mismatches seen in clinically available THR modular tapers (Matched: 0.020 ±0.002 °, Proximal: 0.127 ±0.016 °, Distal: −0.090 ±0.002 °). Head-stem components were assembled at 2 kN. Motion and fretting-corrosion at the interface was simulated under incremental uniaxial sinusoidal loading between 0.5–4 kN at 8 intervals of 600 cycles. The different types of motions at the interface was measured using a developed inductance circuit composed of four sensing coils, digital inductance converter chip (LDC1614, Texas Instruments, US) and microcontroller (myRIO, National Instruments, US). Fretting-corrosion was measured using potentiostatic electrochemical techniques with an over potential of +100 mV vs OCP (Ivium, NL). Complimentary finite element (FE) models were created in Ansys (Ansys 19.2, US). Under uniaxial loading, the ‘matched’ modular taper assemblies corroded most and allowed the greatest pistoning motion due to a seating action. ‘Distal’ and ‘proximal’ engaged modular tapers showed reduced corrosion and seating when compare to the ‘matched’ components. However the kinetics of corrosion and motion were interface dependent. It is hypothesized, and complimented by FEA analysis, that lower initial contact stress in the ‘matched’ modular tapers allows for greater subsidence and depassivation of the oxide layer and higher corrosion. ‘Matched’ modular tapers allowed less rotational and toggling motions compared to mismatched tapers, suggesting a reduced mismatch might perform better once the heads have seated over time. Future work involves tests conducted under a surgically relevant impaction force and physiological loading kinematics to develop this descriptive link between taper design, engagement and performance

Introduction. Ring breakage is a rare but significant complication requiring revision surgery and prolonging the course of treatment. We have encountered three cases with Taylor Spatial Frames (TSF) with breakage at the half ring junction of the distal ring. This experimental study examines the strains produced at different locations on the distal ring during loading and the effects of altering the construct in order to develop techniques to minimise the risk of breakage. Materials and Methods. We mounted different TSF constructs on tibia sawbone models. Construct 1 reproducing the configuration of cases where failure was seen, Construct 2 with different wire and half pin configuration and construct 3 with the distal ring rotated 60 degrees. Strain Gauges were attached to different locations and measurements were collected during loading. Statistical analysis was subsequently performed. Results. The highest strain values were recorded at the half ring junction of constructs 1,2 (>600 microstrains in tension). Rotating the ring 60 degrees significantly reduces the strain observed at the half ring junction (300 microstrains) (p=.000). Strain is increased in areas close to where a half pin attaches to the ring. Conclusions. The highest strains are observed in the half ring junction as the two half rings are subjected to different modes of loading. This area is at higher risk of failure as the thickness of the half rings is halved and their second moment of area significantly reduced. Positioning this junction close to the half pin frame interface increases the strain produced. This interface is dictated by the safe zone in the mid-distal diaphysis of the tibia. Rotating the distal ring 60 degrees has a protective effect by significantly reducing the strain. This simple technical tips should be taken into consideration in order to reduce the risk of breakage at the half ring junction

Aims. Gap junction intercellular communication (GJIC) in osteocytes is impaired by oxidative stress, which is associated with age-related bone loss. Ageing is accompanied by the accumulation of advanced oxidation protein products (AOPPs). However, it is still unknown whether AOPP accumulation is involved in the impairment of osteocytes’ GJIC. This study aims to investigate the effect of AOPP accumulation on osteocytes’ GJIC in aged male mice and its mechanism. Methods. Changes in AOPP levels, expression of connexin43 (Cx43), osteocyte network, and bone mass were detected in 18-month-old and three-month-old male mice. Cx43 expression, GJIC function, mitochondria membrane potential, reactive oxygen species (ROS) levels, and nicotinamide adenine dinucleotide phosphate (NADPH) oxidase activation were detected in murine osteocyte-like cells (MLOY4 cells) treated with AOPPs. The Cx43 expression, osteocyte network, bone mass, and mechanical properties were detected in three-month-old mice treated with AOPPs for 12 weeks. Results. The AOPP levels were increased in aged mice and correlated with degeneration of osteocyte network, loss of bone mass, and decreased Cx43 expression. AOPP intervention induced NADPH oxidase activation and mitochondrial dysfunction, triggered ROS generation, reduced Cx43 expression, and ultimately impaired osteocytes’ GJIC, which were ameliorated by NADPH oxidase inhibitor apocynin, mitochondria-targeted superoxide dismutase mimetic (mito-TEMPO), and ROS scavenger N-acetyl cysteine. Chronic AOPP loading accelerated the degradation of osteocyte networks and decreased Cx43 expression, resulting in deterioration of bone mass and mechanical properties in vivo. Conclusion. Our study suggests that AOPP accumulation contributes to age-related impairment of GJIC in osteocytes of male mice, which may be part of the pathogenic mechanism responsible for bone loss during ageing. Cite this article: Bone Joint Res 2022;11(7):413–425

Wear debris associated with CoCr bearings has been implicated in the development of adverse soft tissue reactions and pseudotumors following THA with large metal heads and following hip resurfacing. Additional concerns have been raised regarding trunion fretting and corrosion. Most recently, the neck-stem junction of some modular femoral stem designs have come under additional scrutiny. We undertook a review of patients who had undergone THA with a proximal modular junction stem design in order to ascertain the state of the junction in early follow up. We examined the records of all patients in our practice who had undergone uncomplicated, unilateral THA with the ARC stem (OmniLife Science, East Taunton, MA, USA) between April 2010 and April 2012. Office records, radiographs and laboratory data were included. Serum or blood cobalt and chromium ion levels were obtained at the one-year post-op visit or later or if the patient had unexpected pain. The test obtained (serum or blood) was dependent on the lab performing the study. In the study period 100 patients met the inclusion criteria and had metal ion levels available for review. No patient required revision for adverse soft tissue reaction or elevated metal ion levels. Cobalt levels fell with the normal lab ranges in the majority of patients with a very small percentage demonstrating levels slightly above the normal range. Chromium levels all fell within the expected normal range. One patient had a neck exchange for mechanical reasons at 8 weeks following primary THA. This patient went on to develop elevated serum cobalt levels and a large hip effusion. The hip was revised at one year to a non-modular stem. A modular proximal stem offers the advantages of addressing variable anatomy and allowing less soft tissue dissection. Some designs have enjoyed success while others have been withdrawn from the market due to fatigue failure, dissociation or metal-associated adverse reactions. Modular junction designs vary greatly which can impact their inherent stability and their ability to resist micro-motion. In this patient group the junction has shown good stability in early follow up as judged by clinical and laboratory data. Cobalt levels were all normal or well below the range considered suspicious for adverse reaction. Chromium levels all fell within the normal range. A case of an exchanged neck with retention of the stem was associated with high cobalt levels. We discuss several junction designs and their characteristics

Injuries at the occipitocervical junction are commonly due to high velocity trauma. Because of severe injury to the cervicomedullary junction and concomitant cerebral trauma, they are usually fatal. We describe our experience in the management of five patients who initially survived the injuries. Between 1995 and 2000 we treated four men and one woman, ranging in age from 23 to 47 years, injured in motor vehicle accidents. All patients had head injuries, three with cranial nerve involvement, and four had polytrauma. Although initial radiographs of the skull included the occipitocervical junction, the traumatic disruption of the occipitocervical junction was not diagnosed for between two days and five weeks. One patient, who had no neurological deficit, developed periodic weakness of the lower limbs with rotation of the neck. In three patients the dislocation was posterior and in two it was anterior to Wackenheim’s line. Three of four patients who required ventilatory support died before surgical stabilisation. The dislocation was reduced in only one of the remaining two, both of whom underwent a successful occipitocervical fusion (O-C2), with subsequent complete neurological recovery. In patients with polytrauma, meticulous clinical evaluation and appropriate radiographic investigations of the occipitocervical junction are essential for early recognition and management of this potentially fatal injury

Background. It is still controversial whether “labral tear” in the pelvis or “pincer type's femoroacetabular impingement syndrome” should be considered a pathologic lesion, and whether they cause the early onset of osteoarthritis in the pelvis. Hypothesis. The disruption of chondrolabral junction causes degenerative change on hip joint, and the disruption of the vessel tissue to the labrum induces the rapidly progressive degeneration of outside in osteoarthritis changes. Methods. Femoral acetabulum has been escaped from the chondrolabral junction and expanded to the acetabulum inside or outward. Therefore we report the cases. Results. We found cases which has chondrolabral junction disruptive slippage, and disruption of the vessel tissue and inverted or everted labral pathologic lesion, which we named COLADIS, chondrolabral junction disruptive slippage. Conclusion. COLADIS (chondrolabral junction disruptive slippage) caused symptoms on patient's hip, and may be the pre-pathologic lesion of early osteoarthritis

Background: It is taught that ruptures of the Achilles tendon occur at the musculotendinous junction and indeed ultrasound reports will often confirm this. This study investigates the orthopaedic surgeon’s understanding of the clinical significance and location of the musculotendinous junction. Materials and Methods: A survey of orthopaedic surgeons at a regional orthopaedic meeting. Two transverse lines were drawn on a photograph of a lower limb identifying the musculotendinous junction, and marking the highest level at which they would consider a surgical repair. They were asked about their understanding of the term “musculotendinous junction”. Results: Twenty two delegates of various degrees of seniority responded. Surgeons estimate of musculotendinous junction level: 10.1 cm. Anatomical level of musculotendinous junction: 5.51 cm. Average highest level for considering surgical intervention: 8.71 cm. Conclusions: There is confusion regarding the exact location and nature of the Achilles musculotendinous junction amongst orthopaedic surgeons. Particular care is advised when interpreting ultrasound reports. An Achilles surgical zone has been identified (0–10 cm from the calcaneal insertion) within which the majority of surgeons would consider surgical intervention for rupture

Introduction. The gastrocnemius tendon extends from the musculotendinous junction proximally to the conjoint junction with soleus distally. The morphology of the junction has not, to our knowledge, been described previously. Lengthening of the gastrocnemius tendon is a standard surgical procedure in surgery for cerebral palsy. The aims of the study were to describe the morphology of the conjoint junction and to identify the location of the gastrocnemius tendon relative to palpable bony landmarks to assist with incision planning. Methods. Twenty-one embalmed adult cadaveric specimens were dissected to document the morphology of the conjoint junction. The location of the gastrocnemius tendon was measured relative to the distance between the palpable bony landmarks of the calcaneus and the head of the fibula. Results. The conjoint junction morphology was transverse in 9/21 (43%), oblique in 6/21 (29%), and arcuate as an inverted ‘U’ in 4/21 legs (19%) and ‘U’ shaped in 2/21 legs (9%). On the medial side of the leg the gastrocnemius tendon was located between 35% and 43% of the distance between the calcaneus and fibula head. The corresponding distances for the midline were 39% and 56% and for the lateral side 40% and 50%. Conclusion. The morphology of the conjoint junction varied in the specimens studied. An indication of the site of the gastrocnemius tendon relative to identifiable bony landmarks may help in incision planning either for open or endoscopic gastrocnemius lengthening

Summary Statement. Differential expression of canonical and noncanonical Wnt signalling along cartilage canals and osteochondral junctions is dependent on age. Increased gene expression of PTHrP along cartilage canals and Ihh along osteochondral junctions suggests paracrine feedback in articular-epiphyseal cartilage. Introduction. Wnt signaling has been shown to regulate chondrocyte differentiation during pre-/post-natal cartilage development. In addition, parathyroid-related peptide(PTHrP) and Indian hedgehog(Ihh) create a negative feedback loop in growth cartilage, but less is known in articular cartilage. The objective of this study was to elucidate expression of regulatory molecules in chondrocytes surrounding cartilage canals and osteochondral junctions during neonatal and pre-adolescent development. We hypothesised there would be increased expression of canonical Wnt signalling molecules and Ihh in osteochondral junction chondrocytes compared to cartilage canal chondrocytes. In addition, we hypothesised that Wnt signaling and PTHrP expression would be greater in neonates than pre-adolescents. Patients & Methods. Osteochondral samples were obtained(IACUC-approved) from normal femoropatellar joints of 14 euthanised immature horses(6 neonates, 8 pre-adolescents). Samples were frozen in OCT for laser capture microdissection(LCM) or fixed in 4% paraformaldehyde and paraffin-embedded for immunohistochemistry. Chondrocytes surrounding cartilage canals and osteochondral junctions were captured using LCM. Following RNA isolation, equine-specific β-catenin, Wnt-4, Wnt-5b, Wnt-11, Dickkopf-1(Dkk-1), low-density lipoprotein receptor-related protein-4,-6(Lrp4, Lrp6), Axin1, Wnt inhibitory factor-1(WIF)-1, secreted Frizzled-related protein-1,-3,-5(sFRP), retinoic acid receptor gamma(RARG), RAR-inducible serine carboxypeptidase(SC-PEP), Ihh, PTHrP, VEGF, PDGF, MMP-13, and 18S mRNA expression levels were evaluated by two-step real-time qPCR. Following immunohistochemistry using rabbit polyclonal or mouse monoclonal primary antibodies (confirmed by Western blot), spatial tissue protein expression was scored (0–3). Statistical analysis included Wilcoxon signed rank test(paired samples) or rank sum test(unpaired samples)(P<0.05). Results. Gene expression in chondrocytes along cartilage canals was significantly higher for PTHrP, β-catenin, Lrp6, Axin1, sFRP5, RARgamma, and SC-PEP than osteochondral junctions. Conversely, gene expression of Ihh, Wnt4, Wnt11, sFRP3, and VEGF were higher in osteochondral junction chondrocytes than cartilage canals. There was higher protein expression of β-catenin, PDGF, VEGF, and MMP-13 along osteochondral junctions than cartilage canals of pre-adolescents. Neonates had higher gene expression of PTHrP, Wnt-5b, sFRP3, Lrp6, and RARG in cartilage canal chondrocytes than pre-adolescents, while Ihh, Wnt-11, Lrp4, and Dkk1 were significantly higher in pre-adolescents. Immunostaining was higher for β-catenin and Wnt-11 in pre-adolescent osteochondral junction cartilage than neonates. No differences were found between age groups for Wnt-4 immunostaining. Dkk1 protein expression was significantly higher in the middle cartilage layer of pre-adolescents than neonates. Immunostaining was greater for Ihh and PTHrP in the deep cartilage layer of pre-adolescents than neonates. PDGF, VEGF, and MMP13 protein expression was higher in the superficial cartilage layer of pre-adolescents than neonates. Discussion. Wnt/β-catenin and Ihh/PTHrP signaling regulate cartilage differentiation during development and are important in endochondral ossification. This study revealed cell-specific, age-related differences in gene/protein expression of both regulatory pathways. Cells surrounding cartilage canals typically appeared small/rounded compared to larger chondrocytes along osteochondral junctions, likely due to different developmental stages. Higher PTHrP gene expression along cartilage canals and Ihh expression along osteochondral junctions may reflect these stages, suggesting paracrine feedback in articular-epiphyseal cartilage. β-catenin signaling may induce chondrocyte hypertrophy, potentially by enhancing Ihh and MMP-13 expression. Differential expression of canonical(β-catenin, Wnt-4, Lrp4, Lrp6) and noncanonical Wnt signalling(Wnt-5b, Wnt-11) and Wnt inhibitors (Dkk1, Axin1, sFRP3, sFRP5, Wif-1) surrounding cartilage canals and osteochondral junctions provides evidence of age-related interactions during postnatal development

Introduction. Ion analysis has been used as one of the key indicators to assess the performance of MoM devices in patients. Modular devices, in particular having larger overall surface area (the stem and sleeve), and locking interfaces (head – bore, sleeve- taper and sleeve-bore, stem-taper surfaces) than other MoM devices are expected to release greater number of ions. Concerns have been expressed that the ion release at the taper junction might be a potential cause leading to the failure of the implant [Garbuz et al, 2010]. The aim of this study was to look into the wear and the associated ion release from the taper junction and the articulating surface of modular devices. Method. For the first time a novel design has been used to isolate the taper junction on modular devices on the hip simulators in order to compare the wear at the taper junction and articulating surface. The taper junction has been isolated in a small gaiter, while the head and cup were contained in a large gaiter. CoCrMo sleeves having an offset of +8 mm have been used on 50 mm modular heads along with Ti6Al4V stems. The acetabular components were standard BHR cups. Three devices (Smith & Nephew, UK) have been tested with newborn calf serum as a lubricant (in the large gaiter) and also as the medium containing the taper junction (in the small gaiter). The serum samples from the articulating surface and taper junction were analysed using HR-ICPMS. The locking interfaces at the taper junction have been left intact throughout the duration of the test. Both the head and the cup have been tested under anatomical conditions using the standard implant development centre's (IDC) profile for 2 million cycles (Mc). The lubricant was newborn calf serum with 0.2% sodium azide diluted with de-ionised water to achieve protein concentration of 20 mg/ml. The flexion/extension was 30°/15° and the internal/external rotation was ±10°. The force was Paul-type stance phase loading with a maximum load of 3 kN and a standard ISO swing phase load of 0.3 kN. The frequency was 1 Hz, with an 8 hour stop after every 16 hours of testing. Results and discussion. The ion analysis results from the articulating surface expressed in cumulative volume showed a biphasic wear trend at 0.96 ± 0.15 mm. 3. (0.5 Mc) and 1.05 ± 0.13 mm. 3. (2 Mc). The ion analysis results obtained for the samples from the small gaiter are (1.83 ± 0.35) x 10. −3. mm. 3. at 0.5 Mc and (4.52 ±0.83) x 10. −3. mm. 3. (2 Mc). On comparison, the ion release from the taper junction is 100 fold lower than that from the articulating surface. It should be noted that the ion release from the taper junction can be influenced by the material, tolerance, surface finish and design of the taper joint. Conclusion. The ion release associated with the taper junction is extremely low when compared with the ion release from the articulating surface

Introduction. Fatigue and wear at the head/stem modular junction of large diameter total hip replacements can be exacerbated as a result of the increase in frictional torque. In vivo, a “toggling,” anterior-posterior (A-P) movement of the head taper on the trunnion may facilitate corrosion in the presence of physiological fluids, leading to increased metal ion release. Clinically, metal ion release has been linked to the formation of pseudo tumours and tissue necrosis [1]. Aims. In this investigation, a large diameter metal on metal THR was tested on a rig designed to recreate the toggling motion at the head/stem junction. Post-test analyses are conducted to look for evidence of mechanical and corrosive damage. Methods and Materials. A 58 mm diameter metal head (12/14 taper) was assembled onto a sectioned Freeman stem affixed to custom designed rig that enabled both, axial loads and a frictional torque (for the AP toggle load) about the rotation of the femoral head to be applied as shown in Figure 1. A linear variable differential transformer (LVDT), which had a minimum resolution of 0.5 microns, was positioned in contact with the neck directly under the modular head to track A-P movements at the junction. An axial load of 150N with toggle loads varying between 100 (± 50N) and 200N (± 50N) at 1 Hz were run on 4 taper assemblies, 2 dry and 2 wet (incorporating a physiological fluid at the junction) between 400,000 and 600,000 cycles. Movement at the junction was recorded, followed by visual inspection and RedLux® surface profile analysis of the taper and trunnion. Results and Conclusion. The LVDT could successfully record movement at the junction. Initially (∼1000 cycles), the movement at the junction was found to be variable and between 5–10 microns, which can be attributed to the taper “bedding-in” on to the trunnion. The movement was then found to steadily increase before stabilising. The dry tapers recorded motion ranging between 5–15 microns, and between 10–20 microns for the wet taper. Visual inspection post testing showed minimal or no damage on the trunnion or taper surfaces on the dry tests. However, the trunnion and taper on the wet samples displayed marks and scratches on the surface (Figure 2). In addition, there was visible surface discolouration on both wet taper assemblies but none observed on the dry assemblies. This was further corroborated by Redlux topography measurements that also showed that material had been removed from both surfaces. The pilot study showed that A-P toggle movements at the junction could be produced by incorporating torque about the rotation of the head. Damage was evident on both the trunnion and taper surfaces, and discoloration was observed at the junction when fluid was introduced

Introduction. Dual-mobility bearings increase the stable range of motion of total hip arthroplasty (THA) but are limited by the mechanical effects of a large diameter metal on polyethylene bearing which may cause high rates of wear from the surfaces of the polyethylene bearing and the head-stem taper. Improved polyethylene (PE) has reduced concern over bearing wear but the effects on the taper junction are unknown. We aimed to better understand the effect of dual mobility bearings on fretting-corrosion damage to the taper junction by comparison to standard bearings. Materials and Methods. We collected and analysed retrieved hips of one design with either dual mobility (n= 39) or standard bearings (n=30). The bearing size in the dual mobility group was 42mm whereas in the standard bearing group it had a median of 36mm. Stem trunnions had V40 tapers. Time of implantation and body mass index were comparable between the two groups. Fretting and corrosion at the stem trunnions was quantified by: 1) visual scoring and 2) surface profilometry. Results. Corrosion and fretting of the head-stem taper junction was lower in the dual mobility group when compared to the standard group as measured by both visual scoring (p=0.0002) and surface profilometry to measure material loss (p<0.0001). We did not see black debris, characteristic of severe corrosion processes, at the male surfaces in the dual mobility group. Discussion. In this study, visual damage at the male taper surfaces of dual mobility systems was less that that occurring at the male taper surfaces of standard articulating systems, measurements of wear rates were in agreements with the macroscopic evaluation. Conclusions. The frictional torque on the head-stem taper junction may be reduced with the use of a dual-mobility system when compared to a standard bearing system

Juvenile Osteochondritis dissecans (JOCD) in humans and subchondral cystic lesions (SCL) in horses (also termed radiolucencies) share similarities: they develop in skeletally immature individuals at the same location in the medial femoral condyle (MFC) and their etiology is only partially understood but trauma is suspected to be involved. JOCD is relatively uncommon in people whereas SCLs arise in 6% of young horses leading to lameness. Ischemic chondronecrosis is speculated to have a role in both osteochondrosis and SCL pathogenesis. We hypothesize that MFC radiolucencies develop very early in life following a focal internal trauma to the osteochondral junction. Our aims were to characterize early MFC radioluciencies in foals from 0 to 2 years old. Distal femurs (n=182) from Thoroughbred horses (n=91, 0–2 years old), presented for post-mortem examination for reasons unrelated to this study, were collected. Radiographs and clinical tomodensitometry were performed to identify lesions defined as a focal delay of ossification. Micro-tomodensitometry (m-CT) and histology was then performed on the MFCs (CT lesions and age-matched subset of controls). Images were constructed in 3D. The thawed condyles, following fixation, were sectioned within the region of interest, determined by CT lesion sites. Hematoxylin eosin phloxin and safran (HEPS) and Martius-Scarlet-Blue (MSB) stains were performed. Histological parameters assessed included presence of chondronecrosis, fibrin, fibroplasia and osteochondral fracture. An additional subset of CT control (lesion-free) MFCs (less 6 months old) were studied to identify early chondronecrosis lesions distant from the osteochondral junction. One MFC in clinical CT triages controls had a small lesion on m-CT and was placed in the lesion group. All m-CT and histologic lesions (n=23) had a focal delay of ossification located in the same site, a weight bearing area on craniomedial condyle. The youngest specimen with lesions was less than 2 months old. On m-CT 3D image analysis, the lesions seemed to progressively move in a craniolateral to caudomedial direction with advancing age and development. Seventy-four percent (n=17/23) of the lesions had bone-cartilage separation (considered to be osteochondral fractures) confirmed by the identification of fibrin/clot on MSB stains, representing an acute focal bleed. Fibroplasia, indicating chronicity, was also identified (74%, n=17/23). In four cases, the chondrocytes in the adjacent cartilage were healthy and no chondronecrosis was identified in any sections in the lesions. Nineteen cases had chondronecrosis and always on the surface adjacent to the bone, at the osteochondral junction. None of the subset of control specimens, less than 6 months old (n=44), had chondronecrosis within the growth cartilage. Early subchondral cystic lesions of the medial femoral condyle may arise secondary to focal internal trauma at the osteochondral junction. The presence of fibrin/clot is compatible with a recent focal bleed in the lesion. Medial femorotibial joint internal forces related to geometry could be the cause of repetitive trauma and lesion progression. In the juvenile horse, and potentially humans, the early diagnosis of MFC lesions and rest during the susceptible period may reduce progression and promote healing by prevention of repetitive trauma, but requires further study

Summary Statement. We successfully delineated the 3D micro morphology of chondrocytes in patella-patellar tendon using IL-XPCT for the first time. Compared with conventional histology, IL-XPCT can not only provide a higher resolution imgaing but also keep the 3D integrity of the specimen. Introduction. The morphology of the bone-tendon junction was complex and quite different from other organs, which result the injured bone-tendon junction repair process too slowly. To study the micro morphology of the bone-tendon junction in 3D may have a great significant value to revealing the repair mechanisms of this pathological process and accelerating injured bone-tendon junction repair. However, it was hindered by the convention methods such as histologic section. In our study, a novel imaging tool, synchrotron radiation based in-line x-ray phase contrast imaging (IL-XPCT) was used to research the 3D micro morphology of the bone-tendon junction. Methods. 1) Sample Preparation: 3 patella-patellar tendons was harvested from the knee joint of New Zealand adult rabbits and was immediately fixed, rinsed in water for 2 hours. Dehydration was done using a series of graded ethanol. The sample was cut out for the CCD pixel resolution in sagittal section. 2) Image Acquisition: The IL-XPCT was performed at the BL13W1 of the Shanghai Synchrotron Radiation Facility (SSRF) in China. The CCD pixel resolution was 0.74 μm. Image Acquisition include three steps, such as the the acquisition of tomo projections, CT slices and and 3D reconstruction of patella-patellar tendon on full scale by using VG Studio Max version 2.1. 3) Histological characterization observation: After scanning, the specimen was cut to histologic sectioning and used for morphology staining by safranin O staining and H&E staining. The histological morphology then compared with the IL-XPCT imaging dateset. Results. (1) The tissue gradations of patella-patellar tendon are clearly detected by IL-XPCT. (2) The 3D reconstruction image of patella-patellar tendon sample were largely match with the histological morphology stained by safranin O and H&E in sagittal view. (3) After the image segmentation, the 3D micro morphology of the bone-tendon junction could be vividly visualised in multi-angles. Through manipulate threshold of the 3D image, we can successfully obtained the 3D morphology of the chondrocyte, and the smallest diameter is approximately 5μm. Discussion & Conclusion. In the present study, we successfully delineated the 3D micro morphological features of chondrocytes in normal patella-patellar tendon using SR-based IL-XPCT for the first time. Compared with conventional histology, IL-XPCT can not only provide a higher resolution ratio without distortion but also keep the three-dimensional integrity of the specimen. Above all, IL-XPCT opens access to a new dimension in the morphological investigation of bone-tendon junction tissues, giving important complementary information to the conventional morphological analyses in view of the three-dimensional composition of bone-tendon junction tissues, On the other hand, it could be helpful to understanding the repair processes of bone-tendon junction injury and promoting the injured bone-tendon junction repair fast and high quality

Modularity of femoral components has been widely accepted at the head neck junction, most commonly combining two unlike metals with only sporadic reporting of compatibility issues and corrosion. The development and introduction of a new and improved modular neck junction (Rejuvenate Modular Femoral component, Stryker Orthopedics) provided the option of fine-tuning leg lengths, offset and stability. The surgical technique did indeed provide the desired endpoints, however, the early recognition of problems with the junction causing corrosion and Adverse Local Soft Tissue Reaction (ALTR) and subsequent revision has led to the product being voluntarily withdrawn from the market. My experience as an early user of this stem is described in this manuscript providing a better early recognition and treatment of this potentially very destructive process. Methods. A retrospective review of one hundred and ninety one Rejuvenate Stems that were implanted between January 2010 and January of 2012. However, after March 2011, this stem was only used on those patients who had a rejuvenate stem on the contralateral side. They were all implanted through a mini posterior incision with the first 82 patients receiving a Tritanium cluster hole cup (Stryker Orthopedics) with between two and three screws. The remaining 109 patients had an ADM (Anatomic Dual Mobility, Stryker Orthopedics). All patients were allowed to bear weight as tolerated and were followed up with Xrays at six weeks and one year. Clinical visits were recorded at 2 weeks and 6 months postop. Additional follow up was scheduled every two years following the first annual visit. Results. One hundred and seventy four of the 191 hips were available for review at the one-year follow-up. Fourteen patients have undergone revision of the hip due to increased pain and formation of an avascular pseudo capsule due to corrosion at the neck stem junction. All patients have demonstrated a black flaky residue at the taper junction and all have had a large, tense effusion with a milky colored fluid. A neo caspsule has formed in all patients that appeared avascular and thickened. Seven of the eight tritanium cups in the revision cases were loose and required revision, while none of the ADM cups were loose. One patient has undergone two revisions since the initial cause of failure was not recognized and she subsequently developed pain within three months following placement of a new modular neck at the initial revision. One patient who underwent revision developed a deep infection and is currently on antibiotics but has not cleared the infection as of this writing. Conclusion. There has been catastrophic early failure of a modular femoral component due to corrosion at the neck stem junction during the very early stages of follow up. An intense reaction appears to begin early on, perhaps contributing to failure of bony ingrowth in certain cup designs but not others. Patients who develop early onset of discomfort progress to a poorly functioning hip that presents with pain, swelling and decreased ROM. These patients need to be assessed with serum ion levels, joint aspiration for infection and ion levels if possible. A MRI with MARS technology is useful in identifying joint fluid and neo caspsule expansion. These patients should be advised on the adverse reaction that can develop and revision of the hip should be expeditiously carried out

Background. Hip resurfacing has advantages for the young active patient with arthritis; maintaining a large range of motion, preserving bone stock, and reduced dislocation risk. However high serum metal ion levels with metal-on-metal resurfacing, and their clinical implications, has led to a decline in the use of hip resurfacing. Ceramic bearing surfaces display the lowest frictional torque and excellent wear rates. Recent developments have enabled large, strong ceramic materials to be used as resurfacing components. Any wear debris that is generated from these articulations is inert. However an all-ceramic hip resurfacing could be at risk of fracture at the head-stem junction. A new ceramic hip resurfacing system with a titanium-ceramic modular taper junction has been developed. The introduction of a taper introduces the potential for fretting corrosion; we sought to determine the extent of this in an in-vitro model, and compared this prosthesis to the conventional 12/14 titanium-cobalt chrome (Ti6Al4V-CoCr) taper junction. Methods. To simulate the gait cycle, sinusoidal cyclical loads between 300N-2300N, at a frequency of 3Hz, were applied to different head-neck offsets generating different bending moments and torques. The effect of increasing the bending moment and frictional torque were tested separately. Furthermore, the resurfacing head was mounted in a fixture held with just the stem, thus representing complete bone resorption under the head. An electrochemical assessment using potentiostatic tests at an applied potential of 200mV, was used to measure the fretting current (μA) and current amplitude (μA). In a short-term 1000 cycle test, six neck lengths (short to xxx-long) of the Ti6Al4V-CoCr taper were compared to the standard neutral (concentric), and 3mm A/P offset stem options for the resurfacing design. To represent frictional torque, four increments of increasing torque (2-4-6-8Nm) were applied to both tapers. In a long term test with the resurfacing stem, the worst-case scenario of the eccentric offset option and 8Nm of torque were applied, and potentiostatic measurements were taken every million cycles, up to 10 million cycles. Results. For bending moment through the centre of the head, the standard neutral resurfacing taper displayed equivalent fretting current (1.35μA) compared to its conventional taper equivalent, the short 12/14 Ti6Al4V-CoCr taper (Fig. 1a). That was despite the bending moment through the resurfacing taper being higher due to the offset nature of its taper in relation to the centre of the head. For applied torque, the resurfacing taper displayed reduced average fretting current and average maximum fretting current when compared to the conventional taper (Fig. 1b), though this did not reach statistical significance (Kruskal-Wallis test). Under long term testing for worst-case bending and torque, the resurfacing taper displayed low fretting currents (<2μA and <5μA respectively) with no significant variance of the median values across 10 million cycles (Figs. 2 and 3). Conclusion. When compared to the gold-standard taper junction, the LIMA ceramic hip resurfacing displays equivalent fretting corrosion for bending moment and improved fretting corrosion for frictional torque. Across long term testing, stable and low fretting currents at this taper junction highlight its potential in clinical use

Objectives. An ongoing prospective study to investigate failing metal-on-metal hip prostheses was commenced at our centre in 2008. We report on the results of the analysis of the first consecutive 126 failed mated total hip prostheses from a single manufacturer. Methods. Analysis was carried out using highly accurate coordinate measuring to calculate volumetric and linear rates of the articular bearing surfaces and also the surfaces of the taper junctions. The relationship between taper wear rates and a number of variables, including bearing diameter and orientation of the acetabular component, was investigated. Results. The measured rates of wear and distribution of material loss from the taper surfaces appeared to show that the primary factor leading to taper failure is the increased lever arm acting on this junction in contemporary large-diameter metal-on-metal hip replacements. Conclusions. Our analysis suggests that varus stems, laterally engaging taper systems and larger head diameters all contribute to taper failure

Background. Fretting at modular junctions is thought to be a ‘mechanically assisted’ corrosion phenomenon, initiated by mechanical factors that lead to increased contact stresses and micromotions at the taper interface. We adopted a finite element approach to model the head-taper junction, to analyse the contact mechanics at the taper interface. We investigated the effect of assembly force and angle on contact pressures and micromotions, during loads commonly used to test hip implants, to demonstrate the importance of a good assembly during surgery. Methods. Models of the Bimetric taper and adaptor were created, with elastic-plastic material properties based on material tests with the actual implant alloy. FE contact conditions were validated against push-on and pull-off experiments. The models were loaded according to ISO 7206-4 and −6, after being assembled at 2-4-15kN, both axially and at a 30° angle. Average micromotions and contact pressures were analysed, and a wear score was calculated based on the contact pressures and micromotions. Results. The average contact pressure decreased when a higher assembly force was used, with loads being distributed over a larger contact area, but increased when tested at a 30° angle. Average micromotions reduced with a higher assembly load, except when assembled at a 30° angle. The wear score decreased with increasing assembly force, when applied perpendicularly, while when assembled at a 30° angle, the wear score did not reduce with assembly force. Conclusions. The location and patterns of micromotions were consistent with retrieved tapers and those generated in in-vitro test models. Increased impaction loads reduced the average amount of micromotion and fretting. We intend to apply more complex loading regimes in future analyses, enabling to study phenomena such as edge loading and frictional torque. Level of evidence. IIb - Experimental study. Disclosure. This study was financially supported by Biomet UK Healthcare Ltd

Introduction and Aims: The anterior approach to dealing with complex spinal deformities around the cervical thoracic junction presents a surgical challenge. With the help of a cardiothoracic surgeon, a sternal splitting technique was utilised in five paediatric patients to resolve this difficulty and gain access to spinal deformities around the cervical thoracic junction. Method: A longitudinal incision is made parallel to the sternocleido muscle and extended across the sternum for a median sternotomy. The sternocleido muscles are retracted to the lateral aspect of the incision. The carotid and jugular vein are dissected out. To continue with the dissection and exposure of the upper thoracic spine, a full sternotomy is done. The sternum is opened. The dissection of the right carotid is extended over the innominate artery, including the bifurcation of the right subclavian artery. The jugular vein is dissected out coming down to the superior vena cava. The innominate vein is isolated. The lower end of the anterior scalenus muscle is divided up. Results: This technique was employed in five paediatric patients, aged three to 15 years, at the authors’ institution. Diagnoses included Klippel-Feil Syndrome, Proteus Syndrome, Larsen Syndrome and, Neurofibromatosis (two patients). All patients had severe cervical thoracic kyphosis requiring surgical instrumentation. This technique resulted in a range of access from C5 to T6 being granted. In one patient, a separate thorocotemy was performed in order to gain access to the lower thoracic spine. Conclusion: This approach was invaluable in gaining access to the cervical thoracic junction to address complex spinal deformities. Access to the lower cervical and the upper thoracic spine is granted. No significant complications occurred. The aid of a cardiothoracic surgeon is advised