Long-term Joint Research Articles

Comparison of long-term ankle joint function after one-stage and staged microsurgical repair of open achilles tendon defects

PurposeTo explore the differences in long-term ankle joint function between one-stage and staged microsurgical repair of open Achilles tendon defects.MethodsA retrospective analysis of the surgical treatment and follow-up data of 147 patients with open Achilles tendon defects from January 2007 to September 2023 was conducted. Patients were divided into a one-stage reconstruction group (n = 81) and a staged reconstruction group (n = 66) on the basis of whether one-stage microsurgical repair was used. In the one-stage reconstruction group, 43 patients underwent vascular anastomosed fascia lata free anterolateral thigh perforator flap transplantation for repair, and 38 patients underwent descending genicular artery free flap transplantation with the adductor magnus tendon. In the staged reconstruction group, the sural neurovascular flap was used to repair the soft tissue defect in the heel area in the first stage. In the second stage, 31 patients underwent flexor hallucis longus tendon transfer, and 35 patients underwent peroneus longus muscle tendon transfer with the lateral calcaneal artery. Observations included evaluation of the continuity and healing of the Achilles tendon via colour Doppler ultrasound 3 months postoperatively and assessment of ankle joint function 2 years postoperatively using the American Orthopedic Foot and Ankle Society ankle–hindfoot score (AOFAS) and the Achilles tendon total rupture score (ATRS).ResultsThree months after surgery, colour Doppler ultrasound revealed good continuity of the Achilles tendon in all patients, with slight thickening and irregular fibre orientation. Two years after surgery, the ATRS and AOFAS scores of the one-stage reconstruction group were superior to those of the staged group (PATRS < 0.05, PAOFAS < 0.05). Among the one-stage reconstruction group, patients who underwent descending genicular artery-free flap transplantation with the adductor magnus tendon presented better performance in walking on uneven surfaces, fast stair climbing, abnormal gait, plantar flexion and dorsiflexion, and inversion and eversion than did those who underwent vascular anastomosed fascia lata free anterolateral thigh perforator flap transplantation, although there was no overall functional difference (PAOFAS = 0.792; PATRS < 0.001). In the staged repair group, patients who underwent peroneus longus muscle tendon transfer with the lateral calcaneal artery in the second stage had better postoperative follow-up ankle joint function than did those who underwent flexor hallucis longus tendon transfer (PAOFAS < 0.001; PATRS < 0.001). Preoperative injury classification of the heel region (P < 0.001), size of the defect area in the heel region (PAOFAS < 0.001, RAOFAS = -0.397; PATRS < 0.001, RATRS = -0.436), and length of the Achilles tendon defect (PAOFAS < 0.001, RAOFAS = -0.429; PATRS < 0.001, RATRS = -0.280) were associated with postoperative follow-up ankle joint function, whereas preoperative wound infection was not associated with postoperative follow-up ankle joint function (PAOFAS = 0.690, PATRS = 0.759). The surgical method (OR = 49.725, 95% CI: 16.996 ~ 145.478) and the preoperative heel region defect area (OR = 0.947, 95% CI: 0.903 ~ 0.992) were found to be independent risk factors affecting the postoperative follow-up of ankle joint function in patients with open Achilles tendon defects.ConclusionThe use of a one-stage microsurgical reconstruction method for open Achilles tendon defects is more conducive to Achilles tendon healing and results in a better long-term ankle joint function prognosis. The use of vascularised tendon tissue to repair Achilles tendon defects is a good choice that meets the needs of anatomically and physiologically functional reconstruction of the Achilles tendon.

The miR-6779/XIAP axis alleviates IL-1β-induced chondrocyte senescence and extracellular matrix loss in osteoarthritis.

Osteoarthritis (OA) is a long-term degenerative joint disease worsening over time. Aging and chondrocyte senescence contribute to OA progression. MicroRNAs have been confirmed to regulate different cellular processes. They contribute to OA pathology and may help to identify novel biomarkers and therapies for OA. This study used bioinformatics and experimental investigations to analyze and validate differentially expressed miRNAs in OA that might affect chondrocyte apoptosis and senescence. miR-6779 was found to be significantly down-regulated in OA. Seventy-six of the predicted and miR-6779 targeted genes and the OA-associated disease genes overlapped, and these were enriched in cell proliferation, cell apoptosis, and cell cycle. miR-6779 overexpression remarkably attenuated IL-1β effects on chondrocytes by reducing MMP3 and MMP13 levels, promoting cell apoptosis, suppressing cell senescence, and increasing caspase-3, caspase-9 and reducing P16 and P21 levels. miR-6779 targeted inhibition of X-linked inhibitor of apoptosis protein (XIAP) expression. XIAP knockdown partially improved IL-1β-induced chondrocyte senescence and dysfunction. Lastly, when co-transfected with a miR-6779 agomir, the XIAP overexpression vector partially attenuated the effects of miR-6779 overexpression on chondrocytes; miR-6779 improved IL-1β-induced senescence and dysfunction in chondrocytes through targeting XIAP. miR-6779 is down-regulated, and XIAP is up-regulated in OA cartilage and IL-1β-treated chondrocytes. miR-6779 inhibits XIAP expression, thereby promoting senescent chondrocyte cell apoptosis and reducing chondrocyte senescence and ECM loss through XIAP.

Case Report: Isolated osteochondral fracture of the weight-bearing lateral femoral condyle

Introduction Osteochondral fractures (OCF)s of the femoral condyle are rare in pediatric patients but can have significant implications if missed or left untreated. Surgical fixation is often recommended, particularly in young, to restore joint congruency and function. Case report We report the case of a 14-year-old boy who presented with isolated weight-bearing OCF of the lateral femoral condyle following a sports injury. Magnetic resonance imaging (MRI) revealed a 30.4 mm osteochondral fragment confirmed by arthroscopy but unsuitable for percutaneous management due to its size and location. Open reduction and internal fixation were performed using headless compression screws, a technique reserved for those cases where based on sufficient detached fragment bone to facilitate secure fixation and bone-to-bone healing. Conclusion This case underscores the importance of prompt diagnosis and individualized treatment to prevent long-term joint damage, contributing valuable insights into the management of pediatric femoral osteochondral fractures.

Carpal Kinematics in the Normal, Scapholunate Ligament Deficient, and Surgically Reconstructed Wrist.

The objective of this study was to evaluate scaphoid, lunate and capitate kinematics after disruption to the primary and secondary scapholunate ligamentous stabilizers, and to assess the effectiveness of scapholunate ligament reconstruction in restoring carpal kinematics post-operatively. Seven upper extremities were harvested, and the scapholunate interosseous ligament (SLIL) was divided. Specimens were mounted onto a computer-controlled dynamic wrist simulator, and simulations of flexion-extension, radial-ulnar deviation, and dart-thrower's motion were undertaken by simulated force application to the wrist tendons. Three-dimensional kinematics of the scaphoid, lunate and capitate were measured using bi-plane X-ray fluoroscopy in the native and ligament deficient state. The SLIL was then reconstructed by either dorsal transarticular loop tenodesis (DTLT), or by the three-ligament tenodesis (3LT) technique, and re-evaluated. SLIL deficiency resulted in significant differences in carpal kinematics compared to that in the healthy wrist across all wrist motions (p < 0.05). The DTLT procedure corrected increased scaphoid ulnar deviation and pronation in the SLIL deficient wrist, but did not significantly improve scaphoid flexion or volar translation of the scaphoid. The 3LT reconstructive technique restored scaphoid flexion and ulnar deviation but did not correct pronation, the increased lunate extension, nor the volar and ulnar translation observed in the ligament deficient wrist. Three-dimensional scaphoid, lunate and capitate motion depends on SLIL integrity, with tears to this ligament resulting in pathological kinematics, which may be partially mitigated with DTLT and 3LT surgical reconstruction. These findings suggest that this surgical reconstruction of the SLIL may not mitigate long-term degenerative joint conditions at the wrist.

Patients With Chronic Lateral Ankle Instability and Small Osteochondral Lesions of the Talus Obtain Good Postoperative Results: A Minimum 10-Year Follow-up With Radiographic Evidence.

Few studies reported the long-term clinical outcomes and joint degeneration of patients with chronic lateral ankle instability (CLAI) and small osteochondral lesions of the talus (OLTs) following simultaneous open modified Broström-Gould (MBG) surgery and arthroscopic bone marrow stimulation (BMS). The purpose of this study was to study the long-term results of patients after BMS and BMG surgery, and to further evaluate the potential effect of OLT size on postoperative results. In this retrospective study, 110 CLAI patients were divided into 57 patients with OLTs (including 24 patients having combined small osteochondral lesions of the tibial plafond) receiving simultaneous BMS and MBG surgeries (BMS+MBG group), and 53 patients without OLTs receiving isolated open MBG surgery (MBG group). The OLT size and pre- and postoperative Kellgren-Lawrence grade were assessed. The subjective scores (visual analog scale pain score, Tegner activity, and Karlsson-Peterson scores), surgical complications, and return to sports were also compared pre- and postoperatively. Patients were followed up at a mean of 144.2 ± 14.9 and 145.6 ± 11.4 months for the BMS+MBG and MBG groups, respectively. Subjective scores were significantly improved (P < .001), and no difference was found in subjective scores or surgical complications between the 2 groups (P > .05). Both groups showed progression of osteoarthritis grade (P < .001), but with no significant difference of changes from the preoperative to the final follow-up (BMS+MBG group: 0.84 ± 0.75 to 1.32 ± 0.80; MBG group: 0.32 ± 0.48 to 0.86 ± 0.56, changes: 0.48 ± 0.59 vs 0.55 ± 0.51, P = .575). For sports function, both groups had similar results in Tegner scores (5.8 ± 1.3 vs 6.2 ± 1.3, P = .081). However, in a subgroup analysis, we found that in the BMS+MBG group, patients exceeding the mean size of OLTs (50 mm2) were associated with an average lower postoperative Karlsson-Peterson score (P = .025) and higher postoperative osteoarthritis grade (P = .037), with more changes (P = .017) than those with OLTs <50 mm2. Patients with CLAI and small OLTs following simultaneous open MBG surgery and arthroscopic BMS showed good long-term outcomes and only mild progression of joint degeneration-overall similar to patients treated for CLAI with MBG surgery. Moreover, as OLT size increased, good outcomes were less predictable.

Association between joint exposure to ambient air pollutants and carotid plaque: The mediating role of cardiometabolic risk factors.

Research has shown that exposure to joint air pollution is related to atherosclerosis, but little evidence has been found for carotid plaques. Our objective is to assess the association between exposure to joint air pollutants and carotid plaque and explore the mediating role of cardiometabolic factors in this relationship. The Beijing Health Management Cohort (BMHC) study followed participants recruited from 2013 to 2014 until December 31, 2020. All participants underwent carotid ultrasound and were free of carotid plaque at baseline. A satellite-based land-use regression (LUR) model was applied to estimate air pollution exposure. The joint exposure to air pollutants was assessed by incorporating a weighted air pollution score. A modified Poisson regression model was conducted to investigate the relationship between exposure to air pollution and carotid plaque occurrence. Mediation analysis explored how cardiometabolic factors mediate the relationships between exposure to joint air pollution and carotid plaque risk. During an average follow-up period 4 years, 1240 cases of carotid plaque were identified among 7358 participants. Each interquartile range (IQR) increase in air pollutants was associated with the following relative risk (RR) and 95 % confidence intervals (95 % CIs) for carotid plaque: 2.5-micrometer particulate matter (PM2.5), 1,04 (1.01, 1.07), 10-micrometer particulate matter (PM10), 1.10 (1.01, 1.20), sulfur dioxide (SO2), 1.28 (1.15, 1.42), ozone (O3), 1.18 (1.01, 1.37), and carbon monoxide (CO), 1.32 (1.15, 1.50). Joint exposure to air pollution was positively and linearly associated with the occurrence of carotid plaque, with low-density cholesterol (LDL-C) and mean arterial pressure (MAP) mediating 2.24 % and 4.28 % of the association, respectively. Long-term joint exposure to ambient air pollutants elevates the risk of developing carotid plaque. LDL-C and MAP suggest partial mediating effects of joint air pollution on carotid plaques. Our results emphasize the need to thoroughly evaluate various air pollutants concerning carotid plaque.

Long-term symptoms in children after a Cryptosporidium hominis outbreak in Sweden: a 10-year follow-up

In 2010, a Cryptosporidiumhominis outbreak resulted in 27,000 clinical cryptosporidiosis cases (45% of the population) in Östersund, Sweden. Long-term abdominal and joint symptoms are common following cryptosporidiosis in adults, and it can affect the development of children in low-income countries. We investigated the potential consequences for children in a high-income setting. In 2011, we prospectively surveyed 600 randomly selected children aged 0–5 years from Östersund. Cases were defined as respondents reporting new episodes of diarrhoea during the outbreak. After 10 years, respondents received a follow-up questionnaire about long-term symptoms (n = 423). We used X2 and Mann–Whitney U tests to assess between-group differences in demographics and the mean number of symptoms. Logistic regressions adjusted for sex, age, and prior issues with loose stools were used to examine associations between case status and symptoms reported at follow-up. We retrieved data on healthcare visits from patient records. In total, 121 cases and 174 non-cases responded to the follow-up questionnaire (69.7%). Cases reported 1.74 (median 1.00, range 0–14) symptoms and non-cases 1.37 (median 0.00, range 0–11) symptoms (p = 0.029). Cases were more likely to report joint symptoms (aOR 4.0, CI 1.3–12.0) and fatigue (aOR 1.9, CI 1.1–3.4), but numbers were generally low. We found no between-group differences in abdominal symptoms, healthcare utilization, or disease diagnoses. Children aged 0–5 years from high-income countries may experience long-term symptoms after cryptosporidiosis, but may not be affected to the same extent as adults or their peers living in low-income countries.

Phase-specific changes in hip joint loading during gait following sacroiliac joint fusion: Findings from a finite element analysis.

Low back pain affects over 80% of adults, with sacroiliac joint dysfunction accounting for 15-30% of these cases. Sacroiliac fusion is a surgical procedure for refractory joint pain. While the biomechanics of the joint and its fusion relative to the spinal column are well-known, the hip-spine relationship post-fusion remains unclear. Understanding the biomechanical state following fusion can enhance patient recovery and optimize surgical outcomes. This study uses finite element analysis to assess hip joint biomechanics following sacroiliac joint fusion. CTs of a 55-year-old male were used to create a biomechanical model, validated against a cadaveric study. Three triangular titanium alloy implants were placed across the sacroiliac joint in a unilateral and bilateral configuration. The model, loaded with pelvis and hip joint kinematics during a gait cycle, calculated joint reaction forces, contact stress and area on the hip joint across various gait phases. Hip joint contact stresses varied with fixation configurations and gait phases. Unilateral right fusion reduced joint reaction forces by 2% but increased contact stress by 3.7%. Bilateral fusion increased joint reaction forces by 6.7% and contact stress by 3.25%, with higher stress during foot flat and heel off phases compared to unilateral fixation. Fusion alters hip loading patterns during specific gait phases, with bilateral fusion producing the highest stresses during foot flat and heel off. These findings may suggest the need for fusion-specific rehabilitation protocols and warrants further investigation of long-term joint health outcomes.

Double-level osteotomy (DLO) for varus deformity results in over a decade of mean survival without compromising subsequent total knee arthroplasty function at a mean 26-year follow-up.

Double-level osteotomies (DLOs) have shown promising results for knee joint preservation, however, most ultimately progress in terms of degenerative disease resulting in conversion to total knee arthroplasty (TKA). Therefore, the purpose of this study was to examine the time to TKA conversion, long-term clinical outcomes and revision rates of patients who have undergone TKA after prior ipsilateral DLO. Patients who underwent simultaneous or staged DLO and subsequently underwent conversion to TKA at a single academic institution from 1997 to 2022 were evaluated. The type of osteotomy performed (opening- vs. closing-wedge), osteotomy hardware fixation, when and if osteotomy hardware was removed, implanted TKA components and revision rates were recorded. Postoperative outcomes, including Forgotten Joint Score-12 (FJS-12), Tegner Activity Scale score and subjective knee preference were also obtained. A total of 22 patients (24 knees) underwent TKA following DLO and were followed for an average of 26.1 ± 7.7 years. The average time from DLO to TKA conversion was 14.1 ± 6.5 years, with 70.8% of knees converting to TKA more than 10 years after DLO. The mean follow-up after conversion to TKA was 12.0 ± 7.7 years. Only 12.5% of patients received a varus-valgus or hinged-constrained TKA. At the final follow-up, the mean FJS-12 was 75.8 ± 23.1, while the mean Tegner Activity Scale score was 2.5 ± 1.1. Seventy-seven percent of patients had no subjective knee preference or preferred their DLO-TKA knee. Only two knees (7.4%) underwent subsequent revision after index arthroplasty at a mean of 9.3 years postoperatively. A majority of DLOs (70.8%) converted to TKA after more than a decade. Subsequent TKA function was favorable as most patients had either no subjective knee preference or preferred their DLO-TKA knee. This study demonstrates both long-term joint preservation and uncompromised TKA function after prior DLO. Level IV.

An Energy Modulation Interrogation Technique for Monitoring the Adhesive Joint Integrity Using the Full Spectral Response of Fiber Bragg Grating Sensors.

Adhesive joining has the severe limitation that damages/defects developed in the bondline are difficult to assess. Conventional non-destructive examination (NDE) techniques are adequate to reveal disbonding defects in fabrication and delamination near the end of service life but are not helpful in detecting and monitoring in-service degradation of the joint. Several techniques suitable for long-term joint integrity monitoring are proposed. Fiber Bragg grating (FBG) sensors embedded in the joint are one of the promising candidates. It has the advantages of being close to the damage and immune to environmental attack and electromagnetic interference. Damage and disbonding inside an adhesive joint will give rise to a non-uniform strain field that may bring about peak splitting and chirping of the FBG spectrum. It is shown that the evolution of the full spectral responses can closely reveal the development of damages inside the adhesive joints during tensile and fatigue failures. However, recording and comparing the successive full spectra in the course of damage is tedious and can be subjective. An energy modulation interrogation technique is proposed using a pair of tunable optical filters. Changes in the full FBG spectral responses are modulated by the filters and converted into a conveniently measurable voltage output by photodiodes. Monitoring damage development can then be easily automated, and the technique is well-suited for practical applications. Filter spectrum width of 5 nm and initial overlap with the FBG spectrum to give 40% of the maximum output voltage is found to be optimal for measurement. The technique is tested on embedded FBGs from different adhesive lap-joint specimens and successfully reflected the severity of changes in the full spectral shapes during the course of tensile failure. Moreover, the trends in these PD outputs corroborate with the V value previously proposed to describe the qualitative change in FBG spectral shape.

Structured Polymers Enable the Sustained Delivery of Glucocorticoids within the Intra-Articular Space.

Intra-articular glucocorticoid injections are effective in controlling inflammation and pain in arthritides but restricted by short duration of action and risk of joint degeneration. Controlled drug release using biocompatible hydrogels offers a unique solution, but limitations of in situ gelation restrict their application. Gellan sheared hydrogels (GSHs) retain the advantages of hydrogels, however their unique microstructures lend themselves to intra-articular application - capable of shear thinning under force but restructuring at rest to enhance residence. This study examined GSHs for extended intra-articular glucocorticoid delivery of prednisolone (10 mgmL-1); demonstrating links between material mechanics, steroid release, and preclinical assessment of efficacy in synoviocyte culture and transgenic(TNF)197Gkl (TNFtg) murine model of arthritis. GSHs demonstrated sustained release, with typical Fickian profiles over 18 days. Moreover, systems showed good stability under extended culture, with inherent cell-compatibility and suppression of inflammatory synoviocyte activation. In TNFtg animals, GSHs suppressed synovitis (70.08%, p < 0.05), pannus formation (45.01%, p < 0.05), and increased articular cartilage (82.23%, p < 0.05) relative to vehicle controls. The extended profile of steroid release from injectable GSH formulations holds promise in the treatment and management of inflammatory arthritides such as rheumatoid and osteoarthritis, representing a step-change in intra-articular drug delivery to suppress long-term joint inflammation.

Minimally invasive treatment of talar neck fractures using the calcaneal distractor - a technical note

Talar neck fractures, though rare, pose significant challenges in treatment due to their complex nature and potential for severe complications. Despite the fact that most of talar fractures are treated operatively, there is scarcity of clear recommendations concerning appropriate surgical technique and care. Historically, conservative management was favored, but open reduction and internal fixation (ORIF) have become the standard of care. However, merely restoring rotation, axis, and length is insufficient; restoring the articulating surface in an anatomical manner is essential for long-term joint health. Surgical access to the fracture site via anteromedial and anterolateral approaches provides visualization, but risks compromising the sensitive, partly retrograde blood supply to the talar body. While being biomechanically superior, screws inserted from a posterior to anterior direction pose challenges in soft tissue preservation and accurate placement. Despite widespread usage of this technique, postoperative outcomes remain suboptimal with considerable rates of malunion, osteonecrosis and osteoarthritis. An overlooked technique in the literature is the use of a distractor, commonly employed in minimally-invasive surgical calcaneal fracture treatment in order to maintain length, alignment and joint reposition during fixation. With the potential to reduce soft tissue damage and preserve the blood supply minimally invasive techniques present a promising advancement in fracture management of talar neck fractures.

Fusobacterium necrophorum septic arthritis of the hip: A case-report and literature review.

Fusobacterium necrophorum is a rare but significant cause of septic arthritis, typically following oropharyngeal infections in adolescents. This anaerobic pathogen, commonly associated with Lemierre's syndrome, can lead to joint infections, posing risks for severe morbidity if diagnosis and treatment are delayed. Awareness and timely intervention are essential for preventing long-term joint damage. We report the case of a 19-year-old woman who developed high fever and acute right hip pain one week after a sore throat. Imaging revealed septic arthritis, with F. necrophorum identified in both blood and synovial fluid cultures. She received intravenous piperacillin/tazobactam, followed by outpatient parenteral therapy through an elastomeric pump, achieving full recovery. This case adds to the 42 cases documented in our literature review, reinforcing the need for prompt antimicrobial therapy. Fusobacterium-induced septic arthritis, though uncommon, should be considered in young patients presenting with joint infections post-pharyngitis. Early diagnosis and targeted antimicrobial therapy, particularly with β-lactamase inhibitors, are critical for effective management and preventing joint sequelae.

Non-factor Therapies for Hemophilia: Achievements and Perspectives.

Non-factor replacement therapies (NFTs) have been developed to address the limitations of conventional replacement therapies, aiming to improve hemostasis and provide enhanced protection against bleeding episodes and long-term joint damage for patients both with and without inhibitors. Factor VIII (FVIII)-mimetic agents, such as emicizumab, have transformed the management of hemophilia A with inhibitors, offering a lower treatment burden and an effective alternative for those without inhibitors as well. Rebalancing agents, including anti-tissular factor pathway inhibitor agents (concizumab and marstacimab) and serpin inhibitors like fitusiran, have shown promising efficacy for patients with hemophilia B with inhibitors and other hemophilia subtypes. Administered subcutaneously, NFTs generate stable thrombin levels and feature a long half-life, which can shift severe hemophilia toward a milder phenotype. These therapies are effective regardless of inhibitor status and hold potential for application in other bleeding disorders. Evaluating the potential thrombotic risk after implementing mitigation measures, along with the development of anti-drug antibodies (ADAs), remain critical areas for further analysis. NFTs pose additional challenges due to their complex mechanism of action and the absence of a standardized laboratory assessment method. Unresolved issues include optimal management strategies for major surgeries and tailored approaches for safe use in older populations. This review highlights the progress and future potential of NFTs in treating persons with hemophilia.

P12 Post-streptococcal reactive arthritis and panniculitis in pregnancy: a case report

Abstract Introduction Reactive arthritis is an inflammatory condition that can occur following an infection, commonly caused by bacterial pathogens such as Streptococcus. Pregnancy introduces unique challenges in managing autoimmune and inflammatory conditions due to the need to balance maternal and foetal health. This case report highlights the diagnosis and management of post-streptococcal reactive arthritis and panniculitis in a 16-week pregnant patient, focusing on the use of steroids and the resulting impact on her gestational diabetes Case description A 25-year-old woman, 16 weeks pregnant with no known comorbidities, presented with bilateral ankle pain and swelling for the last two weeks, preceded by an episode of tonsillitis. Initially, the pain was localised to her right ankle and left wrist, then involved her left ankle. She was treated with antibiotics for presumed cellulitis, and a doppler ultrasound ruled out deep vein thrombosis. Examination revealed swollen, inflamed ankles with limited range of motion due to pain. The rest of the examination was unremarkable. This was her second pregnancy and had no complications in her first pregnancy. Routine investigations were done; her C-reactive protein (CRP) was 126 and erythrocyte sedimentation rate (ESR) was 56, with a normal white cell count. Autoimmune workup, including rheumatoid factor (RF), antinuclear antibodies (ANA), and HLA-B27, was negative, but her anti-streptolysin O (ASO) titer was borderline positive. She was diagnosed with post-streptococcal reactive arthritis. After discussing the risks and benefits of NSAID use in the second trimester, we started her on prednisolone 20 mg with a tapering plan. The patient showed clinical improvement, but upon tapering the steroids to 5 mg daily, she developed well-demarcated erythema with desquamation and epidermal changes over both ankles. The left ankle was tender on the medial side, but the right was non-tender. Her angiotensin-converting enzyme (ACE) levels were negative, and calcium levels were normal. Her steroid dose was increased again to 20 mg with a slow tapering plan. She also developed gestational diabetes mellitus and was started on insulin by the diabetes team. Her foetal scan was reassuring and was under obstetrician. A dermatology team reviewed her and suggested the rash was likely panniculitis, which had improved significantly with steroids, so a biopsy was not performed. With careful management, her symptoms resolved, and she successfully discontinued steroid therapy as planned. Discussion This case highlights the complex nature of managing post-streptococcal reactive arthritis and panniculitis in a pregnant patient. The initial presentation with a sore throat and subsequent development of arthritis and panniculitis, along with raised inflammatory markers and a positive ASO titer, strongly suggested reactive arthritis triggered by a recent streptococcal infection. Given the foetal risk from NSAIDs, steroid therapy was chosen for its safety profile in pregnancy. While steroid therapy provided symptomatic relief, it led to gestational diabetes, requiring careful monitoring and adjustment of the patient’s diabetic management. The emergence of panniculitis during steroid tapering added another layer of complexity, necessitating collaboration with dermatology specialists for a revised approach. The dermatological team agreed with the recommendation of slow tapering of steroids, which were crucial in managing this complication. This case highlights the importance of a multidisciplinary approach and close monitoring to ensure optimal outcomes for both the mother and the developing foetus. Key learning points • The diagnosis of post-streptococcal reactive arthritis should be considered in pregnant patients presenting with joint inflammation and a recent history of infection. Prompt recognition and appropriate treatment are essential to prevent long-term joint damage. • Careful monitoring of glycaemic control is crucial when initiating steroid therapy in pregnant patients, as it may lead to uncontrolled diabetes and can cause foetal problems. Close collaboration between obstetric and endocrine specialists is necessary to optimise diabetes management while minimising foetal risks. • Collaboration with dermatology specialists can aid in the management of complications such as panniculitis during steroid tapering in pregnant patients. A multidisciplinary approach ensures comprehensive care and improves outcomes for both the mother and the developing foetus.

Finite element study of stress distribution in medial UKA under varied lower limb alignment

Knee osteoarthritis (KOA) has a high incidence among the elderly, significantly impacting their quality of life and overall health. Medial unicompartmental knee arthroplasty (UKA) is an excellent choice for treating knee single-compartment lesions, and lower limb alignment has a profound impact on medial UKA. To explore the influence of different lower limb alignments on medial UKA. In this study, we selected MR and CT data of healthy adult male knee joints to establish a complete finite element analysis (FEA) model of the knee joint. After validation, we established a finite element model of medial UKA. Subsequently, we created 60 sets of FEA models with different lower limb alignments to analyze the impact of different lower limb alignments on medial UKA. A vertical load of 1000 N was applied to the FEA models with different lower limb alignments. During the process of shifting the Mikulicz line from the midpoint of the knee joint towards the medial side, the lower limb load was primarily concentrated on the medial compartment. The stress values of the lateral meniscus, tibial cartilage, and femoral cartilage gradually decreased. ROI (region of interest) 1 and ROI 2 showed the maximum principal strain changes, while ROI 3 and ROI 4 exhibited less pronounced fluctuations, with the maximum principal strain roughly proportionally increased. During the process of shifting the Mikulicz line towards the lateral side from the midpoint of the knee joint, the stress on the lateral compartment increased observably. ROI 1, ROI 2, ROI 3, and ROI 4 showed decreased maximum principal strains, approximately inversely proportional changes, but the overall reduction was relatively small. Different lower limb alignments have a profound impact on the short- and long-term joint function after UKA. When the Mikulicz line is 10 mm inside the midpoint of the knee joint or slightly outside, there is a relatively lower risk of tibial component fractures, lower stress on the lateral compartment, and lower load on the prosthesis. During medial UKA, measures such as bone resection and prosthesis selection should be taken to ensure that the Mikulicz line is in the ideal position.

Intraarticular corticosteroid injections in pediatric rheumatology: insights from specialists.

IACIs are widely utilized in pediatric rheumatology for oligoarticular JIA, yet practice variability exists. Standardized protocols through randomized studies can enhance IACI efficacy and patient outcomes. • Intraarticular corticosteroid injections (IACIs) are a widely utilized and effective treatment modality in managing oligoarticular and polyarticular juvenile idiopathic arthritis (JIA), offering rapid symptom relief and the potential to prevent long-term joint deformities. • Despite their widespread use, there is significant variability in the indications, techniques, and anesthetic methods employed for IACI administration among pediatric rheumatologists, and much of the supporting evidence remains anecdotal. • This study highlights the diverse clinical practices and preferences regarding IACI use in pediatric rheumatology across two different countries, revealing considerable variations in the use of ultrasound guidance, anesthetic approaches, and corticosteroid formulations. • The findings underscore the need for standardized treatment protocols and further research to optimize IACI procedures, aiming to reduce variability and improve outcomes in the management of JIA.

The impairment of joint tetracycline and copper oxide nanoparticle exposure on activated sludge

The increasing usage of two emerging contaminants (i.e., tetracycline (TET) and copper oxide nanoparticles (CuONPs)) has raised wide concerns about their potential impacts on the efficiency of wastewater treatment. However, the joint effects of TET and CuONPs on activated sludge processes have rarely been documented. This study investigated the sludge characteristics and bioactivities under both individual and joint exposure to TET (1 mg/L) and CuONPs (2 mg/L) for 60 days. The results demonstrated that both individual and joint exposures of TET and CuONPs deteriorated the flocculation ability and dewatering of sludge by inducing non-filamentous bacteria. The joint exposure showed higher effects on sludge when compared with individual exposure. Sludge characterization analysis attributed this deterioration partly to the increased extracellular polymeric substance (EPS) secretion (especially loose-bound EPS). In addition, exposure to CuONPs would result in an inhibition of total nitrogen removal due to impairment of the denitrification process (i.e., nitrate reductase, nitrous reductase, and electron-transfer associated enzyme), but not for TET. The inhibition of nitrogen removal could be exacerbated when simultaneously exposed to CuONPs and TET. 16S rRNA analysis further revealed that the long-term joint exposure to TET and CuONPs resulted in a significant decrease in microbial community richness, diversity, and associated functional bacteria abundance. The results of this study suggest that joint exposure to TET and CuONPs results in the deterioration of sludge function efficiency.

Osteoarthritis After Anterior Cruciate Ligament Reconstruction: A Systematic Review of Contributing Factors and Potential Treatments.

Anterior cruciate ligament (ACL) injuries result in abnormal knee motion and long-term joint degradation. ACL reconstruction (ACLR) is done with the aim of restoring normal knee kinematics and slowing the joint degradation process. It does appear that this inevitably happens and can be impacted by a multitude of factors. The aim of this review was to examine the factors that influence the progression of osteoarthritis (OA) after ACLR and examine possible treatments that can aid in slowing that progression. A systematic review was conducted by searching all levels of evidence for all studies in English that assessed risk factors for developing OA after ACL reconstruction, had a minimum follow-up of 10 years, and used radiographical outcomes to measure the presence of OA. Studies on trial treatments to reduce osteoarthritis after ACL reconstruction were also included. It was found that among the factors associated with an increased risk of post-ACLR OA are meniscal lesions, meniscectomy, increased age at the time of ACLR, increased time from injury to surgery, male sex, reduced range of motion, smaller thigh girth, graft complications, and failure. Additionally, in performing the ACLR, anteromedial femoral tunnel placement, higher graft tension, and following guidelines for performing anatomic ACLR have been shown to reduce the risk of OA as well. Patients should be adequately counselled on their risk pre-operatively for informed decision-making. Surgeons should also be aware of potential risk factors and how they can be mitigated.

Exploring the Causal Relationship between Ibuprofen Use and Osteoarthritis Risk: A Mendelian Randomization Study.

This study explored the potential causal relationship between ibuprofen (IBU) use and the risk of developing osteoarthritis, a prevalent joint disorder characterized by pain and stiffness. We conducted a two-sample MR analysis using four distinct OA GWAS datasets as outcomes and single-nucleotide polymorphisms (SNPs) associated with IBU metabolism as exposures. The inverse variance weighted (IVW) and weighted median methods were utilized to assess the causal association by meta-analysis, while pleiotropy and heterogeneity were evaluated using MR-Egger regression and Cochran's Q statistics. The MR analysis provided strong evidence for a causal association between IBU use and an increased risk of OA. A meta-analysis of the IVW and weighted median results across all datasets demonstrated an OR = 1.116 (95% CI = 1.063-1.170) and an OR = 1.110 (95% CI = 1.041-1.184). The consistency of the results obtained from different methods enhanced the reliability of the findings. Low pleiotropy and minimal heterogeneity were observed, further validating the results. The study supports a causal link between IBU use and an increased risk of OA, suggesting that IBU may accelerate the progression of OA while relieving symptoms. These findings highlight the importance of cautious use of IBU in clinical practice, especially considering its potential impact on long-term joint health.