Staphylococcus aureus is a highly virulent pathogen and is implicated in approximately 50% of cases of septic arthritis. Studies investigating other S. aureus-related infections have suggested that alpha (Hla), beta (Hlb) and gamma (Hlg) toxins are key virulence factors. In particular, the ‘pore-forming’ alpha toxin is believed to be most potent. In this study, we have assessed the influence of alpha toxin on in situ chondrocyte viability. Osteochondral explants were harvested from the metacarpophalangeal joints of 3-year-old cows and placed into flasks containing Dulbecco's Modified Eagle's Medium. The flasks were then inoculated with the following isogenic ‘knockout’ strains of S. aureus: DU5946 (Hla+Hlb-Hlg-) or DU1090 (Hla-Hlb+Hlg+). The explants were incubated (37°C) and stained after 18, 24 and 40hrs with chloromethylfluorescein di-acetate and propidium iodide, labelling living chondrocytes green and dead cells red, respectively. Axial sections were imaged by confocal microscopy and the percentage cell death obtained using Volocity 4 software. The alpha toxin-producing S. aureus caused rapid cell death, with 24.8+/−3.7% at 18hrs and 44.6+/−7.2% at 24hrs. At 40hrs, there was significantly more chondrocyte death (87.4+/−3.6%; p<0.001) compared to the alpha toxin knockout strain (4.1+/−1.7%; means +/− SEM; n=4). In situ chondrocyte viability was significantly compromised by alpha toxin, with beta and gamma toxins having minimal effect. Further work will clarify the exact mechanism through which this important toxin induces chondrocyte death. Thereafter, it is hoped that targeted treatments can be developed to reduce the extent of cartilage destruction during, and after, an episode of septic arthritis

Introduction. Kashin-Beck disease (KBD) is an endemic degenerative osteoarthropathy affecting approximately 3 million people in China (Stone R, 2009). The precise aetiology of KBD is not clear, but the lack of selenium and the pollution of mycotoxins in food are a suspected cause of KBD. In this pilot study, we use a rat model to investigate the effect of low selenium and T-2 toxin on articular cartilage metabolism. Methods. 140 male Sprague-Dawley rats were fed with selenium-deficient or normal diet for 4 weeks to produce a low selenium or normal nutrition status. The rats were then fed for a further 4 weeks with low selenium or normal diets with or without T-2 toxin (100ng per gram body weight per day). The rat knee joints were fixed and paraffin embedded and histological and immunohistochemical staining was performed to analyse the metabolism of articular cartilage. Results. There was increased cell cluster formation in the middle and/or deep zones in rats fed with both diets. However, an apparent cell loss was observed in the low selenium + T-2 toxin group with an apparent increase in caspase-3 staining, indicating the increased cell apoptosis. Moreover, toluidine blue staining was reduced in the low selenium + T-2 toxin group, suggesting a loss of sulphated glycosaminoglycans. Similarly, there was reduced 2B6 and 6C3 staining in the territorial matrix of chondrocytes, indicating a reduced synthesis in 4-sulhated and native CS motifs. In contrast, increased 1B5 staining was observed in the articular cartilage from the low selenium + T-2 toxin group, suggesting a lack of CS sulphatransferase activity. Interestingly, there was increased 7D4 staining in the superficial zone of articular cartilage from low selenium + T-2 toxin group, suggesting an initiation of an osteoarthritis-like lesion. Discussion. These results indicated that low selenium nutrition and T-2 toxin could promote cell apoptosis and disrupt CS-GAG metabolism in ECM of rat articular cartilage in this animal model, which is similar to that observed in KBD patients. Collectively, our results support the hypothesis that low selenium and T-2 toxin are the cause of KBD

Introduction and Aims: In order to evaluate the hypothesis that ‘Botulinum A Toxin (BoNT-A) improves function and health-related quality of life in patients and their caregivers’, the experience of a single institution that performed over 7500 injections in 515 patients was evaluated to provide safety data, injection guidelines, and current indications. Method: This retrospective review utilised a computerised database that contains information from open-label trials (n=6), double-blind randomised trials (n=4), and cumulative treatment experience in 1100 children and adults with cerebral palsy. Standardised data collected over the past 15 years was analysed with respect to indications, complications, dosage, function, health-related quality of life of patients and their caregivers, rehabilitation (WeeFIM), gross motor function classification (GMFCS), and response rates. Pharmacoeconomic analysis was performed by linking with state Medicaid data. Results: BoNT-A is safe and well tolerated. There were no systemic side effects in dosages ranging from four to 25 units per kilogram body weight. Standardised injection techniques included dilution from 10 to 100 units per cc with a maximum dose of six units per kilogram in a single muscle and 25 units per kilogram in a single patient. The maximum dose was 600 units. Short-term response rates were 65–70%; intermediate response rates 45–50%. The most frequent complications were soreness of the injection site (15%) and transient weakness (2%). Ninety-five percent of injections were performed in the office without conscious sedation. Five percent were performed under general anaesthesia or with conscious sedation. Based on these data, current indications include dynamic tone interfering with caregiver function (e.g., equinus gait), painful spasticity, post-operative spasticity, and pain management. Contraindications are failure to respond to previous injections. Pharmacoeconomic analysis diminished cost and improved function and quality of life of patients and/or caregivers. Conclusion: Botulinum A Toxin is a safe and cost-effective drug in patients with cerebral palsy. Response rate is 50–70%. Optimal results are obtained with appropriate intramuscular localisation and sufficient volume to saturate neuromuscular junctions

Aims. Staphylococcus aureus is a major cause of septic arthritis, and in vitro studies suggest α haemolysin (Hla) is responsible for chondrocyte death. We used an in vivo murine joint model to compare inoculation with wild type S. aureus 8325-4 with a Hla-deficient strain DU1090 on chondrocyte viability, tissue histology, and joint biomechanics. The aim was to compare the actions of S. aureus Hla alone with those of the animal’s immune response to infection. Methods. Adult male C57Bl/6 mice (n = 75) were randomized into three groups to receive 1.0 to 1.4 × 10. 7. colony-forming units (CFUs)/ml of 8325-4, DU1090, or saline into the right stifle joint. Chondrocyte death was assessed by confocal microscopy. Histological changes to inoculated joints were graded for inflammatory responses along with gait, weight changes, and limb swelling. Results. Chondrocyte death was greater with 8325-4 (96.2% (SD 5.5%); p < 0.001) than DU1090 (28.9% (SD 16.0%); p = 0.009) and both were higher than controls (3.8% (SD 1.2%)). Histology revealed cartilage/bone damage with 8325-4 or DU1090 compared to controls (p = 0.010). Both infected groups lost weight (p = 0.006 for both) and experienced limb swelling (p = 0.043 and p = 0.018, respectively). Joints inoculated with bacteria showed significant alterations in gait cycle with a decreased stance phase, increased swing phase, and a corresponding decrease in swing speed. Conclusion. Murine joints inoculated with Hla-producing 8325-4 experienced significantly more chondrocyte death than those with DU1090, which lack the toxin. This was despite similar immune responses, indicating that Hla was the major cause of chondrocyte death. Hla-deficient DU1090 also elevated chondrocyte death compared to controls, suggesting a smaller additional deleterious role of the immune system on cartilage. Cite this article: Bone Joint Res 2022;11(9):669–678

Aim: To present the features of PVL toxin positive staphylococcus causing osteomyelitis in children and its management. Method: Two cases of PVL MSSA osteomyelitis have presented to our institute within the last six months. The first, a 15 year old boy presented with an abscess and surrounding cellulitis on the lower right leg following a skin abrasion sustained whilst playing football. He was recognized as being systemically unwell with extremely elevated inflammatory markers. Radiographic investigations demonstrated osteomyelitis. The second case was that of an 11 year old girl who developed cellulitis of the lower thigh, but was not as systemically unwell as the first case. Radiographs again demonstrated osteomyelitis. Results: Both children were treated with intravenous antibiotics and supportive measures and made a full recovery. Conclusions: Panton Valentine Leukocidin (PVL) is a toxic substance produced by some strains of Staphylococcus aureus with an increased ability to cause disease. Although more common in the United States, less than 2% of all S. aureus infections in the UK carry the toxin. PVL can be carried both by MRSA (methicillin resistant) and MSSA (methicillin sensitive) Staphylococcus aureus. Patients normally present with cellulitis, abscesses, boils and carbuncles. However, on rare occasions, more severe invasive infections result, including septic arthritis, bacteraemia or necrotizing pneumonia. We feel that osteomyelitis caused by PVL positive MSSA is associated with more severe local disease and a greater systemic inflammatory response than osteomyelitis caused by PVL negative MSSA. Treatment is effective but needs to be initiated promptly to prevent significant complications

Staphylococcus aureus is a highly virulent pathogen and implicated in approximately 50% of cases of septic arthritis. Studies investigating other S. aureus-related infections suggest that alpha-(Hla), beta-(Hlb) and gamma-(Hlg) toxins are key virulence factors, with the ‘pore-forming’ alpha-toxin considered the most potent. Here, we have assessed the influence of alpha-toxin alone on in situ chondrocyte viability. Osteochondral explants were harvested from the metacarpophalangeal joints of 3-year-old cows and cultured in Dulbecco's Modified Eagle's Medium. The flasks were then inoculated with isogenic ‘knockout’ strains of S. aureus: DU5946 (Hla+Hlb-Hlg-: alpha-toxin only strain) or DU1090 (Hla-Hlb+Hlg+: beta- and gamma-toxin only strain). Explants were incubated (37°C) and stained after 18, 24 and 40hrs with chloromethylfluorescein-di-acetate and propidium iodide, labelling living chondrocytes green and dead cells red, respectively. Axial sections were imaged by confocal microscopy and the percentage cell death determined. Alpha-toxin-producing S. aureus caused 24.8+/−3.7% chondrocyte death at 18hrs and 44.6+/−7.2% death at 24hrs. At 40hrs, there was significantly more chondrocyte death (87.4+/−3.6%;p<0.001) compared to the alpha-toxin knockout strain, which was negligible (4.1+/−1.7%; means+/−SEM; N=4 independent experiments). In this in vitro bovine cartilage explant model, whereby the effects of defined toxins were determined in isolation of a complex host immune response, in situ chondrocyte viability was dramatically and exclusively reduced by alpha-toxin. This work forms the basis for developing a rational treatment to reduce the extent of cartilage destruction during an episode of septic arthritis. IDMS was supported by Orthopaedic Research UK and The Royal College of Surgeons of Edinburgh

Introduction and Aims: Pivotal to most clubfoot management protocols is Achilles tendon lengthening or tenotomy to address hindfoot deformity. The effectiveness of Botulinum A toxin (BTX-A) in defunctioning the triceps surae muscle complex as an alternative to tenotomy was investigated. Method: Newborns, infants and children referred for suspected clubfoot deformity to the authors’ institution from September 1, 2000 to September 17, 2003 were reviewed consecutively for inclusion in this prospective study. Patients underwent manipulation and castings (above knee casts) emulating Ponseti’s principles until hindfoot stall was encountered. In order to defunction the triceps surae muscle complex, BTX-A at 10 IU per kilogram was injected into this muscle complex. Outcome measures included surgical rate, Pirani clubfoot score, ankle dorsiflexion with knee in flexion and extension, and recurrences. Patients were divided according to age: Group I (< 30 days old) and Group II (> 30 days and < 8 month old). Results: Fifty-one patients with 73 feet met the criteria for inclusion in the study with 29 patients in Group I and 22 in Group II. Mean age of Group I was 16 months (2.5–33 months) and average follow-up was nine months post-BTX-A injection (1 week-27 months post-injection). Mean age of Group II was 23.5 months (3.8–44.6 months) and average follow-up was 15 months post BTX-A injection (1 week–27 months post-injection). Ankle dorsiflexion in knee flexion and extension remained above 20/15 degrees, respectively, and Pirani scores below 0.5 following BTX-A injection for both groups. All but one patient (one foot) who reached the point of hindfoot stall during the protocol of manipulations and castings had successful defunctioning of the triceps surae complex using a single BTX-A injection. This one patient out of 51 (1.9% of patients and 1.3% of feet) did not respond to the protocol. Of the 50 patients who responded to the protocol, nine patients lost some degree of dorsiflexion due to non-compliance with boots and bars, with fitting problems accounting for two cases. All these patients have corrected with either a return to manipulations and casting alone (one patient), or a combination of repeated BTX-A injection and further manipulations and castings (eight patients). Conclusion: These results are comparable to those reported in the literature using Ponseti’s method or the physical therapy method and were achieved without the need of tenotomy or more frequent manipulations. The use of BTX-A as an adjunctive therapy in the non-invasive approach of manipulation and casting in idiopathic clubfoot is an effective and safe alternative and one that may be preferable to parents

Objectives. Staphylococcus aureus (S. aureus) is the most commonly implicated organism in septic arthritis, a condition that may be highly destructive to articular cartilage. Previous studies investigating laboratory and clinical strains of S. aureus have demonstrated that potent toxins induced significant chondrocyte death, although the precise toxin or toxins that were involved was unknown. In this study, we used isogenic S. aureus mutants to assess the influence of alpha (Hla)-, beta (Hlb)-, and gamma (Hlg)-haemolysins, toxins considered important for the destruction of host tissue, on in situ bovine chondrocyte viability. Methods. Bovine cartilage explants were cultured with isogenic S. aureus mutants and/or their culture supernatants. Chondrocyte viability was then assessed within defined regions of interest in the axial and coronal plane following live- and dead-cell imaging using the fluorescent probes 5-chloromethylfluorescein diacetate and propidium iodide, respectively, and confocal laser-scanning microscopy. Results. Hla-producing mutants caused substantial chondrocyte death compared with the toxin-deficient control (Hla-Hlb-Hlg-), whilst mutants producing Hlb and Hlg in the absence of Hla induced minimal chondrocyte death. Coronal studies established that Hla-induced chondrocyte death started in the superficial zone of cartilage and spread to deeper layers, whereas Hlb and Hlg toxins were without significant effect. Conclusion. This study identified Hla as a highly potent S. aureus toxin that caused rapid chondrocyte death in bovine cartilage, with other toxins or metabolic products produced by the bacteria playing a minor role. The identification of Hla in mediating chondrocyte death may assist in the development of therapeutic strategies aimed at reducing the extent of cartilage damage during and after an episode of septic arthritis. Cite this article: I. D. M. Smith, K. M. Milto, C. J. Doherty, S. G. B. Amyes, A. H. R. W. Simpson, A. C. Hall. A potential key role for alpha-haemolysin of Staphylococcus aureus in mediating chondrocyte death in septic arthritis. Bone Joint Res 2018;7:457–467. DOI: 10.1302/2046-3758.77.BJR-2017-0165.R1

Aims. Kashin-Beck disease (KBD) is a kind of chronic osteochondropathy, thought to be caused by environmental risk factors such as T-2 toxin. However, the exact aetiology of KBD remains unclear. In this study, we explored the functional relevance and biological mechanism of cartilage oligosaccharide matrix protein (COMP) in the articular cartilage damage of KBD. Methods. The articular cartilage specimens were collected from five KBD patients and five control subjects for cell culture. The messenger RNA (mRNA) and protein expression levels were detected by quantitative reverse transcription PCR (qRT-PCR) and western blot. The survival rate of C28/I2 chondrocyte cell line was detected by MTT assay after T-2 toxin intervention. The cell viability and mRNA expression levels of apoptosis related genes between COMP-overexpression groups and control groups were examined after cell transfection. Results. The mRNA and protein expression levels of COMP were significantly lower in KBD chondrocytes than control chondrocytes. After the T-2 toxin intervention, the COMP mRNA expression of C28/I2 chondrocyte reduced and the protein level of COMP in three intervention groups was significantly lower than in the control group. MTT assay showed that the survival rate of COMP overexpression KBD chondrocytes were notably higher than in the blank control group. The mRNA expression levels of Survivin, SOX9, Caspase-3, and type II collagen were also significantly different among COMP overexpression, negative control, and blank control groups. Conclusion. Our study results confirmed the functional relevance of COMP with KBD. COMP may play an important role in the excessive chondrocytes apoptosis of KBD patients. Cite this article: Bone Joint Res 2020;9(9):578–586

We have demonstrated that toxins produced by Staphylococcus aureus, a common infective agent in septic arthritis (SA), cause rapid in situ chondrocyte death. Here, we have compared the sensitivity of chondrocytes within the superficial and deep zones (SZ, DZ) of cartilage to the same toxins. Culture medium containing the toxins produced by S. aureus strain 8325-4, which include alpha-, beta-, and gamma-toxin, was prepared. Cartilage explants free of subchondral bone were taken from the metacarpophalangeal joints of 3-year-old cows, and incubated (37°C) with the toxins. Explants were stained after 6hrs with chloromethylfluorescein-di-acetate and propidium iodide, labelling living chondrocytes green and dead cells red, respectively. Full-thickness coronal sections were imaged by confocal microscopy and the percentage cell death within the SZ (100μm from articular surface) and DZ (100μm from subchondral bone interface) determined. Both zones were incubated with the same toxin culture medium for the same time period. At 0hrs, chondrocytes within all zones were >98% viable. However, after incubation with toxin-containing culture medium for 6hrs, 71.9+/−11.2% of the SZ cells were dead compared to only 47.4+/−6.7% in the DZ (p=0.03;data are means+/−SEM;N=4). These results suggest that SZ chondrocytes are considerably more sensitive to S. aureus toxins than those within deeper zones. As SZ chondrocytes are close to the synovial fluid harbouring bacterial toxins, these data emphasise the need to remove bacteria and their products aggressively as part of the treatment of SA. IDMS was supported by Orthopaedic Research UK and The Royal College of Surgeons of Edinburgh

Chondrocytes are essential to the maintenance of articular cartilage and it is thought that chondrocyte death occurs early in septic arthritis. Understanding the causes of chondrocyte death will allow the development of chondroprotective strategies to improve long-term outcomes following septic arthritis. We utilised a murine model of septic arthritis using intra-articular injection of 10µL of a 107 concentration of S. aureus suspended in PBS. Seventy-five adult male C57/Bl6 mice were randomised to receive injection of either S. aurues 8325-4 (a wild-type of S. aurues capable of alpha toxin production), DU1090 (an isogenic mutant of 8325-4 that is identical to 8325-4 other than being incapable of producing alpha toxin) or a PBS control. Establishment of septic arthritis was confirmed through gait changes (5 mice/group), limb swelling and histological changes (10 mice/group). 10 animals from each group were sacrificed at 48 hours and the injected knee joints were dissected before being stained with CFMDA (labelling live chondrocytes green) and PI (labelling dead chondrocytes red). The samples were imaged using a confocal laser scanning microscope and the percentage of chondrocyte death was calculated. Mice injected with S. aureus 8325-4 or DU1090 developed septic arthritis with evidence of weight loss, limb swelling and gait changes whereas these were absent in the control group. There was a significantly higher level of chondrocyte death in the group infected with 8325-4 (2.7% chondrocyte viability) when compared to DU1090 (73.9% chondrocyte viability) and PBS injected mice (95% chondrocyte viability). One-Way ANOVA revealed that the difference between each group was statistically different (p < 0.05). Alpha toxin is the major damaging toxin in S. aurues septic arthritis. Any adverse effect of the immune system is negligible in comparison. Development of treatments counteracting the effect of alpha toxin is required

Depletion of Scleraxis-lineage (ScxLin) cells in adult tendon recapitulates age-related decrements in cell density, ECM organization and composition. However, depletion of ScxLin cells improves tendon healing, relative to age-matched wildtype mice, while aging impairs healing. Therefore, we examined whether ScxLin depletion and aging result in comparable shifts in the tendon cell environment and defined the intrinsic programmatic shifts that occur with natural aging, to define the key regulators of age-related healing deficits. ScxLin cells were depleted in 3M-old Scx-Cre+; Rosa-DTRF/+ mice via diphtheria toxin injections into the hindpaw. Rosa-DTRF/+ mice were used as wildtype (WT) controls. Tendons were harvested from 6M-old ScxLin depleted and WT mice, and 21-month-old (21M) C57Bl/6 mice (aged). FDL tendons (n=6) were harvested for single-cell RNAseq, pooled, collagenase digested, and sorted for single cell capture. Data was processed using Cell Ranger and then aligned to the annotated mouse genome (mm10). Filtering, unsupervised cell clustering, and differential gene expression (DEG) analysis were performed using Seurat. Following integration and sub-clustering of the tenocyte populations, five distinct subpopulations were observed. In both ScxLin depletion and aging, ‘ECM synthesizers’ and ‘ECM organizers’ populations were lost, consistent with disruptions in tissue homeostasis and altered ECM composition. However, in ScxLin depleted mice retention of a ‘specialized ECM remodeler’ population was observed, while aging tendon cells demonstrated inflammatory skewing with retention of a ‘pro-inflammatory tenocyte population’. In addition, enrichment of genes associated with protein misfolding clearance were observed in aged tenocytes. Finally, a similar inflammatory skewing was observed in aged tendon-resident macrophages, with this skewing not observed in ScxLin depleted tendons. These data suggest that loss of ‘ECM synthesizer’ populations underpins disruptions in tendon homeostasis. However, retention of ‘specialized remodelers’ promotes enhanced healing (ScxLin depletion), while inflammatory skewing may drive the impaired healing response in aged tendons

Introduction and Aims: In order to evaluate the hypothesis that the ‘temporary and controlled reduction of muscle force protects repair sites come from its safe, active, and passive range of motion and diminishes complications’, a tendon repair model was evaluated. Method: After heel cord tenotomy, Sprague-Dawley rats (n=36) were randomised to Botulinum A Toxin at six units per kilogram or saline and the tendon repaired with a two-strand core suture and a peritenon running suture. The ankles were pinned in equinus for two days, and then the animals were allowed to move freely within their cages. Analysis included gap, rupture rates, electrophysiologic measurements and mechanical testing. Results: The treatment group had a statistically significant lower spontaneous partial or total rupture rate than the control (P=0.38). Tendon electrophysiologic testing showed that the toxin group had lower twitch and tetanus values than the control group (evidence of effective denervation). The toxin group also had better histologic healing and better strength of repair (higher rupture strength values). Histologic assessment showed that the toxin-treated group had more normal histology with less scar. Conclusion: Chemoprotection decreases significantly spontaneous tendon rupture rates following repair in active versus control groups. The active toxin group demonstrated better healing. Decreasing tension across repair sites is equally effective in increasing inastamotic strength and permits active range of motion without rupture

Aim. Toxin-antitoxin (TA) systems are small genetics elements found in the majority of bacteria which encode a toxin causing bacterial growth arrest and an antitoxin counteracting the toxic effect. In Salmonella and E. coli, TA systems were shown to be involved in the formation of persisters. Persisters are a bacterial subpopulation with low growth rate and high tolerance to antibiotics. They could be responsible for antibiotic treatment failure in chronic infections and relapses, notably in bone and joint infections (BJI) caused by Staphylococcus aureus. Currently, two type II TA system families were described in S. aureus, mazEF and axe/txe, but their physiological roles are not well described. In this work, we studied the importance of mazEF in the intracellular survival of S. aureus inside osteoblasts, one of the mechanisms considered in the chronicity of S. aureus BJI. Methods. Using an ex vivo model of intracellular infection of human osteoblast-like cells (MG-63), two strains of S. aureus HG003 wild type and its isogenic mutant HG003 ΔmazEF were compared in terms of : i) internalization and intracellular survival by lysostaphin protective assay and ii) cytotoxicity by quantifying LDH in the culture supernatant, 24h and 48h after infection. Results. The comparison of the two strains revealed that HG003 ΔmazEF had a lower capacity to be internalized by osteoblasts compared to the wild type (p=0.02). However, intracellular survival was greater for HG003 ΔmazEF compared to the wild type 24h and 48h post-infection (p=0.02 and 0.001 respectively). Concerning the bacteria-induced cell death, HG003 ΔmazEF appeared to be less cytotoxic than the wild type strain at 24h post infection (p=0.007) whereas no more differences could be observed after 48h. This delayed cytotoxicity with HG003 ΔmazEF was also observed after incubation of culture supernatants with osteoblasts during 8 hours, suggesting that the differences observed could be caused by a secreted molecule. Conclusions. Our results suggest that the mazEF system could be involved in S. aureus BJI physiopathology regulating cytotoxicity and persistence in osteoblasts. Our prospect is to identify the target of the mazF toxin which could be a therapeutic target

Staphylococcus aureus is the main cause of osteomyelitis and forms biofilm and staphylococcal abscess communities (SACs) in humans. While S. aureus has several toxins with specificity for human targets and working with human host cells would be preferred, for SACs no in vitro models, two-dimensional (2D) or three-dimensional (3D), have been described in literature to date. Advanced 3D in vitro cell culture models enable the incorporation of human cells and resemble in vivo tissue more closely than conventional 2D cell culture. Therefore, the aim of this study was to develop an in vitro model of SACs by using a 3D system. The model should allow for studies into antibiotic tolerance and S. aureus - human host cells interactions. With a clinical isolate (S. aureus JAR) or a lab strain (S. aureus ATCC 49230-GFP), SACs were grown in a collagen gel (1.78 mg/ml, Gibco) supplemented with 200 µl human plasma at 37 °C. Transmission and scanning electron microscopy was used to obtain a detailed overview of SACs, whereas immunofluorescent stainings were done to determine whether the pseudocapsule around SACs consist of fibrin. Antibiotic tolerance of SACs was assessed with 100× the minimal inhibitory concentration (MIC) of gentamicin (Roth). Bacterial clearance of non-establised SACs and established SACs with or without pseudocapsule was determined by exposure to differentiated PLB neutrophil-like cells (differentiation with 1.25% DMSO and 5% FBS for 5 days; dPLB) or primary neutrophils isolated with lymphoprep from fresh heparin blood. Degradation of the pseudocapsule was done with 7.5 µl/ml plasmin (Sigma). Colony forming unit (CFU) counts were performed as quantification method. Statistical analysis was performed with the ANOVA multiple comparison test or, when data was not normally distributed, with a Mann-Whitney U test. We have developed a 3D in vitro model of SACs which after overnight growth were on average 200 micrometers in diameter, consisted of 8 log10 CFUs and were surrounded by an inner and outer fibrin pseudocapsule. The in vitro grown SACs tolerated 100× the MIC of gentamicin for 24h and did not significantly differ from control SACs (p=0.1000). dPLB neutrophil-like cells or primary neutrophils did not clear established in vitro SACs (p=0.1102 and p=0.8767, respectively). When the fibrin pseudocapsule was degraded by the enzyme plasmin, dPLB neutrophil-like cells or primary neutrophils caused for a significant decrease in total CFU compared the SACs that did had a pseudocapsule (p=0.0333 and p=0.0272, respectively). The in vitro SACs model offers a tool for host-pathogen interaction and drug efficacy assessments and is a valuable starting point for future research

Staphylococcus aureus is the most common bacterial isolate in septic arthritis. From studies on isolated cartilage cells, the ‘pore-forming’ alpha and gamma toxins are considered the most virulent factors. However, understanding the response of in situ chondrocytes is important in order to identify new treatments to reduce the extent of cartilage damage during, and following, episodes of septic arthritis. Animal models can give useful information; however the interpretation of data can be complex because of the strong immune response. Thus, to clarify the role of S. aureus toxins on in situ chondrocytes we have developed a bovine cartilage explant model. Metacarpophalangeal joints, from 3-year-old cows, were opened under sterile conditions within 6hrs of slaughter and cartilage explants harvested. Explants were placed into flasks containing Dulbecco's Modified Eagle Medium (DMEM). Aspirates from a patient with septic arthritis of the hip, containing S. aureus, were compared to negative aspirates (no bacterial growth) from a patient with an inflamed knee joint (controls). The explants were incubated at 37 degrees Celsius and stained after 18, 24 and 40hrs with the fluorescent probes chloromethylfluorescein di-acetate and propidium iodide (10 micromolar each) to label living chondrocytes green and dead cells red respectively. Following imaging of cartilage by confocal laser scanning microscopy, the percentage cell death at each time point was obtained using Volocity 4 software. There was no detectable change in chondrocyte viability (<1% cell death) over 40hrs incubation with the negative aspirate. However, for the aspirate from a patient positive for S. aureus, there was a rapid increase in cell death between 18 and 24hrs (0.2 +/− 0.3% to 23 +/− 5% cell death respectively) and almost complete cell death at 40hrs (80 +/− 12%; data are means +/− s.d; n=4). These results show that a strain of S. aureus capable of manifesting clinical disease exerts a potent effect on in situ chondrocytes. In the absence of an immune response, chondrocyte death was purely the result of the bacteria and their products. This bovine cartilage explant model could therefore be useful for studying the effects of S. aureus on chondrocyte behaviour and, ultimately, cartilage integrity

We retrospectively reviewed 26 patients who underwent reconstruction of the shoulder for a medial rotation contracture after birth injury of the brachial plexus. Of these, 13 patients with a mean age of 5.8 years (2.8 to 12.9) received an injection of botulinum toxin type A into the pectoralis major as a surgical adjunct. They were matched with 13 patients with a mean age of 4.0 years (1.9 to 7.2) who underwent an identical operation before the introduction of botulinum toxin therapy to our unit. Pre-operatively, there was no significant difference (p = 0.093) in the modified Gilbert shoulder scores for the two groups. Post-operatively, the patients who received the botulinum toxin had significantly better Gilbert shoulder scores (p = 0.012) at a mean follow-up of three years (1.5 to 9.8). It appears that botulinum toxin type A produces benefits which are sustained beyond the period for which the toxin is recognised to be active. We suggest that by temporarily weakening some of the power of medial rotation, afferent signals to the brain are reduced and cortical recruitment for the injured nerves is improved

Aims

The aims of this study were to: 1) report on a cohort of skeletally mature patients with native hip and knee septic arthritis over a 14-year period; 2) to determine the rate of joint failure in patients who had experienced an episode of hip or knee septic arthritis; and 3) to assess the outcome following septic arthritis relative to the infecting organism, whether those patients infected by Staphylococcus aureus would be more likely to have adverse outcomes than those infected by other organisms.

Intramuscular injections of botulinum neuro toxin A (BoNT-A) have been a cornerstone in the treatment of spasticity for the last two decades. In India, the treatment is now offered to children with spastic cerebral palsy (CP). However, despite its use, the evidence for its functional effects is limited and inconclusive. The objective of this study is to determine whether BoNT-A makes walking easier in children with CP. We hypothesize that injections with BoNT-A will not reduce energy cost during walking, improve walking capacity, reduce pain or improve self-perceived performance and satisfaction. Between the period of 2012 and 2014, 35 children with spastic CP less than 10 years of age were included. The patients were classified according to their gross motor function classification system (GMFCS) and their pre-and post-injection gait analysis were performed. Spasticity assessed by Modified Ashworth Score [MAS]. Trained parents were utilised for the post injection physiotherapy as these children will be more complaint to them. GMFCS and MAS scoring done every three months till one year follow up. Therapeutically, effect was found in 90% of the patients, an average duration of the medical effect was 6–12 months. The improvement in GMFC functional score in serial measurements was seen in these patients though some deterioration in spasticity scores at one year. Despite mild recurrence in spasticity, majority maintained independent (42%) or assisted ambulation (48%) at one year. No major side effects occurred. Botox may prove a useful adjuvant in conservative management of the spasticity of cerebral palsy. Apart from being very cost effective in these financially deprived populations, successful management with these injections may allow delay of surgical intervention until the child is older and at less risk of possible complications, including the need for repeated surgical procedures

Periprosthetic joint infection (PJI) is a difficult complication requiring a comprehensive eradication protocol. Cure rates have essentially stalled in the last two decades, using methods of antimicrobial cement joint spacers and parenteral antimicrobial agents. Functional spacers with higher-dose antimicrobial-loaded cement and antimicrobial-loaded calcium sulphate beads have emphasized local antimicrobial delivery on the premise that high-dose local antimicrobial delivery will enhance eradication. However, with increasing antimicrobial pressures, microbiota have responded with adaptive mechanisms beyond traditional antimicrobial resistance genes. In this review we describe adaptive resistance mechanisms that are relevant to the treatment of PJI. Some mechanisms are well known, but others are new. The objective of this review is to inform clinicians of the known adaptive resistance mechanisms of microbes relevant to PJI. We also discuss the implications of these adaptive mechanisms in the future treatment of PJI.

Cite this article: Bone Joint J 2022;104-B(5):575–580.