72 research outputs found

    An analysis of finger and hand injuries in children in a tertiary paediatric emergency department.

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    AIMS OF THE STUDY This study set out to examine the association between current subspecialty (paediatric and hand surgery) consultation practice for children with hand and finger injuries presenting to a tertiary paediatric emergency department and length of stay in the paediatric emergency department. Also, incidence and injury pattern of hand and finger injuries in this patient group were analysed. METHODS This was a retrospective cross-sectional study, which was undertaken as a clinical audit service. All patients under 17 years presenting to our paediatric emergency department with hand and finger injuries over a 17-month period were included in the analysis. We studied incidence and injury mechanism, current subspecialty referral practice, as well as paediatric emergency department and hospital length of stay. RESULTS We identified 929 children for inclusion in the analysis. The most frequent reasons for presentation were hand contusions (25.5%) and fractures (20.8%). Paediatric emergency medicine physicians alone managed 845 patients (90.6%), paediatric surgery referral occurred in 50 (5.4%) and hand surgery consultation in 37 (4.0%) cases. Mean length of stay in the paediatric emergency department was 154 min and significantly longer when subspecialty review occurred. Hospital admission occurred in 87 cases (9.3%). CONCLUSIONS Involvement of subspecialties in the care of hand and finger injuries was associated with significantly increased length of stay in the paediatric emergency department. We discuss obstacles and enablers for timely patient referral and management. We suggest the implementation of referral guidelines, tailored to the individual emergency department, to reduce unnecessary patient journey delays and to ensure higher quality repair of complex hand injuries by the appropriate surgeon, with better outcomes. Making use of the emergence of multiple surgical subspecialties for targeted treatment of paediatric finger and hand injuries might be desirable

    Monitoring tools for DevOps and microservices: A systematic grey literature review

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    Microservice-based systems are usually developed according to agile practices like DevOps, which enables rapid and frequent releases to promptly react and adapt to changes. Monitoring is a key enabler for these systems, as they allow to continuously get feedback from the field and support timely and tailored decisions for a quality-driven evolution. In the realm of monitoring tools available for microservices in the DevOps-driven development practice, each with different features, assumptions, and performance, selecting a suitable tool is an as much difficult as impactful task. This article presents the results of a systematic study of the grey literature we performed to identify, classify and analyze the available monitoring tools for DevOps and microservices. We selected and examined a list of 71 monitoring tools, drawing a map of their characteristics, limitations, assumptions, and open challenges, meant to be useful to both researchers and practitioners working in this area. Results are publicly available and replicable

    Bone morphogenetic proteins − 7 and − 2 in the treatment of delayed osseous union secondary to bacterial osteitis in a rat model

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    Background: Bone infections due to trauma and subsequent delayed or impaired fracture healing represent a great challenge in orthopedics and trauma surgery. The prevalence of such bacterial infection-related types of delayed non-union is high in complex fractures, particularly in open fractures with additional extensive soft-tissue damage. The aim of this study was to establish a rat model of delayed osseous union secondary to bacterial osteitis and investigate the impact of rhBMP-7 and rhBMP-2 on fracture healing in the situation of an ongoing infection. Methods: After randomization to four groups 72 Sprague-Dawley rats underwent a transverse fracture of the midshaft tibia stabilized by intramedullary titanium K-wires. Three groups received an intramedullary inoculation with Staphylococcus aureus (103 colony-forming units) before stabilization and the group without bacteria inoculation served as healing control. After 5 weeks, a second surgery was performed with irrigation of the medullary canal and local rhBMP-7 and rhBMP-2 treatment whereas control group and infected control group received sterile saline. After further 5 weeks rats were sacrificed and underwent biomechanical testing to assess the mechanical stability of the fractured bone. Additional micro-CT analysis, histological, and histomorphometric analysis were done to evaluate bone consolidation or delayed union, respectively, and to quantify callus formation and the mineralized area of the callus. Results: Biomechanical testing showed a significantly higher fracture torque in the non-infected control group and the infected rhBMP-7- and rhBMP-2 group compared with the infected control group (p < 0.001). RhBMP-7 and rhBMP-2 groups did not show statistically significant differences (p = 0.57). Histological findings supported improved bone-healing after rhBMP treatment but quantitative micro-CT and histomorphometric results still showed significantly more hypertrophic callus tissue in all three infected groups compared to the non-infected group. Results from a semiquantitative bone-healing-score revealed best bone-healing in the non-infected control group. The expected chronic infection was confirmed in all infected groups. Conclusions: In delayed bone healing secondary to infection rhBMP treatment promotes bone healing with no significant differences in the healing efficacy of rhBMP-2 and rhBMP-7 being noted. Further new therapeutic bone substitutes should be analyzed with the present rat model for delayed osseous union secondary to bacterial osteitis

    Bone morphogenetic proteins in tissue engineering: the road from laboratory to clinic, part II (BMP delivery)

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    Bone morphogenetic proteins (BMPs) are cytokines with a strong effect on bone and cartilage growth and with important roles during embryonic patterning and early skeletal formation. BMPs have promising potential for clinical bone and cartilage repair, working as powerful boneinducing components in diverse tissue-engineering products. Synthetic polymers, natural origin polymers, inorganic materials and composites may be used as carriers for the delivery of BMPs. Carriers range from nanoparticles to complex three-dimensional (3D) scaffolds, membranes for tissue-guided regeneration, biomimetic surfaces and smart thermosensitive hydrogels. Current clinical uses include spinal fusion, healing of long bone defects and craniofacial and periodontal applications, amongst others. BMP-2 and BMP-7 have recently received approval by the US Food and Drug Administration (FDA) for specific clinical cases, delivered in absorbable collagen sponges. Considering the expanding number of publications in the field of BMPs, there are prospects of a brilliant future in the field of regenerative medicine of bone and cartilage with the use of BMPs

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