Prevalence of Frailty in European Emergency Departments (FEED): an international flash mob study

Introduction Current emergency care systems are not optimized to respond to multiple and complex problems associated with frailty. Services may require reconfiguration to effectively deliver comprehensive frailty care, yet its prevalence and variation are poorly understood. This study primarily determined the prevalence of frailty among older people attending emergency care. Methods This cross-sectional study used a flash mob approach to collect observational European emergency care data over a 24-h period (04 July 2023). Sites were identified through the European Task Force for Geriatric Emergency Medicine collaboration and social media. Data were collected for all individuals aged 65 + who attended emergency care, and for all adults aged 18 + at a subset of sites. Variables included demographics, Clinical Frailty Scale (CFS), vital signs, and disposition. European and national frailty prevalence was determined with proportions with each CFS level and with dichotomized CFS 5 + (mild or more severe frailty). Results Sixty-two sites in fourteen European countries recruited five thousand seven hundred eighty-five individuals. 40% of 3479 older people had at least mild frailty, with countries ranging from 26 to 51%. They had median age 77 (IQR, 13) years and 53% were female. Across 22 sites observing all adult attenders, older people living with frailty comprised 14%. Conclusion 40% of older people using European emergency care had CFS 5 + . Frailty prevalence varied widely among European care systems. These differences likely reflected entrance selection and provide windows of opportunity for system configuration and workforce planning

Tracing of polypropylene with rare earth oxides in view of automatic sorting of plastic wastes

International audienc

Automated design flow for coarse-grained reconfigurable platforms: An RVC-CAL multi-standard decoder use-case

Specialized hardware infrastructures for efficient multi-application runtime reconfigurable platforms require to address several issues. The higher is the system complexity, the more error prone and time consuming is the entire design flow. Moreover, system configuration along with resource management and mapping are challenging, especially when runtime adaptivity is required. In order to address these issues, the Reconfigurable Video Coding Group within the MPEG group has developed the MPEG RMC standards ISO/IEC 23001-4 and 23002-4, based on the dataflow Model of Computation. In this paper, we propose an integrated design flow, leveraging on Xronos, TURNUS, and the Multi-Dataflow Composer tool, capable of automatic synthesis and mapping of reconfigurable systems. In particular, an RVC MPEG-4 SP decoder and the RVC Intra MPEG-4 SP decoder have been implemented on the same coarse-grained reconfigurable platform, targeting a Xilinx Virtex 5 330 FPGA board. Results confirmed the potentiality of the approach, capable of completely preserving the single decoders functionality and of providing, in addition, considerable power/area benefits with respect to the parallel implementation of the considered decoders on the same platform

Automated design flow for coarse-grained reconfigurable platforms: An RVC-CAL multi-standard decoder use-case

Specialized hardware infrastructures for efficient multi-application runtime reconfigurable platforms require to address several issues. The higher is the system complexity, the more error prone and time consuming is the entire design flow. Moreover, system configuration along with resource management and mapping are challenging, especially when runtime adaptivity is required. In order to address these issues, the Reconfigurable Video Coding Group within the MPEG group has developed the MPEG RMC standards ISO/IEC 23001-4 and 23002-4, based on the dataflow Model of Computation. In this paper, we propose an integrated design flow, leveraging on Xronos, TURNUS, and the Multi-Dataflow Composer tool, capable of automatic synthesis and mapping of reconfigurable systems. In particular, an RVC MPEG-4 SP decoder and the RVC Intra MPEG-4 SP decoder have been implemented on the same coarse-grained reconfigurable platform, targeting a Xilinx Virtex 5 330 FPGA board. Results confirmed the potentiality of the approach, capable of completely preserving the single decoders functionality and of providing, in addition, considerable power/area benefits with respect to the parallel implementation of the considered decoders on the same platform. © 2014 IEEE

Environmental-energy analysis and the importance of design and remanufacturing recycled materials

This paper proposes a framework that interrelates the life cycle of the product, remanufacturing and recycling for plastics. The paper analyses the different chemical processes of recycling polymer wastes. We introduce a thermodynamic calculation of the energy consumed and CO2 emissions for all types of waste(municipal, electronic, vehicle). The remanufacturing process could reduce the amount of CO2 emissions through feedback to the product design stage with robust platforms that extend the product life cycle. In order to meet the requirements of remanufacturing we combine mechanical and chemical recycling solutions. These recycling processes must undergo a thermodynamic analysis to optimize energy and decrease the minimum CO2 emissions, i.e. recycling processes in line with the ultimate objective, which isthe reduction of CO2 emissions and slowing a part of the problem global warming