10 research outputs found
Visions: Chaos in Naango
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The Real Daily Need for Incontinence Aids and Appliances in Patients with Neurogenic Bladder Dysfunction in a Community Setting in Germany
PURPOSE: For successful long-term rehabilitation of patients with neurogenic lower urinary tract dysfunction (NLUTD), it is necessary to define the objective requirement for urological aids based on a scientifically validated basis. METHODS: This was a cross-sectional multicenter study, based on a questionnaire. Data concerning bladder management and daily consumption of urological appliances for patients with NLUTD in a community setting were collected through a standardized survey. RESULTS: Seven hundred and sixty-seven records were analyzed: 543 males, 221 females (N/A = 3). Patients using intermittent catheterization (n= 608) required 5.06 (mean) single-use catheters per day. Out of them, 94 (15.5%) required additional pads (mean: 2.29 per day), 34 patients (5.6%) additionally used pants (mean: 2.55 per day) and 46 patients (7.6%) utilized condom catheters (mean: 3.81 per day) between catheterizations. Among all, 126 patients (16.4%) used pads (mean: 5.03 per day), and 51 patients (6.6%) used pants (mean: 3.03 per day). Women needed both pads (p < 0.0001) and diapers (p = 0.0084) significantly more frequently than men. Eighty-two of the male patients (15.1%) applied condom catheters (mean: 2.8 per day). The target value of the objective daily requirement of incontinence aids for adult patients with NLUTD (based on the upper twofold standard deviation from the mean value) was defined as follows: up to nine single-use catheters, seven condom catheters, nine pads and/or seven pants. A “mixed supply” of different incontinence aids is part of the daily supply for many patients. CONCLUSION: For the first time, these results allow a reasonable regulation of urological aids and appliances based on scientific data for patients with neurogenic bladder
Development of the Slow Control for the PANDA-EMC
The Slow Control of the PANDA experiment will be based on EPICS (Experimental Physics
and Industrial Control System). EPICS is a set of open source software tools, libraries and
applications used worldwide to create distributed real-time control systems for scientific
instruments and industrial applications. For the PANDA-EMC the slow control will monitor
the temperature, humidity and pressure inside the calorimeter as well as control the power
supplies for the read out electronics, crates and the cooling system
Development of the Slow Control for the PANDA-EMC
The Slow Control of the PANDA experiment will be based on EPICS (Experimental Physics
and Industrial Control System). EPICS is a set of open source software tools, libraries and
applications used worldwide to create distributed real-time control systems for scientific
instruments and industrial applications. For the PANDA-EMC the slow control will monitor
the temperature, humidity and pressure inside the calorimeter as well as control the power
supplies for the read out electronics, crates and the cooling system
Technical Design Report for the: PANDA Straw Tube Tracker
This document describes the technical layout and the expected performance of the Straw Tube Tracker (STT), the main tracking detector of the PANDA target spectrometer. The STT encloses a Micro-Vertex-Detector (MVD) for the inner tracking and is followed in beam direction by a set of GEM-stations. The tasks of the STT are the measurement of the particle momentum from the reconstructed trajectory and the measurement of the specific energy-loss for a particle identification. Dedicated simulations with full analysis studies of certain proton-antiproton reactions, identified as being benchmark tests for the whole \Panda scientific program, have been performed to test the STT layout and performance. The results are presented, and the time lines to construct the STT are described
Technical design report for the PANDA (AntiProton Annihilations at Darmstadt) Straw Tube Tracker
<p>This document describes the technical layout and the expected performance of the Straw Tube Tracker (STT), the main tracking detector of the PANDA target spectrometer. The STT encloses a Micro-Vertex-Detector (MVD) for the inner tracking and is followed in beam direction by a set of GEM stations. The tasks of the STT are the measurement of the particle momentum from the reconstructed trajectory and the measurement of the specific energy loss for a particle identification. Dedicated simulations with full analysis studies of certain proton-antiproton reactions, identified as being benchmark tests for the whole PANDA scientific program, have been performed to test the STT layout and performance. The results are presented, and the time lines to construct the STT are described.</p>