3,866 research outputs found

    Who flees? An integration of household characteristics in the white flight hypothesis

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    Although there is an extensive field dedicated to the study of ethnic residential segregation, few scholars investigate the importance of household characteristics for understanding this segregation. Considering the White Flight hypothesis as a special case of the Residential Stress theory, we investigate whether there is a link between the presence of four different house hold types ethnic concentration and segregation. We therefore perform two analyses using the 2001 Census of Belgium: a binary logistic multilevel analysis investigating the chance that a neighbourhood is ethnically concentrated (i.e. has a location quotient higher than 1) and a single level linear regression analysis investigating the dissimilarity score of a city. We find that neighbourhoods with a large share ethnic majority single households and lone parents have a higher chance to be concentrated than neighbourhoods with a lower share of either household type. The same can be said for the percentage cohabitating, childless couples before adding control variables. The percentage families with young children has an inverse relation with neighbourhood concentration before adding control variables. Cities with a higher share families with young children are more segregated than cities with a lower share families with young children. Cities with a high share single households and lone parents, on the other hand, are less segregated than cities with a low share single households or lone parents. We thus conclude that it is important to consider household characteristics when studying White Flight specifically and ethnic residential segregation more general

    Asthma

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    Asthma

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    Tumor bed brachytherapy for locally advanced laryngeal cancer: a feasibility assessment of combination with ferromagnetic hyperthermia

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    Purpose. To assess the feasibility of adding hyperthermia to an original method of organ-preserving brachytherapy treatment for locally advanced head and neck tumors. Methods and materials. The method involves organ-preserving tumor resection and adjunctive high-dose-rate (HDR) brachytherapy delivered via afterloading catheters. These catheters are embedded in a polymeric implant prepared intraoperatively to fill the resection cavity, allowing precise computer planning of dose distribution in the surrounding at-risk tumor bed tissue. Theoretical and experimental analyzes address the feasibility of heating the tumor bed implant by coupling energy from a 100 kHz magnetic field applied externally into ferromagnetic particles, which are uniformly distributed within the implant. The goal is to combine adjuvant hyperthermia (40 °C–45 °C) to at-risk tissue within 5 mm of the resection cavity for thermal enhancement of radiation and chemotherapy response. Results. A five-year relapse free survival rate of 95.8% was obtained for a select group of 48 male patients with T3N0M0 larynx tumors, when combining organ-preserving surgery with HDR brachytherapy from a tumor bed implant. Anticipating the need for additional treatment in patients with more advanced disease, a theoretical analysis demonstrates the ability to heat at-risk tissue up to 10 mm from the surface of an implant filled with magnetically coupled ferromagnetic balls. Using a laboratory induction heating system, it takes just over 2 min to increase the target tissue temperature by 10 °C using a 19% volume fraction of ferromagnetic spheres in a 2 cm diameter silicone implant. Conclusion. The promising clinical results of a 48 patient pilot study demonstrate the feasibility of a new organ sparing treatment for laryngeal cancer. Anticipating the need for additional therapy, theoretical estimations of potential implant heating are confirmed with laboratory experiments, preparing the way for future implementation of a thermobrachytherapy implant approach for organ-sparing treatment of locally advanced laryngeal cancer

    Resonances in rotationally inelastic scattering of OH(X2ΠX^2\Pi) with helium and neon

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    We present detailed calculations on resonances in rotationally and spin-orbit inelastic scattering of OH (X\,^2\Pi, j=3/2, F_1, f) radicals with He and Ne atoms. We calculate new \emph{ab initio} potential energy surfaces for OH-He, and the cross sections derived from these surfaces compare favorably with the recent crossed beam scattering experiment of Kirste \emph{et al.} [Phys. Rev. A \textbf{82}, 042717 (2010)]. We identify both shape and Feshbach resonances in the integral and differential state-to-state scattering cross sections, and we discuss the prospects for experimentally observing scattering resonances using Stark decelerated beams of OH radicals.Comment: 14 pages, 15 Figure
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