Status of MICE

Muon ionization cooling is the only practical method for preparing high-brilliance beams needed for a neutrino factory or muon collider. The muon ionization cooling experiment (MICE) under development at the Rutherford Appleton Laboratory comprises a dedicated beamline to generate a range of input emittance and momentum, with time-of-flight and Cherenkov detectors to ensure a pure muon beam. A first measurement of emittance is performed in the upstream magnetic spectrometer with a scintillating-fiber tracker. A cooling cell will then follow, alternating energy loss in liquid hydrogen with RF acceleration. A second spectrometer identical to the first and a particle identification system will measure the outgoing emittance. Plans for measurements of emittance and cooling are described.Comment: Poster presented at ICHEP08 Conference, Philadelphia, USA, July 2008. 3 pages, 3 figure

The Impact of the Global Expansion of Racism and Xenophobia on Social Inequality in the United States and Abroad

Racism in the United States has been a major social problem for generations Our nation s history is filled with numerous examples of multigenerational discriminatory laws and public policies that have sought to deny civil liberties to individuals of color Institutionalized inequalities in the areas of education employment housing and access to healthcare services supported by conservative lawmakers representing the broader White constituency are the catalyst that launched early social justice movements to bring about change that would create a more inclusive social order where everyone s fundamental rights are protected Although some research over the past five decades has shown broad indications that legislative changes like the ones brought about by the civil rights legislation of the 1960s have enabled some disenfranchised minority populations such as Blacks Hispanics and Asian Americans to receive civil liberties protection under the law the underlying attitudes and beliefs that support discrimination against individuals based on race have not kept pace with this progress National statistics from surveys by federal agencies provide substantial evidence that despite the enactment of new laws designed to make social political and economic systems more responsive to the rights of racial and ethnic minority groups The adverse effects of institutionalized racism continue to expand globally This chapter will critically analyze the historical socioeconomic and political factors contributing to the rise of institutionalized racism in our culture It will examine how implementing anti-discrimination laws policies and practices can create a more welcoming social order by transforming biased perceptions about rac

Switching Inhalers:A Practical Approach to Keep on UR RADAR

Abstract The choice of an inhaler device is often as important as the medication put in it to achieve optimal outcomes for our patients with asthma and/or COPD. With a multitude of drug–device combinations available, optimization of respiratory treatment could well be established by switching devices rather than changing or even augmenting pharmacological or non-pharmacological therapies. Importantly, while notable between-device differences in release mechanism, particle size, drug deposition and required inspiratory flow exist, a patient uncomfortable with their device is unlikely to use it regularly and certainly will not use it properly. Switching requires a careful process and should not be done without patient consent. Switching devices entails several steps that need to be considered, which can be guided using the UR-RADAR mnemonic. It starts with (i) UncontRolled asthma/COPD (or UnaffoRdable device), followed by RADAR: (ii) review the patient’s condition (e.g. diagnosis, phenotype, co-morbidities) and address reasons for suboptimal control (e.g. triggers, smoking, non-adherence, poor inhaler technique) to be ruled out before switching; (iii) assess patient’s skills related to inhalation (e.g. inspiratory force); (iv) discuss inhaler switch options, patient preferences (e.g. size, daily regimen) and treatment goals; (v) allow patients input and use shared decision-making to decide final treatment choice, acknowledging individual patient skills, preferences and goals; and (vi) re-educate to the new device (at minimum, physical demonstration, verbal explanation and patient repetition, both verbally and physically) and prime the patient for the follow-up (i.e. explain the future patient journey, including multidisciplinary work flows with physicians, nurses and pharmacists)

Primary Antibody Responses to Thymus-Independent Antigens in the Lungs and Hilar Lymph Nodes of Mice

B lymphocytes from the pulmonary lymphoid tissues were stimulated with a variety of thymus-independent (TI) antigens by intratracheal (i.t.) immunization. Immune responses in the lungs and hilar lymph nodes (HLN), which are part of the localized lymphoid tissue, as well as in the spleen, the systemic lymphoid organ, were studied. Thus, primary i.t. immunization of mice with the TI-1 antigen trinitrophenyl-lipopolysaccharide (TNP-LPS) elicited both antigen-specific and polyclonal plaque-forming cell responses from HLN, lung, and splenic B lymphocytes. These responses appeared as early as 3 days after immunization and declined by day 7. Similar immunization with another TI-1 antigen, TNP-Brucella abortus, resulted in anti-TNP responses in both pulmonary and systemic lymphoid tissues, although the kinetics of the antibody response were different than those to TNP-LPS. Interestingly an i.t. immunization with a TI-2 antigen, TNP-Ficoll, failed to induce an anti-TNP PFC response from HLN and lung B cells, although there was good antibody formation from splenic B cells. Antibody response to TNP-Ficoll was restored in pulmonary tissues when mice were immunized with TNP-Ficoll mixed with unconjugated B. abortus. In conclusion, our results indicate that TI-1 and TI-2 antigens differ in their ability to induce antibody responses in the pulmonary lymphoid tissues. The inability of TNP-Ficoll to elicit an antibody response in pulmonary lymphoid tissues has significance in the development of vaccines containing bacterial polysaccharides

ProCARs: Progressive Reconstruction of Ancestral Gene Orders

International audienceBackground: In the context of ancestral gene order reconstruction from extant genomes, there exist two main computational approaches: rearrangement-based, and homology-based methods. The rearrangement-based methods consist in minimizing a total rearrangement distance on the branches of a species tree. The homology-based methods consist in the detection of a set of potential ancestral contiguity features, followed by the assembling of these features into Contiguous Ancestral Regions (CARs). Results: In this paper, we present a new homology-based method that uses a progressive approach for both the detection and the assembling of ancestral contiguity features into CARs. The method is based on detecting a set of potential ancestral adjacencies iteratively using the current set of CARs at each step, and constructing CARs progressively using a 2-phase assembling method. We show the usefulness of the method through a reconstruction of the boreoeutherian ancestral gene order, and a comparison with three other homology-based methods: AnGeS, InferCARs and GapAdj. The program is written in Python, and the dataset used in this paper are available at http://bioinfo.lifl.fr/procars/