Employer and employee obligations and rights under the Uniformed Services Employment and Reemployment Rights Act

As more Reserve and National Guard troops are called to leave the civilian workforce and enter military service, employers must understand the legal rights those service members possess and the employers' legal obligations that are now required under the Uniformed Services Employment and Reemployment Rights Act (USERRA). Current data and litigation trends suggest many employers are not fully aware of their legal obligations under USERRA and the punishing legal liability they may face. USERRA applies to virtually all employers, and the law uniquely provides for both corporate and individual liability for discriminating against employees or applicants because of military service. This article provides an overview of USERRA from the perspective of employers, employees, and potential employees. Practical advice is rendered herein not only for those covered by the Act, but also for employers regarding adherence to this law while avoiding liability under USERRA.USERRA Military Mobilization Reservist Reserves National Guard

Managed Development Environment Successes for MSFC's VIPA Team

This paper outlines the best practices of the Vehicle Design Team for VIPA. The functions of the VIPA Vehicle Design (VVD) discipline team are to maintain the controlled reference geometry and provide linked, simplified geometry for each of the other discipline analyses. The core of the VVD work, and the approach for VVD s first task of controlling the reference geometry, involves systems engineering, top-down, layout-based CAD modeling within a Product Data Manager (PDM) development environment. The top- down approach allows for simple control of very large, integrated assemblies and greatly enhances the ability to generate trade configurations and reuse data. The second VVD task, model simplification for analysis, is handled within the managed environment through application of the master model concept. In this approach, there is a single controlling, or master, product definition dataset. Connected to this master model are reference datasets with live geometric and expression links. The referenced models can be for drawings, manufacturing, visualization, embedded analysis, or analysis simplification. A discussion of web based interaction, including visualization, between the design and other disciplines is included. Demonstrated examples are cited, including the Space Launch Initiative development cycle, the Saturn V systems integration and verification cycle, an Orbital Space Plane study, and NASA Exploration Office studies of Shuttle derived and clean sheet launch vehicles. The VIPA Team has brought an immense amount of detailed data to bear on program issues. A central piece of that success has been the Managed Development Environment and the VVD Team approach to modeling

The Comprehensive Plan City of Madisonville, Texas

This document contains information on Madisonville's history and background, natural environment, existing and future population, and regional economic profile.Public goals and policies were analyzed. Proposals for future land use and the central commercial core of were addressed in detail. Special attention was given to the economic development of the city. This document also looks at the history and background, natural environment, existing and future population, and regional economic profile of Madisonville. Existing land use, community facilities, urban infrastructure, and the transportation system were examined.Texas Target Communitie

Mechanisms underlying differences in systemic exposure of structurally similar active metabolites: comparison of two preclinical hepatic models

Selection of in vitro models that accurately characterize metabolite systemic and hepatobiliary exposure remains a challenge in drug development. In the present study, mechanisms underlying differences in systemic exposure of two active metabolites, furamidine and 2,5-bis (5-amidino)-2-pyridyl furan (CPD-0801), were examined using two hepatic models from rats: isolated perfused livers (IPLs) and sandwich-cultured hepatocytes (SCH). Pafuramidine, a prodrug of furamidine, and 2,5-bis [5-(N-methoxyamidino)-2-pyridyl] furan (CPD-0868), a prodrug of CPD-0801, were selected for investigation because CPD-0801 exhibits greater systemic exposure than furamidine, despite remarkable structural similarity between these two active metabolites. In both IPLs and SCH, the extent of conversion of CPD-0868 to CPD-0801 was consistently higher than that of pafuramidine to furamidine over time (at most 2.5-fold); area under the curve (AUC) of CPD-0801 in IPL perfusate and SCH medium was at least 7-fold higher than that of furamidine. Pharmacokinetic modeling revealed that the rate constant for basolateral (liver to blood) net efflux (k(A_net efflux)) of total formed CPD-0801 (bound + unbound) was 6-fold higher than that of furamidine. Hepatic accumulation of both active metabolites was extensive (>95% of total formed); the hepatic unbound fraction (f(u,L)) of CPD-0801 was 5-fold higher than that of furamidine (1.6 versus 0.3%). Incorporation of f(u,L) into the pharmacokinetic model resulted in comparable k(A_net efflux,u) between furamidine and CPD-0801. In conclusion, intrahepatic binding markedly influenced the disposition of these active metabolites. A higher f(u,L) explained, in part, the enhanced perfusate AUC of CPD-0801 compared with furamidine in IPLs. SCH predicted the disposition of prodrug/metabolite in IPLs