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- BookRobert M. Bray, Laurel L. Hourani, Jason Williams, Marian E. Lane, Mary Ellen Marsden.Summary: From the stresses of repeated deployments to the difficulties of re-entry into civilian life, we are just beginning to understand how protracted conflicts, such as those in Iraq and Afghanistan, are affecting service members. Issues such as risky health behaviors and chemical dependence raise productivity concerns as they do with all organizations, but they also have a profound impact on the safety and readiness of troops--and by extension, the military as a whole--in life-or-death situations. Understanding Military Workforce Productivity cuts through the myths and misconceptions about the health and resilience of today's active-duty armed forces. This first-of-its-kind volume presents up-to-date findings across service branches in core health areas including illness and injury, alcohol and drug abuse, tobacco use, obesity, and mental health. The short- and long-term implications discussed relate to the quality of the lives of service members and their families, the quality and preparedness of the military as a workforce, and prevention and intervention efforts.
Contents:
Health and Behavioral Health in the Military
Methodology
Substance Abuse
Health Behaviors and Health Status
Stress and Mental Health
Productivity Loss Associated with Substance Use, Physical Health, and Mental Health
Summary and Implications of Findings. - ArticleMiller A, Morse HC, Winkelstein J, Nathanson N.J Immunol. 1978 Jul;121(1):321-6.The avirulent high egg passage (HEP) strain of rabies virus produces an inapparent infection limited to the central nervous system (CNS) in intracerebrally inoculated adult mice. Heavy chain isotype (anti-mu antiserum) immunosuppression potentiates the infection, with a mortality of about 60% and with elevated virus titers in the brain. Anti-mu-treated mice fail to raise antibody responses to rabies virus although their T cell function is normal when measured by the concanavalin A response of splenic lymphocytes. This indicates that the B cell response plays an important role in clearance of rabies virus from the neuroparenchyma. Treatment with cyclophosphamide or by adult thymectomy, x-irradiation, and bone marrow reconstitution potentiates HEP infection to a greater extent than does isotype suppression. Since these suppressive techniques impair both T and B lymphocyte responses, the data suggest that cellular immune mechanisms may also contribute to host defenses against this central nervous system (CNS) virus infection.