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Item Open Access Arthros, number 16, fall 2010(Colorado State University. Libraries, 2010) McIlwraith, Wayne, editor; Vanderlinden, Paula, editor; Orthopaedic Research Center, publisherItem Open Access Arthros, number 14, fall 2008(Colorado State University. Libraries, 2008) Vanderlinden, Paula, editor; Orthopaedic Research Center, publisherItem Open Access Arthros, number 15, fall 2009(Colorado State University. Libraries, 2009) McIlwraith, Wayne, editor; Vanderlinden, Paula, editor; Orthopaedic Research Center, publisherItem Open Access Arthros, number 13, summer 2006(Colorado State University. Libraries, 2006) Briggs, Katie, editor; Orthopaedic Research Center, publisherItem Open Access Arthros, number 12, spring 2005(Colorado State University. Libraries, 2005) Lee, Michelle, editor; Orthopaedic Research Center, publisherItem Open Access Arthros, number 13, fall 2007(Colorado State University. Libraries, 2007) Vanderlinden, Paula, editor; Orthopaedic Research Center, publisherItem Open Access Arthros, number 9, fall 2001(Colorado State University. Libraries, 2001) Ruggle, Katie, editor; Orthopaedic Research Center, publisherItem Open Access Arthros, number 10, winter 2003(Colorado State University. Libraries, 2003) Ruggle, Katie, editor; Orthopaedic Research Center, publisherItem Open Access Arthros, number 22, spring-summer 2018(Colorado State University. Libraries, 2018) Vanderlinden, Paula, editor; Gail Holmes Equine Orthopaedic Research Center, publisherItem Open Access Arthros, number 21, fall 2016(Colorado State University. Libraries, 2016) Vanderlinden, Paula, editor; Talkington, Lindsie, editor; Gail Holmes Equine Orthopaedic Research Center, publisherItem Open Access Arthros, number 19, fall 2013(Colorado State University. Libraries, 2013) McIlwraith, Wayne, editor; Briggs, Katie, editor; Orthopaedic Research Center, publisherItem Open Access Arthros, number 20, winter-spring 2015(Colorado State University. Libraries, 2015) Wygmans, Kristy, editor; Gail Holmes Equine Orthopaedic Research Center, publisherItem Open Access Arthros, number 17, fall 2011(Colorado State University. Libraries, 2011) McIlwraith, Wayne, editor; Vanderlinden, Paula, editor; Orthopaedic Research Center, publisherItem Open Access Arthros, number 18, fall 2012(Colorado State University. Libraries, 2012) McIlwraith, Wayne, editor; Briggs, Katie, editor; Orthopaedic Research Center, publisherItem Open Access Arthros, number 6, spring 1997(Colorado State University. Libraries, 1997) Colorado State University. Equine Orthopaedic Research Program, authorItem Open Access Quantifying proximity, confinement, and interventions in disease outbreaks: a decision support framework for air-transported pathogens(Colorado State University. Libraries, 2021-02-19) Bond, Tami C, author; Bosco-Lauth, Angela, author; Farmer, Delphine K., author; Francisco, Paul W., author; Pierce, Jeffrey R., author; Fedak, Kristen M., author; Ham, Jay M., author; Jathar, Shantanu H., author; VandeWoude, Sue, author; Environmental Science & Technology, publisherThe inability to communicate how infectious diseases are transmitted in human environments has triggered avoidance of interactions during the COVID-19 pandemic. We define a metric, Effective ReBreathed Volume (ERBV), that encapsulates how infectious pathogens, including SARS-CoV-2, transport in air. ERBV separates environmental transport from other factors in the chain of infection, allowing quantitative comparisons among situations. Particle size affects transport, removal onto surfaces, and elimination by mitigation measures, so ERBV is presented for a range of exhaled particle diameters: 1, 10, and 100 μm. Pathogen transport depends on both proximity and confinement. If interpersonal distancing of 2 m is maintained, then confinement, not proximity, dominates rebreathing after 10–15 min in enclosed spaces for all but 100 μm particles. We analyze strategies to reduce this confinement effect. Ventilation and filtration reduce person-to-person transport of 1 μm particles (ERBV1) by 13–85% in residential and office situations. Deposition to surfaces competes with intentional removal for 10 and 100 μm particles, so the same interventions reduce ERBV10 by only 3–50%, and ERBV100 is unaffected. Prior knowledge of size-dependent ERBV would help identify transmission modes and effective interventions. This framework supports mitigation decisions in emerging situations, even before other infectious parameters are known.Item Open Access Building a multi-institutional and interdisciplinary team to develop a zoonotic tuberculosis roadmap(Colorado State University. Libraries, 2018-06-12) Olea-Popelka, Francisco, author; Fujiwara, Paula I., author; Frontiers in Public Health, publisherTuberculosis (TB), as the major infectious disease in the world, has devastating consequences for not only humans, but also cattle and several wildlife species. This disease presents additional challenges to human and veterinary health authorities given the zoonotic nature of the pathogens responsible for the disease across species. One of the main public health challenges regarding zoonotic TB (ZTB) caused by Mycobacterium bovis is that the true incidence of this type of TB in humans is not known and is likely to be underestimated. To effectively address challenges posed by ZTB, an integrated One Health approach is needed. In this manuscript, we describe the rationale, major steps, timeline, stakeholders, and important events that led to the assembling of a true integrated multi-institutional and interdisciplinary team that accomplished the ambitious goal of developing a ZTB roadmap, published in October, 2017. It outlines key activities to address the global challenges regarding the prevention, surveillance, diagnosis, and treatment of ZTB. We discuss and emphasize the importance of integrated approaches to be able to accomplish the short (year 2020) and medium term (year 2025) goals outlined in the ZTB roadmap.Item Open Access How to care for your cat or dog after spay, castration, or declaw surgery(Colorado State University. Libraries, 1990) Colorado State University. Veterinary Medical Teaching Hospital, authorItem Open Access Egg production feasibility study of the Four Corners area: final report - August 1971(Colorado State University. Libraries, 1971) Quarles, Carey L., author; Enos, Howard L., author; Department of Avian Science, Colorado State University, publisherThe Southern Ute Indians located in the Four Corners area of Colorado, Arizona, New Mexico and Utah have been investigating various profitable enterprises that would enable them to raise their standard of living and provide needed employment. Since there are only a few small egg producers in the Four Corners area and these units are below efficient economic size, eggs are generally imported from California. For the above reasons, at the request of the Southern Ute Indian Council through Mr. Leon Hopkins and the Four Corners Regional Commission, a study was conducted in 1970-71 by the Department of Avian Science of Colorado State University to determine the feasibility of establishing an egg production unit by the Southern Ute Indians. This research report is the result of this study.Item Open Access Equine reproductive ultrasonography(Colorado State University. Libraries, 1988-09) McKinnon, A. O., author; Squires, E. L., author; Pickett, B. W., author; Animal Reproduction Laboratory, Colorado State University, publisherFew people predicted the impact that ultrasonography has had on the equine breeding industry. The ability to examine a mare's reproductive tract noninvasively with ultrasonography provides the opportunity to diagnose pregnancy earlier than with rectal palpation, effectively manage twins and detect impending early embryonic death (EED). However, ultrasonography should not be limited to these areas. Ultrasonography can be used to diagnose uterine pathology, such as intrauterine fluid, air, debris and cysts. In addition, ultrasonographic examination of the ovaries may aid in determining stage of estrous cycle, status of preovulatory follicles, development and morphologic assessment of the corpus luteum (CL) and in interpreting ovarian irregularities, such as anovulatory, hemorrhagic follicles or periovarian cysts. The costs of equipment have resulted in a rather limited application of reproductive ultrasonography. Clients enthusiastically support use of ultrasonography to detect pregnancy. However, the same fee schedules for routine examination before and(or) after breeding are not currently accepted by the client. Perhaps another approach for practitioners involved with large numbers of broodmares would be a single fee per year per mare for use of equipment and a smaller fee per examination, whether the examination involved ultrasonography, palpation or both. If this philosophy was adopted, then a more logical approach to diagnosis and treatment of physiological and anatomical abnormalities of the mare's reproductive tract would be forthcoming. In addition, valuable information would be available from correlation of fertility data with normal and abnormal ultrasonographic observations.