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Full-Text Articles in Organisms
Novel Mammalian Models For Understanding And Treating Spinal Cord Injury, Michael B. Orr
Novel Mammalian Models For Understanding And Treating Spinal Cord Injury, Michael B. Orr
Theses and Dissertations--Physiology
Spinal cord injury (SCI) is devastating and often leaves the injured individual with persistent dysfunction. The injury persists because humans have poor wound repair and there are no pharmacologic treatments to induce wound repair after SCI. The continued efforts to discover therapeutic targets and develop treatments heavily relies on animal models. The purpose of this project is to develop and study novel mammalian models of SCI to provide insights for the development and effective implementation of SCI therapies.
Lab mice (Mus musculus) are a powerful tool for recapitulating the progression and persistent damage evident in human SCI, but …
Mice With Infectious Colitis Exhibit Linear Growth Failure And Subsequent Catch-Up Growth Related To Systemic Inflammation And Igf-1, Mark D. Deboer, Vidhya Vijayakumar, Meiqing Gong, John L. Fowlkes, Rachel M. Smith, Fernando Ruiz-Perez, James P. Nataro
Mice With Infectious Colitis Exhibit Linear Growth Failure And Subsequent Catch-Up Growth Related To Systemic Inflammation And Igf-1, Mark D. Deboer, Vidhya Vijayakumar, Meiqing Gong, John L. Fowlkes, Rachel M. Smith, Fernando Ruiz-Perez, James P. Nataro
Barnstable Brown Diabetes Center Faculty Publications
In developing communities, intestinal infection is associated with poor weight gain and linear-growth failure. Prior translational animal models have focused on weight gain investigations into key contributors to linear growth failure have been lacking. We hypothesized that murine intestinal infection with Citrobacter-rodentium would induce linear-growth failure associated with systemic inflammation and suppressed serum levels of insulin-like growth factor-1 (IGF-1). We evaluated 4 groups of mice infected or sham-infected on day-of-life 28: uninfected-controls, wild-type C.-rodentium-infected, partially-attenuated C. rodentium-infected (with deletion of 3 serine protease genes involved in colonization), and pair-fed (given the amount of daily food consumed by the …