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Full-Text Articles in Organisms
Assessing Morphology Of Iprgcs After Traumatic Brain Injury, Brian Foresi, Matt Smith
Assessing Morphology Of Iprgcs After Traumatic Brain Injury, Brian Foresi, Matt Smith
Williams Honors College, Honors Research Projects
ipRGCs are retinal ganglion cells that project to visual processing centers of the brain for nonimage forming visual functions. The relation of ipRGCs to tramatic brain injury (TBI) is emerging as data has been published describing ipRGC functional changes in TBI affected military veterans. Major symptomologies of concussions, a mild form of TBI, also overlap with the function governed by sites in the brain with major ipRGC projection percentages. Assesing if a morphological change is occuring in the ipRGCs after a TBI could support the idea of a pathological mechanism of the injury. This study could also indicate further relevance …
Innate Chemical Resistance Of Virginia Big-Eared Bats (Corynorhinus Townsendii Virginianus) To White-Nose Syndrome, Daniel S. Danford, Leah Shriver, Hazel A. Barton
Innate Chemical Resistance Of Virginia Big-Eared Bats (Corynorhinus Townsendii Virginianus) To White-Nose Syndrome, Daniel S. Danford, Leah Shriver, Hazel A. Barton
Williams Honors College, Honors Research Projects
White-nose Syndrome (WNS) is an emergent epidemic disease of bats in North America. Caused by the novel fungal pathogen Pseudogymnoascus destructans, with a mortality rate of >75%, in the last decade WNS has led to the local extinction of numerous bat species. Despite this high mortality, one species, the Virginia big-eared bat (Corynorhinus townsendii virginianus) remains unaffected. Virginia big-eared bats (VBEs) are commonly found covered in a yellow, oily substance, with a pelage commensal population dominated by the yeast, Debaryomyces udenii. As D. udenii is an oleaginous yeast that produces yellow colonies, the fungus may be responsible …