Life Sciences Commons^™

Under The Microscope: Painting From Histology, Meg Smith

Senior Theses and Projects

My goal as an artist is to create paintings which explore the intersections of biology, philosophy, aesthetics, and personal experience. I want to challenge the viewer to engage with their own anatomy and physiology on a microscopic scale. I also aspire to communicate my sense of awe and wonder at the structures and mechanisms of life on every scale, from the cellular to the cosmic.

I am deeply interested in how physiological processes generate the human experience

—I became a neuroscience major because I was interested in the mechanisms of sensation and perception. My love of histology—the study of the …

An Initial Analysis Of A Long-Term Ketogenic Diet’S Impact On Motor Behavior, Brain Purine Systems, And Nigral Dopamine Neurons In A New Genetic Rodent Model Of Parkinson’S Disease, Jacob Rubin, William H. Church

Senior Theses and Projects

A growing body of research suggests that dopaminergic cell death seen in Parkinson’s disease is caused by mitochondrial dysfunction. Oxidative stress, with subsequent generation of reactive oxygen species, is the hallmark biochemical product of mitochondrial dysfunction. The ketogenic diet has been found to enhance mitochondrial energy production, protect against reactive oxygen species-generated cell death, and increase adenosine, a purine that modulates dopamine activity. The current study evaluates the effects of a long-term (5-month) ketogenic diet on behavioral, neurochemical, and neuroanatomical measures in PINK1-KO rats, a new animal model of Parkinson’s disease. Both wild-type and PINK1-KO animals fed a ketogenic diet …