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After 7 years of private veterinary practice, she entered a residency program in Laboratory Animal Medicine at the University of Washington. During and following her residency, she completed a Ph.D. She joined the faculty in Comparative Medicine in 2001 and participates in management of the Veterinary Services Unit, rotates as one of the senior faculty overseeing the veterinary care of the research animals at the University of Washington, and has an active research program.
Dr. Brabb’s research interests are focused on immunological tolerance and autoimmunity. The laboratory works primarily on a mouse model of inflammatory bowel disease (IBD) investigating how infectious agents modulate the development of IBD. The laboratory has demonstrated that certain bacterial organisms can prevent IBD in some types of mice while causing it in others. The focus of the research is on determining how these bacteria stimulate a regulatory T cell population which is instrumental in preventing autoimmune disease. In addition to the lab’s work in IBD models, Dr. Brabb actively pursues research questions related to mouse models of central nervous system autoimmunity. Specifically, she is interested in the trafficking and function of regulatory T cells in the central nervous system and the loss of tolerance to central nervous system antigens. Finally, she is concerned about the use of analgesics in laboratory animals and has received a grant from the American College of Laboratory Animal Medicine to study whether pain can be detected and prevented following embryo transfer in mice.
Dr. Brabb’s research interests are focused on immunological tolerance and autoimmunity. The laboratory works primarily on a mouse model of inflammatory bowel disease (IBD) investigating how infectious agents modulate the development of IBD. The laboratory has demonstrated that certain bacterial organisms can prevent IBD in some types of mice while causing it in others. The focus of the research is on determining how these bacteria stimulate a regulatory T cell population which is instrumental in preventing autoimmune disease. In addition to the lab’s work in IBD models, Dr. Brabb actively pursues research questions related to mouse models of central nervous system autoimmunity. Specifically, she is interested in the trafficking and function of regulatory T cells in the central nervous system and the loss of tolerance to central nervous system antigens. Finally, she is concerned about the use of analgesics in laboratory animals and has received a grant from the American College of Laboratory Animal Medicine to study whether pain can be detected and prevented following embryo transfer in mice.
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Stacey Meeker,Audrey Seamons,Jisun Paik,Piper M. Treuting,Thea Brabb,William M. Grady, Lillian Maggio-Price
crossref(2023)
Stacey Meeker,Audrey Seamons,Jisun Paik,Piper M. Treuting,Thea Brabb,William M. Grady, Lillian Maggio-Price
crossref(2023)
Stacey Meeker,Audrey Seamons,Jisun Paik,Piper M. Treuting,Thea Brabb,William M. Grady, Lillian Maggio-Price
crossref(2023)
Stacey Meeker,Audrey Seamons,Jisun Paik,Piper M. Treuting,Thea Brabb,William M. Grady, Lillian Maggio-Price
crossref(2023)
Stacey Meeker,Audrey Seamons,Jisun Paik,Piper M. Treuting,Thea Brabb,William M. Grady, Lillian Maggio-Price
crossref(2023)
Nutrientsno. 18 (2023): 3883-3883
Stacey Meeker,Audrey Seamons,Jisun Paik,Piper M. Treuting,Thea Brabb,William M. Grady, Lillian Maggio-Price
crossref(2023)
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