Kristen L Zuloaga
Assistant Professor
Neuroscience and Experimental Therapeutics
Albany Medical College
United States of America
Biography
Dr. Kristen L Zuloaga is currently working as a Assistant Professor in the Department of Neuroscience and Experimental Therapeutics, Albany Medical College , USA. Her research interests includes how sex and sex steroids influence cerebrovascular function and contribute to dementia, Vascular dysfunction, neurological diseases including stroke, vascular dementia/vascular cognitive impairment, and Alzheimer's disease. She is serving as an editorial member and reviewer of several international reputed journals. Dr. Kristen L Zuloaga is the member of many international affiliations. She has successfully completed his Administrative responsibilities. She has authored of many research articles/books related to how sex and sex steroids influence cerebrovascular function and contribute to dementia, Vascular dysfunction, neurological diseases including stroke, vascular dementia/vascular cognitive impairment, and Alzheimer's disease.
Research Interest
how sex and sex steroids influence cerebrovascular function and contribute to dementia, Vascular dysfunction, neurological diseases including stroke, vascular dementia/vascular cognitive impairment, and Alzheimer's disease
Publications
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Zuloaga KL, Zhang W, Yeiser L, Stewar B, Kukino A, Nie X, Graffe M, Pike M, Raber J, and Alkayed NJ. Neurobehavioral and Imaging Correlates of Hippocampal Atrophy in a Mouse Model of Vascular Cognitive Impairment. Translational Stroke Research, 6(5):390-8, 2015. (PMCID 26040424)
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Johnson LA, Zuloaga KL, Zuloaga DG, Arbones-Mainar J, Alkayed NJ, and Raber J. Amelioration of Type 2 diabetes-associated cognitive impairments via a dietary intervention reduction in dietary fat or infusion of non-diabetic plasma. EBioMedicine, 12(3):26-42, 2015 (PMCID in process).
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Zuloaga KL, Johnson L, Roese N, Marzulla T, Zhang W, Nie X, Alkayed FN, Hong C, Graffe M, Pike M, Raber J, and Alkayed NJ. High Fat Diet-Induced Diabetes in Mice Exacerbates Cognitive Deficit Due to Chronic Hypoperfusion Journal of Cerebral Blood Flow and Metabolism, 36(7):1257-70, 2016. (PMCID in process)
