School of Medicine


Showing 11-20 of 27 Results

  • Brittany Elizabeth Matheson, PhD

    Brittany Elizabeth Matheson, PhD

    Clinical Assistant Professor, Psychiatry and Behavioral Sciences

    BioBrittany Matheson, PhD, is a clinical assistant professor and licensed clinical psychologist in the Eating Disorders Clinic. She completed her undergraduate degree at Duke University, doctorate from the Joint Doctoral Program in Clinical Psychology at San Diego State University and the University of California, San Diego, and APA clinical internship at Lucile Packard Children’s Hospital Stanford/Children’s Health Council. Dr. Matheson's research interests include examining the psychosocial, neurocognitive, and familial factors related to disordered eating and excess weight gain in youth. In particular, Dr. Matheson has research and clinical expertise in the interplay among obesity, disordered eating, and autism spectrum disorder. She is interested in the development and implementation of evidence-based treatments for youth with disordered eating as well as better understanding factors that influence pediatric bariatric surgery outcomes. Her research also focuses on the use of technology to enhance treatment and reduce access to care barriers.

  • Carmen McLean

    Carmen McLean

    Clinical Professor (Affiliated), Psych/General Psychiatry and Psychology (Adult)

    BioCarmen McLean, PhD, is a clinical psychologist and researcher with the Dissemination and Training Division of the National Center for PTSD at the Palo Alto VA Health Care System. Dr. McLean’s research focuses on increasing the implementation and reach of evidence-based treatments for posttraumatic stress disorder (PTSD).

  • M Windy McNerney, PhD

    M Windy McNerney, PhD

    Clinical Associate Professor (Affiliated), Psych/General Psychiatry and Psychology (Adult)
    Staff, Psychiatry and Behavioral Sciences

    BioDr. M. Windy McNerney is the Director of Biological Sciences for the MIRECC at the Department of Veterans Affairs in Palo Alto, and a Clinical Associate Professor (Affiliated) at Psychiatry and Behavioral Sciences at Stanford School of Medicine. Dr. McNerney holds a particular passion for not only understanding the neurophysiology and biochemistry of mental health diseases, but also advocating for these invisible diseases. Her research focuses on neurodegeneration, depression, TBI, PTSD, and addiction. She is collaborating with researchers to integrate brain imaging and biochemical markers in hopes to better understand these diseases. She also is taking a lead role at the VA in investigating the biochemistry of magnetic brain stimulation and is the leader of the NeuroNado Laboratory. At Stanford University, she is the professor of two popular courses examining the biological and societal issues surrounding substance use disorder, with a major focus on opioids such as fentanyl. She has individually mentored over 25 students from underrepresented groups in STEM activities and leads monthly seminars aimed at facilitating career development. In her free time, she is a community advocate for the treatment of mental health and educates groups about the dangers of fentanyl.

    She earned her BS from UC Davis and her PhD from the University of Notre Dame. While at ND, she interned at NASA Ames on Human Factors Engineering. She then went on to a postdoctoral position at Lawrence Livermore National Laboratory (DOE), and then completed a fellowship at the WRIISC program at the VA and Stanford University.


    Selected Publications:

    McNerney MW, Gurkoff G, Berryhill M (2023). The rehabilitation potential of neurostimulation for mild traumatic brain injury in animal and human studies. Brain Sciences, 13, 1402.

    McNerney MW, Kraybill EP Narayanan S, Mojabi F, Venkataramanan V, Heath A (2023). Memory-related hippocampal brain-derived neurotrophic factor activation pathways from repetitive transcranial magnetic stimulation in the 3xTg-AD mouse line. Experimental Gerontology, 183, 11323.

    Shuken, S, McNerney MW (2023). Cost and benefits for popular p-value correction methods I three models of quantitative omic experiments. Analytical Chemistry, 95, 2732.

    McNerney MW, Heath A, Narayanan S, Yesavage J (2022). Repetitive transcranial magnetic stimulation improves brain-derived neurotrophic factor and cholinergic signaling in the 3xTgAD mouse model of Alzheimer’s disease. Journal of Alzheimer’s Disease, 86, 499..

    Heath AM, Brewer M, Yesavage J, McNerney MW. (2021). Improved object recognition memory using post-encoding repetitive transcranial magnetic stimulation. Brain Stimulation, 15, 78.

    Yang AC, Vest RT, Kern F, Lee DP, Agam M, Maat CA, Losada PM, Chen MB, Schaum N, Khoury N, Toland A, Calcuttawala K, Shin H, Palovics R, Shin A, Wang EY, Luo J, Gate D, Schultz-Schaeffer WJ, Chu P, Siegenthalar J, McNerney MW, Keller A, Wyss-Coray T (2022). A human brain vascular atlas reveals diverse mediators or Alzheimer’s disease. Nature, 603, 885.

    McNerney MW, Hobday T, Cole B, Ganong R, Winas N, Matthews D, Hood J, Lane S (2019). Objective classification of mTBI using machine learning on a combination of frontal electroencephalography measurements and self-reported symptoms. Sports Medicine Open, 4, 14.

    McNerney MW, Sheng T, Nechvatal JM, Lee A, Lyons D, Adamson M (2018). Integration of neural and epigenetic contributions to posttraumatic stress symptoms: The role of hippocampal volume and glucocorticoid receptor gene methylation. PLOSONE, e0192222.

    Bennion BJ, Be NA, McNerney MW, Lao V, Carlson E, Valdez CA (2017). Predicting a drug’s membrane permeability: A computational model validated with in vitro permeability assay data. Journal of Physical Chemistry, B, 121, 5228.

    See more publications at: https://www.ncbi.nlm.nih.gov/pubmed/?term=McNerney%20MW%5BAuthor%5D&cauthor=true&cauthor_uid=17107728

  • Anish Mitra

    Anish Mitra

    Assistant Professor of Psychiatry and Behavioral Sciences (General Psychiatry and Psychology)

    BioAnish Mitra is a neuroscientist and psychiatrist interested in understanding how neural activity in large-scale networks causes mental illness.