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Translational Brain Sciences

Translational Brain Sciences

Translational Brain SciencesThe Division of Translational Brain Sciences brings together research faculty from across the field of neuroscience to promote excellence in research and provide support, mentoring, and collaboration for neuroscience faculty and staff. Our research works to take the latest findings in laboratory, bench, neuroscience and translate those findings into advances in patient care.

Our missions are to:

  • Build a strong community among our research faculty and increase visibility
  • Promote excellence in research
  • Maintain the highest level of scientific integrity
  • Establish a strong infrastructure and provide resources for research activities
  • Facilitate a collaborative environment with our clinical colleagues
  • Develop mentorship program for junior early stage faculty members

Our faculty include:

  • Yong Chen, PhD, whose research examines the role of primary  sensory neurons in pain, and with the role of the TRPV4 ion channel in  pain transduction and transmission.
  • Division Chief Ornit-Chiba Falek, PhD, whose research focuses on the genetic processes underpinning age-related neurodegenerative diseases, in particular Alzheimer’s disease, related dementia, and Lewy body spectrum disorders.
  • Carol Colton, PhD, who is examining how the body's immune response may play a central role in the development and progression of Alzheimer's and other chronic neurodegenerative diseases.
  • Simon Davis, PhD, who is examining how white matter supports healthy cognitive function, and how transcranial magnetic stimulation (TMS) influences brain-behavior relationships and memory.
  • Audrey Dickey, PhD, who is examining the basic mechanisms of aging and how the underlying processes lead to disease, integrating cutting-edge techniques with multiple ‘Omics, pharmacology, biochemistry, confocal imaging, with preclinical trials in mouse models and human-iPSC-derived neurons to generate and test novel therapeutic interventions in multiple neurodegenerative diseases.
  • William "Kirby" Gottschalk, PhD, who is investigating the role genes such as APOE and TOMM40 play in the origin and development of Alzheimer's disease.
  • Michael Lutz, PhD, who develops and uses computational biology methods to understand the genetic basis of disease with a focus on Alzheimer’s Disease.
  • Carlene Moore, PhD, whose research examines the molecular and cellular signaling mechanisms of the TRPV4 ion channel in the skin
  • Laurie Sanders, PhD, who is investigating the role of genome integrity and DNA repair in the pathogenesis of Parkinson’s disease (PD), how genetics affects mitochondrial DNA damage associated with PD, and identifying peripheral biomarkers for PD.

Our Division provides a supported, engaged community for our research faculty, with opportunities for collaboration across disciplines and across the translational/clinical divide. Based in the Neurology Department in the Duke University School of Medicine, our members and collaborators include members of the Duke Departments of Neurobiology, Psychiatry and Behavioral Sciences, Medicine, and Biomedical Engineering.

Translational Brain Sciences image by Young Yun.

Latest News

image courtesy NIH
News  -  Epilepsy, Sleep, and Clinical Neurophysiology, General & Community Neurology, Multiple Sclerosis & Neuroimmunology, Neurocritical Care, Neuromuscular Disease, Parkinson's Disease And Movement Disorders, Stroke and Vascular Neurology, , Translational Brain Sciences, , Neuromuscular Medicine/EMG

Duke Neurology Research Round Up, August 2020

Monday, August 3, 2020
Members of the Duke Neurology Department contributed to 14 new peer-reviewed articles published this July, improving our understanding of...Read more
J Gamache
News  -  , Translational Brain Sciences, Chiba-Falek Lab

Staff Spotlight: Julia Gamache, PhD

Wednesday, May 20, 2020
Within the lab of Ornit Chiba-Falek, PhD, Julia Gamache, PhD, is investigating the origins of Alzheimer’s disease (AD)--both the exact genes and cell...Read more