Prof. Polina Olegovna Anikeeva

Matoula S Salapatas Professor of Materials Science and Engineering
Department Head / Materials Science and Engineering
Associate Director, Research Laboratory of Electronics (RLE)
Professor of Brain and Cognitive Sciences
Director , K. Lisa Yang Brain-Body Center
Margaret MacVicar Faculty Fellow

Primary DLC

Department of Materials Science and Engineering

MIT Room: 36-849

Assistant

Cindy Higgins
chiggins@mit.edu

Areas of Interest and Expertise

Health and Medicine
Ceramics
Metals
Semiconductors
Soft Matter
Device Fabrication
Synthesis and Processing

Research Summary

Professor Polina Anikeeva’s group draws inspiration from neurobiology to create minimally invasive materials and devices to interface with the nervous system. Professor Anikeeva’s Bioelectronics Group develops multifunctional, multimaterial fibers that enable optical, electrical, and chemical interfaces with neurons in the brain, spinal cord, and peripheral organs. These fiber-based probes empower neuroscience research by permitting recording and manipulation of neural activity. Taking advantage of low conductivity and negligible permeability of biological matter to weak magnetic fields, the research group designs and synthesizes a range of magnetic nanomaterials capable of transducing remote magnetic signals to stimuli perceived by biological receptors. To date, magnetic nanomaterials have enabled magnetothermal, magnetomechanical, and chemomagnetic modulation of neurons in vivo. The technologies developed in the Bioelectronics Group are advancing the fundamental neuroscience of brain-organ communication and paving the way to minimally invasive treatments of neurological and psychiatric conditions.

Polina Anikeeva designs, synthesizes, and fabricates optoelectronic and magnetic devices to advance fundamental understanding and treatment of disorders of the nervous system. Anikeeva’s lab designs probes that are compatible with delicate neural tissue, but match the signaling complexity of neural circuits. In addition, her group develops magnetic nanoparticles for non-invasive neural stimulation. Most recently, Anikeeva is exploring the pathways connecting the brain to other body organ systems with the goal of advancing therapies and predictive diagnostics to achieve healthy minds in healthy bodies.

Recent Work

  • Video

    9.21.20-Nano-Sense-Day-1--Session-2-ORGANS

    September 21, 2020Conference Video Duration: 77:49
    Modulation of Neural Function with Electronic, Optical, and Magnetic Tools
    Polina Anikeeva
    Class of 1942 Associate Professor, Materials Science and Engineering

    Non-Contact Laser Ultrasound
    Xiang (Shawn) Zhang
    Postdoctoral Associate, Computational Instrumentation Lab at Mechanical Engineering

    Hand-Held Magnetic Resonance Imaging
    Jacob K. White

     

    Finding Better Ways to Touch a Nerve

    October 22, 2019MIT Faculty Feature Duration: 15:39

    Polina Anikeeva
    Associate Professor, Materials Science & Engineering, Brain & Cognitive Sciences