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Maryam Shanechi

From Wikipedia, the free encyclopedia

Maryam M. Shanechi
Born1981 (age 42–43)
Iran
AwardsNIH Director's New Innovator Award

MIT Technology Review's Innovators Under 35

NSF CAREER Award

ONR Young Investigator Award

American Society for Engineering Educations's Curtis W. McGraw Research Award

Science News 10 Scientists to Watch

Popular Science Brilliant 10
Academic background
Alma materUniversity of Toronto, MIT
ThesisReal-time brain-machine interface architectures : neural decoding from plan to movement (2011)

Maryam M. Shanechi is an Iran-born American neuroengineer. She studies ways of decoding the brain's activity to control brain-machine interfaces. She was honored as one of MIT Technology Review's Innovators under 35 in 2014, one of the Science News 10 scientists to watch in 2019, and a National Finalist for the Blavatnik Awards for Young Scientists in 2023. She is Dean's Professor in Electrical and Computer Engineering, Computer Science, and Biomedical Engineering at the USC Viterbi School of Engineering, and a member of the Neuroscience Graduate Program at the University of Southern California.

Early life and career

Shanechi was born in Iran and moved to Canada with her family when she was 16.[1][2] She received her bachelor's degree in engineering from the University of Toronto in 2004. She then moved to MIT, where she completed her master's degree in electrical engineering and computer science in 2006 and her PhD in 2011.[3] She completed a postdoc at Harvard Medical School before moving to the University of California, Berkeley, in 2012. She held a faculty position at Cornell University, before moving to the University of Southern California, where she is currently Dean's Professor within the USC Viterbi School of Engineering.[1][3][4][2]

Research

While pursuing her graduate degree at MIT, Shanechi became interested in decoding the brain, the idea of reading out the original meaning from brain signals. She developed an algorithm to determine where a monkey wanted to point the cursor on a screen based on the animal's brain activity.[1][5] She later improved upon her work by including high-rate decoding, meaning the decoding happened over a few milliseconds, rather than every 100 milliseconds, which is the standard for traditional methods. More recently, the Shanechi Lab has developed novel methods that can dissociate those dynamics in neural activity that are most predictive of behavior and can significantly improve decoding.[6][7] Her lab has also developed methods that can simultaneously use multiple spatiotemporal scales of neural measurements to model their relationships and improve decoding.[8][9]

In 2013, she developed a brain decoding method that could help automatically control the amount of anesthesia that is to be administered to a patient.[10][11] Her team, which included colleagues from Massachusetts General Hospital and Massachusetts Institute of Technology was able to control the depth of the medically-induced coma in rodents automatically based on their brain activity.[10][11][12][13]

Shanechi is also interested in the application of neural decoding algorithms to psychiatric disorders, such as PTSD and depression.[2][14][15] Her research team developed a method to decipher the mood of a person from their brain activity.[16][17] They measured the brain activity of seven patients who had electrodes implanted in their brain to monitor epilepsy.[15] The patients answered questions about their mood while the electrodes were implanted. Using the data about the mood and the brain activity, Shanechi's lab was able to match the two together and decipher which brain activity was related to which mood.[15][16] The paper on this work was awarded the 3rd prize in the International BCI Awards.[18] Her lab has also developed a stochastic stimulation and modeling approach that can predict the response of multi-regional brain networks implicated in neuropsychiatric disorders to ongoing deep brain stimulation (DBS).[19][20] In the future, Shanechi wants to develop these techniques in order to stimulate the brain automatically when a change in mood is detected.[1][20][21]

Awards

Selected publications

Shanechi's publications include:

  • Yang Y, Qiao S, Sani OG, Sedillo JI, Ferrentino B, Pesaran B, Shanechi MM (February 2021). "Modelling and prediction of the dynamic responses of large-scale brain networks during direct electrical stimulation". Nature Biomedical Engineering. 5 (4): 324–345. doi:10.1038/s41551-020-00666-w. PMID 33526909. S2CID 231753656.

References

  1. ^ a b c d e "Maryam Shanechi designs machines to read minds". Science News. 2019-10-02. Retrieved 2019-11-22.
  2. ^ a b c "Maryam Shanechi | Innovators Under 35". MIT Technology Review. Retrieved 2019-11-22.
  3. ^ a b "USC - Viterbi School of Engineering - Viterbi Faculty Directory". viterbi.usc.edu. Retrieved 2019-11-22.
  4. ^ "ECE Seminar Series: Maryam M. Shanechi, of the University of Southern California". today.iit.edu. 8 October 2019. Retrieved 2019-11-22.
  5. ^ Shanechi, Maryam M.; Hu, Rollin C.; Powers, Marissa; Wornell, Gregory W.; Brown, Emery N.; Williams, Ziv M. (2012). "Neural population partitioning and a concurrent brain-machine interface for sequential motor function". Nature Neuroscience. 15 (12): 1715–1722. doi:10.1038/nn.3250. ISSN 1546-1726. PMC 3509235. PMID 23143511.
  6. ^ Sani, Omid G.; Abbaspourazad, Hamidreza; Wong, Yan T.; Pesaran, Bijan; Shanechi, Maryam M. (2020-11-09). "Modeling behaviorally relevant neural dynamics enabled by preferential subspace identification" (PDF). Nature Neuroscience. 24 (1): 140–149. doi:10.1038/s41593-020-00733-0. ISSN 1546-1726. PMID 33169030. S2CID 226296000.
  7. ^ "Researchers Isolate and Decode Brain Signal Patterns for Specific Behaviors". USC Viterbi | School of Engineering. Retrieved 2021-03-19.
  8. ^ Abbaspourazad, Hamidreza; Choudhury, Mahdi; Wong, Yan T.; Pesaran, Bijan; Shanechi, Maryam M. (2020-11-09). "Multiscale low-dimensional motor cortical state dynamics predict naturalistic reach-and-grasp behavior". Nature Communications. 12 (1): 607. Bibcode:2021NatCo..12..607A. doi:10.1038/s41467-020-20197-x. ISSN 2041-1723. PMC 7840738. PMID 33504797.
  9. ^ "Researchers Discover Hidden Brain Pattern". USC Viterbi | School of Engineering. Retrieved 2021-03-19.
  10. ^ a b "Brain-machine interface allows anesthesia control". Cornell Chronicle. Retrieved 2019-11-22.
  11. ^ a b Lewis, Tanya (2013-11-01). "Brain-Machine Interface Puts Anesthesia on Autopilot". msnbc.com. Retrieved 2019-11-22.
  12. ^ Shanechi, Maryam M.; Chemali, Jessica J.; Liberman, Max; Solt, Ken; Brown, Emery N. (2013-10-31). "A Brain-Machine Interface for Control of Medically-Induced Coma". PLOS Computational Biology. 9 (10): e1003284. Bibcode:2013PLSCB...9E3284S. doi:10.1371/journal.pcbi.1003284. ISSN 1553-7358. PMC 3814408. PMID 24204231.
  13. ^ Yang, Yuxiao; Lee, Justin T; Guidera, Jennifer A; Vlasov, Ksenia Y; Pei, JunZhu; Brown, Emery N; Solt, Ken; Shanechi, Maryam M (2019-06-01). "Developing a personalized closed-loop controller of medically-induced coma in a rodent model". Journal of Neural Engineering. 16 (3): 036022. Bibcode:2019JNEng..16c6022Y. doi:10.1088/1741-2552/ab0ea4. ISSN 1741-2560. PMID 30856619. S2CID 75138434.
  14. ^ Waltz, Emily (17 May 2019). "The Mood Ring of Algorithms Could Zap Your Brain to Help You Feel Better". IEEE Spectrum: Technology, Engineering, and Science News. Retrieved 2019-11-22.
  15. ^ a b c "Brain-zapping implants that fight depression inch closer to reality". Science News. 2019-02-10. Retrieved 2019-11-22.
  16. ^ a b Sani, Omid G.; Yang, Yuxiao; Lee, Morgan B.; Dawes, Heather E.; Chang, Edward F.; Shanechi, Maryam M. (2018). "Mood variations decoded from multi-site intracranial human brain activity". Nature Biotechnology. 36 (10): 954–961. doi:10.1038/nbt.4200. ISSN 1546-1696. PMID 30199076. S2CID 205285998.
  17. ^ "Tracking brain waves to decode mood could help fight depression". New Atlas. 2018-09-11. Retrieved 2019-11-22.
  18. ^ "2019". BCI Award. Retrieved 2019-11-22.
  19. ^ Yang, Yuxiao; Qiao, Shaoyu; Sani, Omid G.; Sedillo, J. Isaac; Ferrentino, Breonna; Pesaran, Bijan; Shanechi, Maryam M. (2021-02-01). "Modelling and prediction of the dynamic responses of large-scale brain networks during direct electrical stimulation". Nature Biomedical Engineering. 5 (4): 324–345. doi:10.1038/s41551-020-00666-w. ISSN 2157-846X. PMID 33526909. S2CID 231753656.
  20. ^ a b "A New Realm of Personalized Medicine with Brain Stimulation". USC Viterbi | School of Engineering. Retrieved 2021-03-19.
  21. ^ Shanechi, Maryam M. (2019-09-24). "Brain–machine interfaces from motor to mood". Nature Neuroscience. 22 (10): 1554–1564. doi:10.1038/s41593-019-0488-y. ISSN 1097-6256. PMID 31551595. S2CID 202749166.
  22. ^ "Maryam Shanechi Receives Prestigious New Innovator NIH Grant". USC Viterbi | School of Engineering. Retrieved 2020-10-19.
  23. ^ "Brilliant 10: Maryam Shanechi Decodes The Brain To Unlock Its Potential". Popular Science. 23 September 2015. Retrieved 2019-11-22.
  24. ^ "USC - Viterbi School of Engineering - Brain, Meet Machine". viterbi.usc.edu. Retrieved 2019-11-22.
  25. ^ "NSF Award Search: Award#1453868 - CAREER: Generalizable, Robust, and Closed-Loop Brain-Machine Interface Control Architectures". www.nsf.gov. Retrieved 2019-11-23.
  26. ^ "2019 Young Investigator Award Recipients".
  27. ^ "ASEE Award Winners".
  28. ^ "USC Viterbi scholar to lead research on brain-machine interfaces". USC News. 2016-04-18. Retrieved 2019-11-23.
  29. ^ "13 U of T Engineering alumni and students honoured at 2019 EAN Awards". U of T Engineering News. 2019-11-08. Retrieved 2019-11-23.
This page was last edited on 16 January 2024, at 11:13
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