Carina Curto

Carina Curto (born 15 April 1978) is an American mathematician, a professor at Pennsylvania State University, and a Sloan Research Fellow.[2][3] She is known for her work on mathematical neuroscience, including the applications of mathematics in both theoretical and computational neuroscience. Her recent work is funded by the BRAIN Initiative.[4] She is an Associate Editor at SIAGA, a SIAM journal on Applied Algebra and Geometry.[5]

Carina Curto
Born (1978-04-15) 15 April 1978
Alma materHarvard University
Duke University
Known forConnectomics research
Network Songs
Scientific career
FieldsMathematics
Neuroscience
InstitutionsPennsylvania State University
ThesisMatrix Model Superpotentials and Calabi-Yau Spaces: an ADE Classification
Doctoral advisorDavid R. Morrison[1]

Early life and education

Curto was born to Argentine parents and grew up in Iowa City.[6] She attended Iowa City West High School. During her school years, she attended courses at University of Iowa, including advanced mathematics classes, physics, computer science, French literature, and more.[7] In 1996, she began studying for an A.B. in Physics at Harvard University. During her time at Harvard, she was awarded prizes including the Detur Book Prize, one of Harvard's oldest awards, and the American Physical Society minority scholarship.[8][9] After graduating from Harvard in 2000 and being awarded the NSF Graduate Research Fellowship, Curto started a Ph.D in mathematics at Duke University. Curto's Ph.D focused on mathematical string theory and algebraic geometry.[5] Her thesis was titled 'Matrix Model Superpotentials and Calabi-Yau Spaces: an ADE Classification'.[1]

Career and research

Once Curto gained her Ph.D, she moved to Rutgers University in New Jersey, working as a Postdoctoral Associate in a neuroscience lab at the Center for Molecular and Behavioral Neuroscience.[4] After three years at Rutgers, she returned to working in mathematics, focusing on neuroscience from a more mathematical perspective, and moved to the Courant Institute of Mathematics at New York University, then to the University of Nebraska-Lincoln, followed by the Pennsylvania State University. Curto is a Professor of Mathematics, the co-head of their mathematical neuroscience lab, and a member of the Center for Neural Engineering.[5][10]

Network Connectivity

Her research focuses on the interplay between the connectivity and dynamics of the brain and involves studying neural recordings and analysing the patterns of the activities. This network analysis aims to understand the connections between the neurons and their patterns.[4] Traditionally, neuroscientists rely on tools from physics.[11] But Curto's approach uses tools from pure mathematics, particularly algebraic geometry, which is applied to the activity data of the neurons. Curto's research is significant in the field of connectomics.[12] For instance, one study showed how neural activities can drastically change by slightly changing the structure of the networks, which has implications for the study of brain disorders such as Parkinson's disease and schizophrenia.[2][13]

Along with Katherine Morrison from the University of Northern Colorado, and with funding from the government's BRAIN Initiative grant and the NSF, Curto is working on Combinatorial Threshold-Linear Networks, CTLNs. These models enable the observations of emergent patterns, such as neuronal sequences and complex rhythms, and can also be used to predict features of the dynamics, something that has been seemingly difficult to predict.[14][15]

Aligned with her research, Curto, alongside Morrison, also created a project called Network Songs, which originally started out as a gimmick. This is a collection of songs, that show the rhythmic activity of the networks. The basis of the songs were created by assigning a note on the piano to each neuron. Curto explains that sometimes certain patterns are better distinguished by the ear, than by the eye, hence the purpose of this particular representation of the network data.[4][16]

Awards and personal life

Curto has been the recipient of numerous grants and awards, including becoming a Woodrow Wilson National Fellow and an Alfred Sloan Research Fellow. Additionally, in 2012, Curto was named a UNL Academic Star.[17]

In March 2018, the American Mathematical Society, AMS, included Curto in a list of 27 female mathematicians in honour of Women's History Month, publishing a profile of her in the AMS Notices journal.[7]

Throughout her years as a mathematician, Curto has taken part in many events and boards to promote women in mathematics. This includes being involved with the Women In Math club at UNL and being part of the Nebraska Conference for Undergraduate Women in Mathematics, NCUWM, organizing committee.[18][19]

Curto is also an amateur tennis player. In 1995, when at high school, she became the Double State Champion.[20] Furthermore, in 1996-1997 she was the Varsity Letter Winner for Women's tennis at Harvard.

Curto lives in State College with her husband and two children.[7]

References

  1. Curto, Carina (2005-05-06). "Matrix Model Superpotentials and Calabi-Yau Spaces: an ADE Classification". arXiv:math/0505111.
  2. "UNL Math News - Winter 2011" (PDF). Math News. Retrieved 2018-08-15.
  3. "Faculty | Mathematical Biology at Penn State". sites.psu.edu. Retrieved 2018-07-31.
  4. "Mathematician Carina Curto Thinks Like a Physicist to Solve Neuroscience Problems | Quanta Magazine". Quanta Magazine. Retrieved 2018-07-31.
  5. "Carina's website". www.personal.psu.edu. Retrieved 2018-07-31.
  6. "Bios". Physical and Mathematical Principles of Brain Structure and Function. 2013-05-03. Retrieved 2018-08-15.
  7. "In Honor of Women's History Month" (PDF). Notices of the American Mathematical Society. 65. March 2018.
  8. "Prize Recipient". www.aps.org. Retrieved 2018-08-31.
  9. "Iowa City Press-Citizen, Friday, January 16, 1998". Iowa City Press-Citizen. 1998-01-16. Retrieved 2018-08-31.
  10. Network, University of Nebraska-Lincoln | Web Developer. "Mathematical Biology | Department of Mathematics | Nebraska". www.math.unl.edu. Retrieved 2018-08-31.
  11. "New Math Method Reveals Structure of Neural Activity". Neuroscience News. 2015-10-20. Retrieved 2018-09-06.
  12. "Cross-Pollination at Cosyne 2018 | Simons Foundation". www.simonsfoundation.org. 2018-04-02. Retrieved 2018-09-06.
  13. "Simple Networks Generate Complex Dynamics | Simons Foundation". www.simonsfoundation.org. 2018-05-03. Retrieved 2018-09-06.
  14. Morrison, Katherine; Curto, Carina (2018-04-04). "Predicting neural network dynamics via graphical analysis". arXiv:1804.01487 [q-bio.NC].
  15. "Graphs, neural networks, and emergent dynamics in the brain | Division of Applied Mathematics". www.brown.edu. Retrieved 2018-09-03.
  16. "NETWORK SONGS !! created by Carina Curto & Katherine Morrison January 2016 Input: a simple directed graph G satisfying two rules: 1. G is an oriented. - ppt download". slideplayer.com. Retrieved 2018-09-03.
  17. Network, University of Nebraska-Lincoln | Web Developer. "Faculty Awards | Department of Mathematics | Nebraska". www.math.unl.edu. Retrieved 2018-09-03.
  18. Network, University of Nebraska-Lincoln | Web Developer. "Math Club Events Archive | Department of Mathematics | Nebraska". www.math.unl.edu. Retrieved 2018-09-06.
  19. Network, University of Nebraska-Lincoln | Web Developer. "Nebraska Conference for Undergraduate Women in Mathematics | About Us". www.math.unl.edu. Retrieved 2018-09-06.
  20. "Trojan Hall of Fame - Iowa City Schools" (PDF). 2018-05-24. Retrieved 2018-09-04.
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