Sliman Bensmaia
Sliman Julien Bensmaia was a French-Algerian neuroscientist. An international expert in the neural encoding of sensory information and a pioneer in robotic neuroprosthetics, his nearly 100 academic articles in somatosensation have been cited over 10,000 times. He is the principal architect of the biomimetic approach to naturalistic restoration of the sensations of touch and proprioception in amputees and paralyzed patients.
Education and career
Bensmaia was born on September 17, 1973, in Nice, France, to philosophers Reda Bensmaia and Joëlle Proust. He grew up in Algeria and France. When he was 15, he moved to the United States.Bensmaia obtained a bachelor's degree in computer engineering and cognitive science from the University of Virginia's Department of Cognitive Science in 1995. He went on to earn a doctorate from the University of North Carolina at Chapel Hill's Department of Psychology under the mentorship of Mark Hollins. In 2002, he received the Baughman Dissertation Research Award, which celebrates innovation in dissertation project development. Before founding his own laboratory, Bensmaia worked as a postdoctoral fellow and then as an associate research scientist in the lab of Kenneth Johnson at Johns Hopkins University's Zanvyl Krieger Mind/Brain Institute in the Department of Neuroscience.
In 2009, Bensmaia accepted an assistant professorship within the University of Chicago's Department of Organismal Biology and Anatomy. He was promoted to Associate Professor in 2015 and to full Professor in 2019. Bensmaia was part of the University of Chicago's graduate programs in Integrative Biology, Biosciences, Computational Neuroscience, and Neurobiology, as well as a member of the Committees on Neurobiology and Computational Neuroscience. He was named the James and Karen Frank Family Professor of Organismal Biology and Anatomy at the University in 2019.
Research
Neural encoding of surface texture and tactile motion
Bensmaia held particular expertise in textural sensory touch in the nervous system, having discovered distinctions between nerve fibers responding to the spatial elements of course textures and those responding to the vibrations induced through tactile contact with fine textures like fabrics. He led projects that identified how many types of information were processed in the nervous system to represent the texture of surfaces. By tracing information about contact location, force, and temporal patterning from peripheral nerves through a variety of types and locations of neurons and up to somatosensory cortex, his laboratory built a complex model of how we process and understand tactile sensations. This model allowed Bensmaia to spearhead research into imbuing robotic prosthetics with a natural sense of touch.Brain/computer interfaces and somatosensation in prosthetic limbs
Bensmaia's lab demonstrated that, through electrical stimulation of somatosensory neurons in the peripheral nervous system, precise models of mechanotransduction through the nervous system can produce a realistic perception of touch. This biomimetic approach to touch restoration in amputees and paralyzed patients enhances dexterity in neuroprosthetics. Mimicking the patterns of neural activity induced when able-bodied individuals interact with objects via direct neural interface enables intuitive sensation, refines grip strength control, and facilitates object identification while blindfolded.In 2008, Bensmaia joined the United States Department of Defense's $100-million DARPA-funded Revolutionizing Prosthetics research program, coordinated by the Johns Hopkins Applied Physics Laboratory. Specifically, he worked on the sensory aspect of the Modular Prosthetic Limb in a study called Behavioral Assessment of Sensitivity to Intracortical Microstimulation of Primate Somatosensory Cortex.
The University of Pittsburgh and the University of Chicago entered into a collaboration that, in 2016, allowed a clinical trial participant to control and receive tactile sensation through a robotic hand via direct neural interface. In 2019, Bensmaia's lab, together with the lab of Nicholas Hatsopoulos, received a $3.4-million National Institutes of Health grant—part of a combined $7 million awarded to the University of Pittsburgh and University of Chicago collaborators—for continued development of the project and research.
Recognition
In 2017, during his Presidential farewell address, President Barack Obama praised Bensmaia's work in the development of Nathan Copeland's neurally controlled and touch-sensitive robotic arm. A selection of his other professional commendations are summarized below.| Award | Year |
| Baughman Dissertation Research Award for innovative dissertation projects | 2002 |
| Early Career Award from the National Science Foundation | 2011 |
| Chicago Biomedical Consortium Catalyst Award | 2013 |
| Distinguished Investigator Award from the Biological Sciences Division | 2015 |
| Kavli Frontiers of Science Fellow by the National Academy of Sciences | 2018 |
| Research Program Award from the National Institute of Neurological Disorders and Stroke | 2021 |