Hamid Charkhkar | Case School of Engineering

Awards and Recognitions

2021, Senior Member, IEEE

Professional Leadership and Service

Jan. 1, 2016 - PRESENT, member IEEE Engineering in Medicine and Biology Society

Jan. 1, 2012 - PRESENT, Member IEEE

Publications

Shell, C., Christie, B., Marasco, P., Charkhkar, H., & Triolo, R. (2021). Lower-Limb Amputees Adjust Quiet Stance in Response to Manipulations of Plantar Sensation. Frontiers in neuroscience, 15 , 118.

Christie, B., Charkhkar, H., Shell, C., Burant, C., Tyler, D. J., & Triolo, R. J. (2020). Ambulatory searching task reveals importance of somatosensation for lower-limb amputees. Scientific reports, 10 (1), 1--11.

Charkhkar, H., Christie, B., & Triolo, R. (2020). Sensory neuroprosthesis improves postural stability during Sensory Organization Test in lower-limb amputees. Scientific reports, 10 (1), 1--13.

Christie, B., Charkhkar, H., Shell, C., Marasco, P., Tyler, D. J., & Triolo, R. J. (2019). Visual inputs and postural manipulations affect the location of somatosensory percepts elicited by electrical stimulation. Scientific reports, 9 (1), 1--14.

Charkhkar, H., Christie, B., Pinault, G., Tyler, D. J., & Triolo, R. J. (2019). A translational framework for peripheral nerve stimulating electrodes: Reviewing the journey from concept to clinic. Journal of neuroscience methods, 328 , 108414.

Christie, B., Graczyk, E., Charkhkar, H., Tyler, D. J., & Triolo, R. J. (2019). Visuotactile synchrony of stimulation-induced sensation and natural somatosensation. Journal of neural engineering, 16 (3), 036025.

Ereifej, E., Shell, C., Schofield, J., Charkhkar, H., Cuberovic, I., Dorval, A., Graczyk, E., Kozai, T., Otto, K., Tyler, D. J., & Others, D. J. (2019). Neural engineering: the process, applications, and its role in the future of medicine. Journal of neural engineering, 16 (6), 063002.

Charkhkar, H., Courtney, Shell, Marasco, H., Gilles, P., Dustin, T., & Triolo, R. (2018). High-density peripheral nerve cuffs restore natural sensation to individuals with lower-limb amputations. Journal of neural engineering.

Simon, D., Charkhkar, H., St. John, C., Rajendran, S., Kang, T., Reit, R., Arreaga-Salas, D., McHail, D., Knaack, G., Sloan, A., & Others, A. (2017). Design and demonstration of an intracortical probe technology with tunable modulus. Journal of Biomedical Materials Research Part A, 105 (1), 159--168.

Charkhkar, H., Knaack, G., McHail, D., Mandal, H., Peixoto, N., Rubinson, J., Dumas, T., & Pancrazio, J. (2016). Chronic intracortical neural recordings using microelectrode arrays coated with PEDOT--TFB. Acta Biomaterialia, 32 , 57--67.

Charkhkar, H., Arreaga-Salas, D., Tran, T., Hammack, A., Voit, W., Pancrazio, J., & Gnade, B. (2016). Novel disposable microelectrode array for cultured neuronal network recording exhibiting equivalent performance to commercially available arrays. Sensors and Actuators B: Chemical, 226 , 232--238.

Charkhkar, H., Meyyappan, S., Matveeva, E., Moll, J., McHail, D., Peixoto, N., Cliff, R., & Pancrazio, J. (2015). Amyloid beta modulation of neuronal network activity in vitro. Brain research, 1629 , 1--9.

Mandal, H., Knaack, G., Charkhkar, H., McHail, D., Kastee, J., Dumas, T., Peixoto, N., Rubinson, J., & Pancrazio, J. (2014). Improving the performance of poly (3, 4-ethylenedioxythiophene) for brain--machine interface applications. Acta biomaterialia, 10 (6), 2446--2454.

Charkhkar, H., Frewin, C., Nezafati, M., Knaack, G., Peixoto, N., Saddow, S., & Pancrazio, J. (2014). Use of cortical neuronal networks for in vitro material biocompatibility testing. Biosensors and Bioelectronics, 53 , 316--323.

Knaack, G., Charkhkar, H., Hamilton, F., Peixoto, N., O'Shaughnessy, T., & Pancrazio, J. (2013). Differential responses to $\omega$-agatoxin IVA in murine frontal cortex and spinal cord derived neuronal networks. NeuroToxicology, 37 , 19--25.

Peixoto, N., Nik, H., & Charkhkar, H. (2013). Voice controlled wheelchairs: Fine control by humming. Computer methods and programs in biomedicine, 112 (1), 156--165.

Charkhkar, H., Knaack, G., Gnade, B., Keefer, E., & Pancrazio, J. (2012). Development and demonstration of a disposable low-cost microelectrode array for cultured neuronal network recording. Sensors and Actuators B: Chemical, 161 (1), 655--660.

Cohen, E., Agrawal, A., Connors, M., Hansen, B., Charkhkar, H., & Pfefer, J. (2011). Optical coherence tomography imaging of retinal damage in real time under a stimulus electrode. Journal of neural engineering, 8 (5), 056017.

Hamid Charkhkar in the News

People can move this bionic leg just by thinking about it

Hamid Charkhkar, research assistant professor in the Department of Biomedical Engineering, commented on a research study into a new neural interface that links a prosthetic limb to thigh nerve endings and enables the limb to be controlled by the brain. “It’s a very forward-thinking approach. Our limbs are not like shoes. They’re not worn over our bodies. They are integrally attached to our bodies via bones, muscles, and nerves,” said Charkhkar, who was not involved in the study.

Everything you need to know about proprioception, your body’s ‘silent’ sixth sense

Hamid Charkhkar, a research assistant professor of biomedical engineering at Case School of Engineering, said without the body’s “silent” sixth sense—an internal GPS known as proprioception—people wouldn’t be able to touch their finger to their nose with their eyes closed.