Publications

bolded names = BRaIN Lab author
* = student author

Yr.CitationProj.
2021Castano, C. R. & Huang, H. J. Speed-related but not detrended gait variability increases with more sensitive self-paced treadmill controllers at multiple slopes. PLoS One 16, e0251229 (2021).NIH R01 AG054621
2021Shirazi, S. Y. & Huang, H. J. Differential Theta-Band Signatures of the Anterior Cingulate and Motor Cortices During Seated Locomotor Perturbations. IEEE Trans. Neural Syst. Rehabil. Eng. 29, 468Ð477 (2021).NIH R01 AG054621
2020Li, J., Wang, P. & Huang, H. J. Dry Epidermal Electrodes Can Provide Long-Term High Fidelity Electromyography for Limited Dynamic Lower Limb Movements. Sensors 20, 4848 (2020).
2020Thiamwong, L., Sole, M. L., Ng, B. P., Welch, G. F., Huang, H. J. & Stout, J. R. Assessing Fall Risk Appraisal Through Combined Physiological and Perceived Fall Risk Measures Using Innovative Technology. J. Gerontol. Nurs. 46, 41–47 (2020).
2020Huang, H.-H., Condor, A. & Huang, H. J. in Statistical Modeling in Biomedical Research: Contemporary Topics and Voices in the Field (eds. Zhao, Y. & Chen, D.-G. (din)) 23–35 (Springer International Publishing, 2020).NIH R01 AG054621
2019Shirazi, S. Y.* & Huang, H. J. More Reliable EEG Electrode Digitizing Methods Can Reduce Source Estimation Uncertainty, but Current Methods Already Accurately Identify Brodmann Areas. Front. Neurosci. 13, 1159 (2019).NIH R01 AG054621
2019Thiamwong, L., Huang, H. J., Ng, B. P., Yan, X., Sole, M. L., Stout, J. R. & Talbert, S. Shifting Maladaptive Fall Risk Appraisal in Older Adults through an in-Home Physio-fEedback and Exercise pRogram (PEER): A Pilot Study. Clin. Gerontol. 1–13 (2019).
2019Li, J.*, Barnes, G., Wang, P. & Huang, H. J. Assessment of Single Use Dry Epidermal Electrodes for Surface Electromyography Recordings*. in 2019 9th International IEEE/EMBS Conference on Neural Engineering (NER) 702–705 (2019).
2019Shirazi, S. Y.* & Huang, H. J. Influence of Mismarking Fiducial Locations on EEG Source Estimation*. in 2019 9th International IEEE/EMBS Conference on Neural Engineering (NER) 377–380 (2019).
2018Wang, X., Li, J.*, Song, H., Huang, H. & Gou, J. Highly Stretchable and Wearable Strain Sensor Based on Printable Carbon Nanotube Layers/Polydimethylsiloxane Composites with Adjustable Sensitivity. ACS Appl. Mater. Interfaces 2018/02/13, (2018).
2017Banks, C. L., Huang, H. J., Little, V. L. & Patten, C. Electromyography Exposes Heterogeneity in Muscle Co-Contraction following Stroke. Front. Neurol. 8, 699 (2017).
2016Shadmehr, R., Huang, H. J. & Ahmed, A. A. A Representation of Effort in Decision-Making and Motor Control. Curr. Biol. 26, 1929–1934 (2016).
2016Kline, J. E., Huang, H. J., Snyder, K. L. & Ferris, D. P. Cortical Spectral Activity and Connectivity during Active and Viewed Arm and Leg Movement. Front. Neurosci. 10, 91 (2016).
2015Snyder, K. L., Kline, J. E., Huang, H. J. & Ferris, D. P. Independent Component Analysis of Gait-Related Movement Artifact Recorded using EEG Electrodes during Treadmill Walking. Front. Hum. Neurosci. 9, 639 (2015).
2015Kline, J. E., Huang, H. J., Snyder, K. L. & Ferris, D. P. Isolating gait-related movement artifacts in electroencephalography during human walking. J. Neural Eng. 12, 046022 (2015).
2014Huang, H. J. & Ahmed, A. A. Reductions in muscle coactivation and metabolic cost during visuomotor adaptation. J. Neurophysiol. 112, 2264–2274 (2014).
2014Huang, H. J. & Ahmed, A. A. Older adults learn less, but still reduce metabolic cost, during motor adaptation. J. Neurophysiol. 111, 135–144 (2014).
2012Huang, H. J., Kram, R. & Ahmed, A. A. Reduction of metabolic cost during motor learning of arm reaching dynamics. J. Neurosci. 32, 2182–2190 (2012).NIH T32 AG000279 postdoc fellow
2011Huang, H. J. & Ahmed, A. A. Tradeoff between Stability and Maneuverability during Whole-Body Movements. PLoS One 6, e21815 (2011).
2010Huang, H. J. & Ferris, D. P. Computer simulations of neural mechanisms explaining upper and lower limb excitatory neural coupling. J. Neuroeng. Rehabil. 7, 59 (2010).NIH F31 NS056504
2009Huang, H. J. & Ferris, D. P. Upper limb effort does not increase maximal voluntary muscle activation in individuals with incomplete spinal cord injury. Clin. Neurophysiol. 120, 1741–1749 (2009).NIH F31 NS056504
2009Huang, H. J. & Ferris, D. P. Upper and lower limb muscle activation is bidirectionally and ipsilaterally coupled. Med. Sci. Sports Exerc. 41, 1778–1789 (2009).NIH F31 NS056504
2006Ferris, D. P., Huang, H. J. & Kao, P.-C. Moving the arms to activate the legs. Exerc. Sport Sci. Rev. 34, 113–120 (2006).
2004Huang, H. J. & Ferris, D. P. Neural coupling between upper and lower limbs during recumbent stepping. J. Appl. Physiol. 97, 1299–1308 (2004).