School of Biomedical Sciences
生物醫學學院
The Chinese University of Hong Kong 香港中文大學

張智鈞教授


CHEUNG Chi Kwan Vincent副教授

電話:  3943 9389

電郵:  Email住址會使用灌水程式保護機制。你需要啟動Javascript才能觀看它

地址:

 Room 322A, Lo Kwee-Seong Integrated Biomedical Sciences Building, Area 39, CUHK

網址:  

https://scholar.google.com.hk/citations?user=0jvjVzQAAAAJ&hl=en

https://youtu.be/xAHPVTlQ4N0?t=1216 [Prof. Cheung’s talk on the current major questions in neuroscience]

Publons: https://publons.com/researcher/1432042/vincent-c-k-cheung/

ORCID: https://orcid.org/0000-0002-6031-7320

 

 

 

個人簡介

Prof. CHEUNG Chi Kwan Vincent (張智鈞) A neuroscientist and biomedical engineer, Vincent C. K. Cheung is Associate Professor at the School of Biomedical Sciences of The Chinese University of Hong Kong (CUHK). He obtained his B. Sc. in Mathematics and Pharmacology & Therapeutics from The University of British Columbia, Ph. D. in Neuroscience and Biomedical Engineering from MIT and Harvard Medical School, and postdoctoral training from the McGovern Institute for Brain Research at MIT. Prof. Cheung’s research focuses on understanding how the central nervous system controls voluntary movement and enables motor skill learning. He is interested in translating knowledge of movement control into new rehabilitation strategies for movement disorders. To address these questions, Prof. Cheung and his team collect neurophysiological and motion data from humans and animals, explore the use of novel neural technologies, and analyse complex data sets using machine learning and AI techniques. Prof. Cheung’s research has been supported by the Hong Kong Research Grants Council, the CUHK Medicine Faculty Innovation Award, and other sponsors. His articles have appeared in Nature Communications, PNAS, Journal of Neurophysiology, and multiple IEEE journals. He was invited to speak for professional conferences, events for the general audience (e.g., TEDxCUHK), and various local radio programmes. Prof. Cheung was the Chair of the Hong Kong-Macau Chapter of the IEEE Engineering in Medicine and Biology Society (2018-19). Recipient of the Angus MacDonald Teaching Award of MIT (2006) and Teachers of the Years Award of CUHK Medicine (2021, 2022), Prof. Cheung has directed courses in neuroscience, human anatomy, and human physiology at CUHK. At present, he is the Dean of Students of CUHK’s C. W. Chu College.

  1. Neural control of movement.
  2. Motor learning, motor development, post-injury recovery.
  3. Neuro-rehabilitation.
  4. Movement disorders.
  5. Novel neural technologies.
  6. Neuroinformatics and algorithms for neural data analysis.
  7. Biomechanics.
  8. Brain stimulation and brain mapping.
    1. Guo X, Huang S, He B, Lan C, Xie JJ, Lau KYS, Takei T, Mak ADP, Cheung RTH, Seki K, Cheung, V.C.K.*, Chan RHM* (2024) Inhibitory components in muscle synergies factorized by the rectified latent variable model from electromyographic data. IEEE Journal of Biomedical and Health Informatics, in press. DOI: 10.1109/JBHI.2024.3453603.
    2. Huang S, Xie JJ, Lau KY, Liu R, Mak ADP*, Cheung, V.C.K.*, Chan RHM* (2024) Concerto of movement: how expertise shapes the synergistic control of upper limb muscles in complex motor tasks with varying tempo and dynamics. Journal of Neural Engineering, 21(4): 046010.
    3. Cheung, V.C.K.*, Ha SC, Zhang-Lea JH, Chan ZY, Teng Y, Yeung G, Wu L*, Liang D, Cheung RTH* (2024) Motor patterns of patients with spinal muscular atrophy suggestive of sensory and corticospinal contributions to the development of locomotor muscle synergies. . Journal of Neurophysiology, 131(2): 338-59.
    4. Cheung, V.C.K.*, & Seki, K. (2021). Approaches to revealing the neural basis of muscle synergies: A review and a critique. Journal of Neurophysiology, 125: 1580-1597. [Invited in-depth review for acknowledging the career of Emilio Bizzi, Institute Professor Emeritus of MIT]
    5. Cheung, V.C.K.*, Cheung, B.M.F.*, Zhang, J.H., Chan, Z.Y.S., Ha, S.C.W., Chen, C-Y., & Cheung, R.T.H. (2020). Plasticity of muscle synergies through fractionation and merging during development and training of human runners. Nature Communications, 11: 4356.
    6. Rinaldi, L., Yeung, L-F., Lam, P.C.H., Pang, M.Y.C., Tong, R.K.Y., &  Cheung, V.C.K.* (2020). Adapting to the mechanical properties and active force of an exoskeleton by altering muscle synergies in chronic stroke survivors. IEEE Transactions on Neural Systems and Rehabilitation Engineering, 28(10): 2203-2213.
    7. Cheung, V.C.K.*, Zheng X-C.*, Cheung R.T.H., & Chan R.H.M. (2020). Modulating the structure of motor variability for skill learning through specific muscle synergies in elderlies and young adults. IEEE Open Journal of Engineering in Medicine and Biology, 1: 33-40.
    8. Cheung, V.C.K., Niu, C.M.*, Li, S., Xie, Q., & Lan, N. (2019). A Novel FES Strategy for Poststroke Rehabilitation Based on the Natural Organization of Neuromuscular Control. IEEE Reviews in Biomedical Engineering, 12, 154-167.
    9. Devarajan, K., & Cheung, V.C.K.* (2014). On non-negative matrix factorization algorithms for signal-dependent noise, with application to electromyography data. Neural Computation, 26, 1128-1168.
    10. Bizzi, E., & Cheung, V.C.K.* (2013). The neural origin of muscle synergies. Frontiers in Computational Neuroscience, 7, 51.
    11. Cheung, V.C.K., Turolla, A., Agostini, M., Silvoni, S., Bennis, C., Kasi, P., Paganoni, S., Bonato, P., & Bizzi, E. (2012). Muscle synergy patterns as physiological markers of motor cortical damage. Proceedings of the National Academy of Sciences, USA, 109(36), 14652-14656. [Recommended by Faculty of 1000]
    12. Cheung, V.C.K., Piron, L., Agostini, M., Silvoni, S., Turolla, A., & Bizzi, E. (2009). Stability of muscle synergies for voluntary actions after cortical stroke in humans. Proceedings of the National Academy of Sciences, USA, 106(46), 19563-19568.
    13. Cheung, V.C.K.* , d’Avella, A., & Bizzi, E. (2009). Adjustments of motor pattern for load compensation via modulated activations of muscle synergies during natural behaviors. Journal of Neurophysiology, 101, 1235-1257.
    14. Tresch, M.C., Cheung, V.C.K., d’Avella, A. (2006). Matrix factorization algorithms for the identification of muscle synergies: evaluation on simulated and experimental data sets. Journal of Neurophysiology, 95, 2199-2212.
    15. Cheung, V.C.K., d’Avella, A., Tresch, M.C., & Bizzi, E. (2005). Central and sensory contributions to the activation and organization of muscle synergies during natural motor behaviors. Journal of Neuroscience, 25(27), 6419-6434.
  1. RGC – Strategic Topics Grant [PC; 01-Jan-25]: " Personalized Rehabilitation Pathways to Maximal Motor Functional Return through an AI Recovery Prediction System for Diverse Stroke Survivors ".
  2. RGC – General Research Fund [PI; 01-Jan-23]: " Neural basis of locomotor muscle synergies revealed by spinal population activity within neural manifolds ".
  3. NSFC-RGC Joint Research Scheme [PI; 01-Jan-22]: " Decoding Diverse Motor Intentions from Macro and Micro Features of High-Density Electromyographic Signals for Naturalistic Control of Neural Prostheses ".
  4. RGC – General Research Fund [PI; 01-Nov-21]: " Revealing the Neural Basis of Muscle Synergies in Humans through Direct Cortical Stimulation during Awake Brain Surgery ".
  5. Croucher Summer Courses [PI; 01-Feb-19]: "Introduction to Computational Neuroscience".
  6. RGC - Research Impact Fund [PI; 28-Jan-19]: "A Wearable for Post-stroke Rehabilitative Multi-muscle Stimulation Inspired by the Natural Organization of Neuromuscular Control".