Ching-yi Wu, ScD, OTR
Dr. Wu is a full professor in the Department of Occupational Therapy and the Graduate Institute of Behavioral Science in the College of Medicine at Chang Gung University in Taoyuan City, Taiwan with a practice appointment as Adjunct Occupational Therapist in Chang Gung University Hospital. Dr. Wu’s research interest mainly lies in neurorehabilitation after stroke and the application of motor control study in stroke rehabilitation, together with examining the psychometric and clinimetric properties of outcome evaluations used in efficacy study. She has combined electrophysiological stimulation with task-oriented approaches; for example, transcranial direct current stimulation combined with mirror therapy for facilitating neural reorganization and motor recovery. Dr. Wu’s research has used kinematic analysis and functional magnetic resonance imaging to study the nature of improved movement control and the possible neural mechanisms underlying improvement. Dr. Wu has published over 172 journal articles and is the Principle Investigator of the Human-Machine Interface in the Healthy Aging Center at Chang Gung University which facilitates the application of technology in rehabilitation and occupational therapy practice.
Q AND A
Identify three words that others have used to describe you.
Persistent, Action-oriented, Interdisciplinary
How do you hope to make a difference in the world through research?
I hope to make a difference in clinical practice in terms of optimizing the benefits of interventions for persons with physical dysfunction. Research on the mechanism and efficacy of theory-based and innovative interventions and on searching for the most appropriate clients to the specific approach is critical to achieve this aim. I also hope to make a difference in knowledge and practice by incorporating contemporary technology such as non-invasive brain stimulation, artificial intelligence to clinical decision making, monitoring, evaluation, and intervention of occupational therapy.
What is one piece of advice you have for individuals considering a career in science and research?
Be enthusiastic and interested in exploring unknown phenomenon.
Beside your own areas of inquiry, what is one research priority that you believe is important for the future of occupational science and occupational therapy?
Integrate artificial intelligence and telerehabilitation into OT knowledge and practice for health care and promotion.
Describe the most important role that mentors played in your professional journey.
I am fortunate to be surrounded by respectful scholars who are devoted to research and professional development. What I learned and I’d like to pass on to the young researcher or scholars is to sharpen your thinking and create all kinds of possibility for enriching the field of interest.
Identify a favorite occupation that renews you outside of your work.
Travel, cuisine, hiking
What has been the most surprising or rewarding aspects of a career in science and research?
The most rewarding aspect is to mentor graduate students and postdoctoral fellows and collaborate with colleagues to go through a series of the research programs finding out the possible/temporary answers to the research question and contributing to establishment of the scientific base of occupational therapy.
Chen, H., Lin, K., Liing, R., Wu, C.-Y., & Chen, C.-L. (2015). Kinematic measures of arm-trunk movements during unilateral and bilateral reaching predict clinically important change in perceived arm use in daily activities after intensive stroke rehabilitation. Journal of NeuroEngineering and Rehabilitation, 12, 84-94. doi:10.1186/s12984-015-0075-8.
Wu, C.-Y., Chen, C.-L., Tsai, W., Lin, K. (2007). A randomized controlled trial of modified constraint-induced movement therapy for elderly stroke survivors: Changes in motor impairment, daily functioning, and quality of life. Archives of Physical Medicine and Rehabilitation, 88, 273-8. doi:10.1016/j.apmr.2006.11.021.
Wu, C.-Y., Chuang L-L., Lin K-C., Chen, H., & Tsay, P. (2011). Randomized trial of distributed constraint-induced therapy versus bilateral arm training for the rehabilitation of upper-limb Motor control and function after stroke. Neurorehabilitation and Neural Repair, 25, 130-139. doi:10.1177/1545968310380686.
Wu, C-Y, Chuang L-L, Lin K-C, Lee S-D, & Hong W-H. (2011). Responsiveness, minimal detectable change, and minimal clinically important difference of the Nottingham Extended Activities of Daily Living scale in patients with improved performance after stroke rehabilitation. Archives of Physical Medicine and Rehabilitation, 92, 1281-1287. doi:10.1016/j.apmr.2011.03.008.
Wu, C.-Y., Chuang, I.-C., Ma, H.-I., Lin, K.-C., & Chen, C.-L. (2016). Validity and responsiveness of the Revised Nottingham Sensation Assessment for outcome evaluation in stroke rehabilitation. American Journal of Occupational Therapy, 70, 7002290040. doi: 10.5014/ajot.2016.018390.
Wu, C.-Y., Lin K-C, Chen, H.-C., Chen, I.-H., & Hong, W.-H. (2007) Effects of Modified Constraint-Induced Movement Therapy on Movement Kinematics and Daily Function in Patients With Stroke: A Kinematic Study of Motor Control Mechanisms. Neurorehabilitation and Neural Repair, 21, 460 doi:10.1177/1545968307303411
Wu, C.-Y., Wong, M., Lin, K., Chen, H.-C. (2001). Effects of task goal and personal preference on seated reaching kinematics after stroke. Stroke, 32, 70-76. DOI: https://doi.org/10.1161/01.STR.32.1.70.