The Catholic University of America

Peter S. Lum, Ph.D.

Associate Professor and Chair
Biomedical Engineering
202-319-5181 phone
202-319-4287 fax
lum@cua.edu

Director
Center for Applied Biomechanics and Rehabilitation Research
MedStart National Rehabilitation Hospital

Education:
Ph.D., Bioengineering, University of California at Berkeley and San Francisco, 1993
M.S., Applied Mechanics, California Institute of Technology, Pasadena, CA, 1988
B.S., Mechanical Engineering, George Washington University, 1987

Biography in Brief:
Dr. Lum's area of study is the application of engineering tools to assist development of novel interventions for rehabilitation of movement following neurological injury. Following his doctoral studies, he served from 1994-2002 as Research Biomedical Engineer at the Rehabilitation Research & Development Center in the Dept. of Veterans Affairs Palo Alto Health Care System. There, he developed the MIME robotic system for rehabilitation of arm movement after stroke. In 2002, he and colleagues published the first controlled study that demonstrated the advantages of robotic arm therapy compared with dose matched conventional therapy. He started as an Assistant Professor in Biomedical Engineering at Catholic University in 2005, and was promoted to Associate Professor in 2007. He currently directs the Center for Applied Biomechanics and Rehabilitation Research at MedStar National Rehabilitation Hospital, and is also a Research Health Scientist at the Washington DC Veterans Affairs Medical Center. He is currently developing robotic devices for rehabilitation of upper extremity function, studying motor learning and performance limitations in amputee populations, and continuing work in telerehabilitation technologies.


Representative Publications:
Lum PS, Burgar CG, Van der Loos M, Shor PC, Majmundar M, Yap R (2006) MIME robotic device for upper-limb neurorehabilitation in subacute stroke subjects: A follow-up study. J Rehabil Res Dev 43(5):631-42.

Schabowsky CN, Hidler JM, Lum PS (2007) Greater reliance on impedance control in the nondominant arm compared with the dominant arm when adapting to a novel dynamic environment. Exp Brain Res 182(4):567-77.

Schabowsky CN, Dromerick AW, Holley RJ, Monroe B, Lum PS (2008) Trans-radial upper extremity amputees are capable of adapting to a novel dynamic environment. Exp Brain Res 188(4):589-601.

Dromerick AW, Schabowsky CN, Holley RJ, Monroe B, Markotic A, Lum PS (2008) Effect of Training on Upper-Extremity Prosthetic Performance and Motor Learning: A Single-Case Study. Arch Phys Med Rehabil 89:1199-204.

Nef T, Lum P (2009) Improving backdrivability in geared rehabilitation robots. Med Biol Eng Comput 47(4):441-7.

Lum PS, Mulroy S, Amdur RL, Requejo P, Prilutsky BI, Dromerick AW (2009) Gains in Upper Extremity Function After Stroke via Recovery or Compensation: Potential Differential Effects on Amount of Real-World Limb Use. Topics in Stroke Rehabilitation 16(4):237–253.

Metzger AJ, Dromerick AW, Schabowsky CN, Holley RJ, Monroe B, Lum PS (2010) Feedforward control strategies of subjects with transradial amputation in planar reaching. Journal of Rehabilitation Research and Development 47(3):201-212.

Schabowsky CN, Godfrey SB, Holley RJ, Lum PS (2010) Development and pilot testing of HEXORR: Hand EXOskeleton Rehabilitation Robot. Journal of Neuroengineering and Rehabilitation 7(1):36.

Brokaw EB, Murray T, Nef T, Lum PS (2011) Retraining of inter-joint arm coordination after stroke using robot-assisted time-independent functional training. J Rehabil Res Dev 48(4):299-316.

Burgar CG, Lum PS, Scremin E, Garber SL, Van der Loos HFM, Kenney D, Shor P (2011) Robot-Assisted Upper Limb Therapy in the Acute Rehabilitation Setting following Stroke: VA Multi-Site Clinical Trial. J Rehabil Res Dev 48(4):445-458.

Brokaw EB, Black I, Holley RJ, Lum PS (2011) Hand Spring Operated Movement Enhancer (HandSOME): A Portable, Passive Hand Exoskeleton for Stroke Rehabilitation. IEEE Transactions on Neural Systems and Rehabilitation Engineering 19(4):391-9.

Metzger AJ, Dromerick AW, Holley RJ, Lum PS. Characterization of compensatory trunk movements during prosthetic upper limb reaching tasks. Arch Phys Med Rehabil. 2012 Nov;93(11):2029-34.

Lum PS, Godfrey SB, Brokaw EB, Holley RJ, Nichols D. Robotic approaches for rehabilitation of hand function after stroke. Am J Phys Med Rehabil. 2012 Nov;91(11 Suppl 3):S242-54.

Godfrey SB, Lum PS, Chan E, Harris-Love ML. Cortical effects of repetitive finger flexion- vs. extension-resisted tracking movements: a TMS study. J Neurophysiol. 2013 Feb;109(4):1009-16. Epub 2012 Nov 21

Patten C, Condliffe EG, Dairaghi CA, Lum PS. Concurrent neuromechanical and functional gains following upper-extremity power training post-stroke. J Neuroeng Rehabil. 2013 Jan 21;10(1):1.

Nguyen HB, Lum PS. Compensation for the intrinsic dynamics of the InMotion2 robot. J Neurosci Methods 2013 Mar 30;214(1):15-20. Epub 2013 Jan 11

Brokaw EB, Holley RJ, Lum PS. Comparison of joint space and end point space robotic training modalities for rehabilitation of interjoint coordination in individuals with moderate to severe impairment from chronic stroke. IEEE Trans Neural Syst Rehabil Eng. 2013 Sep;21(5):787-95.

Godfrey SB, Holley RJ, Lum PS. Clinical Effects of Using HEXORR (Hand Exoskeleton Rehabilitation Robot) for Movement Therapy in Stroke Rehabilitation. Am J Phys Med Rehabil. 2013;92(11):947-58.

Brokaw EB, Nichols D, Holley RJ, Lum PS. Robotic therapy provides a stimulus for upper limb motor recovery after stroke that is complimentary and distinct from conventional therapy. Neurorehabilitation and Neural Repair. 2014; 28(4):367-76.

Lum PS, Black I, Holley RJ, Barth J, Dromerick AW. Internal models of upper limb prosthesis users when grasping and lifting a fragile object with their prosthetic limb. Experimental Brain Research. 2014 Aug 21. [Epub ahead of print]