Brenton D Hoffman, Associate Professor in the Department of Biomedical Engineering  


Brenton D Hoffman
Contact Info:
Office Location:  1361 CIEMAS
Office Phone:  (919) 660-5154
Email Address:   send me a message
Web Page: https://sites.google.com/site/hoffmanlabatduke/

Education:

Postdoctoral Fellow, University of Virginia, 2011
PhD, University of Pennsylvania, 2007
BS, Lehigh University, 2001
Research Interests:

Dr. Hoffman’s research focuses on understanding, on a molecular level, how mechanical and chemical cues from the environment are detected, integrated, and manipulated by cells to dictate physiological and patho-physiological responses important in vascular biology.

Areas of Interest:

Mechanotransduction
Micro-environment sensing
Biophysics of cardiovascular disease states
Cell mechanics

Specialties:

Biological Materials
Polymer and Protein Engineering
Cardiovascular
Tissue Repair, Tissue Engineering
Awards, Honors, and Distinctions

Post-doctoral Fellow, American Heart Association, 2009-2011
Cardiovascular Research Training Grant (T32), National Institutes of Health, 2007-2009
Ashton Fellowship in Engineering, 2002-2007
Teaching (Spring 2026):

  • BME 306L.001, CELLULAR ENGINEERING Synopsis
    Wilkinson 126, MW 01:25 PM-02:40 PM
  • BME 306L.01L, CELLULAR ENGINEERING Synopsis
    Teer 0015, Th 01:25 PM-04:25 PM
  • BME 306L.02L, CELLULAR ENGINEERING Synopsis
    Teer 0015, Th 04:40 PM-07:40 PM
  • BME 306L.03L, CELLULAR ENGINEERING Synopsis
    Teer 0015, Th 10:05 AM-01:05 PM
Representative Publications   (More Publications)

  1. Goguen, B. N. and Hoffman, B. D. and Sellers, J. R. and Schwartz, M. A. and Imperiali, B., Light-Triggered Myosin Activation for Probing Dynamic Cellular Processes, Angewandte Chemie-International Edition, vol. 50 no. 25 (2011), pp. 5666-5669 .
  2. Hoffman, B. D. and Grashoff, C. and Schwartz, M. A., Dynamic molecular processes mediate cellular mechanotransduction, Nature, vol. 475 no. 7356 (2011), pp. 316-323  [abs].
  3. Grashoff, C.* and Hoffman, B. D.* and Brenner, M. D. and Zhou, R. B. and Parsons, M. and Yang, M. T. and McLean, M. A. and Sligar, S. G. and Chen, C. S. and Ha, T. and Schwartz, M. A., Measuring mechanical tension across vinculin reveals regulation of focal adhesion dynamics, Nature, vol. 466 no. 7303 (2010), pp. 263-U143  [abs].
  4. Hoffman, B. D. and Crocker, J. C., Cell Mechanics: Dissecting the Physical Responses of Cells to Force, Annual Review of Biomedical Engineering, vol. 11 (2009), pp. 259-288  [abs].
  5. Hoffman, B. D. and Massiera, G. and Crocker, J. C., Fragility and mechanosensing in a thermalized cytoskeleton model with forced protein unfolding, Physical Review E, vol. 76 no. 5 (2007)  [abs].
  6. Van Citters, K. M. and Hoffman, B. D. and Massiera, G. and Crocker, J. C., The role of F-actin and myosin in epithelial cell rheology, Biophysical Journal, vol. 91 no. 10 (2006), pp. 3946-3956  [abs].
  7. Hoffman, B. D.* and Massiera, G.* and Van Citters, K. M. and Crocker, J. C., The consensus mechanics of cultured mammalian cells, Proceedings of the National Academy of Sciences of the United States of America, vol. 103 no. 27 (2006), pp. 10259-10264  [abs].
  8. Lau, A. W. C. and Hoffman, B. D. and Davies, A. and Crocker, J. C. and Lubensky, T. C., Microrheology, stress fluctuations, and active behavior of living cells, Physical Review Letters, vol. 91 no. 19 (2003)  [abs].
x