Dorian Liepmann

Chair and Professor of Bioengineering
Keywords: mechanics
Research Areas: bioengineering, mechanical engineering, BioMEMS, microfluid dynamics, experimental biofluid dynamics, hemodynamics, valvular heart disease, cardiac flows, arterial flows
Website: http://www.me.berkeley.edu/~liepmann/

Research Description:

BioMEMS, microfluid dynamics, experimental biofluid dynamics, hemodynamics associated with valvular heart disease and other cardiac and arterial flows.

Selected Publications:

  • Zahn JD, Deshmukh A, Pisano AP, Liepmann D. “Continuous on-chip micropumping for
    microneedle enhanced drug delivery,” Biomed Microdevices. 2004 Sep;6(3):183-90.
  • Trebotich D. Zahn JD. Prabhakarpandian B. Liepmann D. Modeling of microfabricated
    microneedles for minimally invasive drug delivery, sampling and analysis. Biomedical
    Microdevices
    . 5(3):245-251, 2003.
  • Shrewsbury, P.S., Muller, S.J., and Liepmann, D. “Concentration effects of a biopolymer in a microfluidic device,” Biomedical Microdevices 4: 17-26, 2002.
  • Shrewsbury, P.S., Muller, S.J., and Liepmann, D.(2001), “Effect of Flow on Complex Biological Macromolecules in Microfluidic Devices,” Biomedical Microdevices 3: 225-232.
  • Shrewsbury, P. J., Muller, S. J. and Liepmann, D. (2000). “Flow of lambda -DNA in
    microfluidic devices”. 1st Annual International IEEE-EMBS Special Topic Conference on
    Microtechnologies in Medicine and Biology
    , Lyon, France, 12-14 Oct. 2000, 415-20.
  • Zimmermann S. Fienbork D. Flounders AW. Liepmann D. (2004) “In-device enzyme
    immobilization: wafer-level fabrication of an integrated glucose sensor.” Sensors & Actuators
    B-Chemical
    . 99(1):163-173, 2004 Apr 15.
  • Thakar RG. Ho F. Huang NF. Liepmann D. Li S. (2003) “Regulation of vascular smooth muscle cells by micropatterning,” Biochemical & Biophysical Research Communications. 307(4): 883-890, 2003 Aug 8.
  • Trebotich D. Zahn JD. Prabhakarpandian B. Liepmann D. (2003) Modeling of microfabricated microneedles for minimally invasive drug delivery, sampling and analysis. Biomedical Microdevices. 5(3):245-251.
  • Srinivasan, U., Liepmann, D. and Howe, R. T. (2001). “Microstructure to substrate self-
    assembly using capillary forces.” Journal of Microelectromechanical Systems 10(1): 17-24.
  • Cowan SE, Liepmann D, Keasling JD. (2001) “Development of engineered biofilms on poly-L- lysine patterned surfaces.” Biotechnology Letters 23: 1235–41.
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