| Method for isolation of independent, parallel chemical micro-reactions using a porous filter M Weiner, S Attiya, H Crenshaw, J Rothberg, S Matson US Patent App. 10/482,491, 2005 | 214 | 2005 |
| A new look at locomotion in microorganisms: rotating and translating HC Crenshaw American Zoologist 36 (6), 608-618, 1996 | 166 | 1996 |
| Analysis of the three-dimensional trajectories of organisms: estimates of velocity, curvature and torsion from positional information HC Crenshaw, CN Ciampaglio, M Mchenry Journal of Experimental Biology 203 (6), 961-982, 2000 | 104 | 2000 |
| Orientation by helical motion—III. Microorganisms can orient to stimuli by changing the direction of their rotational velocity HC Crenshaw Bulletin of Mathematical Biology 55, 231-255, 1993 | 100 | 1993 |
| Hydrostatic pressure has different effects on the assembly of tubulin, actin, myosin II, vinculin, talin, vimentin, and cytokeratin in mammalian tissue cells HC Crenshaw, JA Allen, V Skeen, A Harris, ED Salmon Experimental cell research 227 (2), 285-297, 1996 | 96 | 1996 |
| Orientation by helical motion—I. Kinematics of the helical motion of organisms with up to six degrees of freedom HC Crenshaw Bulletin of Mathematical Biology 55 (1), 197-212, 1993 | 88 | 1993 |
| Orientation by helical motion—II. Changing the direction of the axis of motion HC Crenshaw, L Edelstein-Keshet Bulletin of mathematical biology 55, 213-230, 1993 | 81 | 1993 |
| Methods and devices to decrease tissue trauma during surgery HC Crenshaw, CA Pell US Patent 8,845,527, 2014 | 77 | 2014 |
| Plankton community dynamics of the central Great Barrier Reef Lagoon: Analysis of data from Ikeda et al. PW Sammarco, H Crenshaw Marine Biology 82, 167-180, 1984 | 73 | 1984 |
| Electrostatic forces in wind-pollination—Part 1: Measurement of the electrostatic charge on pollen GE Bowker, HC Crenshaw Atmospheric Environment 41 (8), 1587-1595, 2007 | 66 | 2007 |
| Methods and devices to decrease tissue trauma during surgery CA Pell, HC Crenshaw, ET Espenhahn US Patent App. 13/111,762, 2012 | 52 | 2012 |
| Methods and devices to decrease tissue trauma during surgery CA Pell, HC Crenshaw US Patent 8,915,845, 2014 | 51 | 2014 |
| Kinematics of helical motion of microorganisms capable of motion with four degrees of freedom HC Crenshaw Biophysical journal 56 (5), 1029-1035, 1989 | 48 | 1989 |
| Electrostatic forces in wind-pollination—Part 2: Simulations of pollen capture GE Bowker, HC Crenshaw Atmospheric environment 41 (8), 1596-1603, 2007 | 40 | 2007 |
| Plastic surfaces and apparatuses for reduced adsorption of solutes and methods of preparing the same KI Pettigrew, PJC Kung, JT Stecher, GF Smith, HC Crenshaw | 35 | 2007 |
| A navigational primitive: biorobotic implementation of cycloptic helical klinotaxis in planar motion JH Long, AC Lammert, CA Pell, M Kemp, JA Strother, HC Crenshaw, ... IEEE Journal of Oceanic Engineering 29 (3), 795-806, 2004 | 33 | 2004 |
| Method for isolation of independent, parallel chemical micro-reactions using a porous filter M Weiner, S Attiya, H Crenshaw, J Rothberg, S Matson US Patent App. 10/191,438, 2003 | 32 | 2003 |
| A low-cost, manufacturable method for fabricating capillary and optical fiber interconnects for microfluidic devices DM Hartmann, JT Nevill, KI Pettigrew, G Votaw, PJ Kung, HC Crenshaw Lab on a Chip 8 (4), 609-616, 2008 | 28 | 2008 |
| Microfluidic methods and apparatuses for fluid mixing and valving GF Smith, DM Schmidt, S Thrall, DG Tew, GA Votaw, HC Crenshaw, ... US Patent App. 11/719,521, 2009 | 27 | 2009 |
| Hydrostatic pressure to 400 atm does not induce changes in the cytosolic concentration of Ca2+ in mouse fibroblasts: measurements using fura-2 fluorescence HC Crenshaw, ED Salmon Experimental cell research 227 (2), 277-284, 1996 | 27 | 1996 |