Deformation-based mapping of volume change from serial brain MRI in the presence of local tissue contrast change C Studholme, C Drapaca, B Iordanova, V Cardenas IEEE transactions on Medical Imaging 25 (5), 626-639, 2006 | 180 | 2006 |

A fractional model of continuum mechanics CS Drapaca, S Sivaloganathan Journal of Elasticity 107 (2), 105-123, 2012 | 129 | 2012 |

Nonlinear constitutive laws in viscoelasticity CS Drapaca, S Sivaloganathan, G Tenti Mathematics and mechanics of solids 12 (5), 475-501, 2007 | 79 | 2007 |

A quasi-linear viscoelastic constitutive equation for the brain: application to hydrocephalus CS Drapaca, G Tenti, K Rohlf, S Sivaloganathan Journal of Elasticity 85 (1), 65-83, 2006 | 62 | 2006 |

Aspiration-assisted bioprinting for precise positioning of biologics B Ayan, DN Heo, Z Zhang, M Dey, A Povilianskas, C Drapaca, IT Ozbolat Science advances 6 (10), eaaw5111, 2020 | 55 | 2020 |

A nonlinear viscoelastic fractional derivative model of infant hydrocephalus KP Wilkie, CS Drapaca, S Sivaloganathan Applied Mathematics and Computation 217 (21), 8693-8704, 2011 | 39 | 2011 |

Segmentation of tissue boundary evolution from brain MR image sequences using multi-phase level sets CS Drapaca, V Cardenas, C Studholme Computer Vision and Image Understanding 100 (3), 312-329, 2005 | 37 | 2005 |

Variable-order fractional description of compression deformation of amorphous glassy polymers R Meng, D Yin, CS Drapaca Computational Mechanics 64 (1), 163-171, 2019 | 36 | 2019 |

A nonlinear total variation-based denoising method with two regularization parameters CS Drapaca IEEE Transactions on Biomedical Engineering 56 (3), 582-586, 2009 | 32 | 2009 |

A variable order fractional constitutive model of the viscoelastic behavior of polymers R Meng, D Yin, CS Drapaca International Journal of Non-Linear Mechanics 113, 171-177, 2019 | 30 | 2019 |

Particle squeezing in narrow confinements Z Zhang, J Xu, C Drapaca Microfluidics and Nanofluidics 22 (10), 1-26, 2018 | 27 | 2018 |

Droplet squeezing through a narrow constriction: Minimum impulse and critical velocity Z Zhang, C Drapaca, X Chen, J Xu Physics of Fluids 29 (7), 072102, 2017 | 26 | 2017 |

The dynamics of brain and cerebrospinal fluid growth in normal versus hydrocephalic mice JG Mandell, T Neuberger, CS Drapaca, AG Webb, SJ Schiff Journal of Neurosurgery: Pediatrics 6 (1), 1-10, 2010 | 21 | 2010 |

Aging impact on brain biomechanics with applications to hydrocephalus KP Wilkie, CS Drapaca, S Sivaloganathan Mathematical medicine and biology: a journal of the IMA 29 (2), 145-161, 2012 | 20 | 2012 |

A combined level set/mesh warping algorithm for tracking brain and cerebrospinal fluid evolution in hydrocephalic patients J Park, SM Shontz, CS Drapaca Image-Based Geometric Modeling and Mesh Generation, 107-141, 2013 | 18 | 2013 |

An electromechanical model of neuronal dynamics using Hamilton's principle CS Drapaca Frontiers in cellular neuroscience 9, 271, 2015 | 14 | 2015 |

A theoretical study of the effect of intraventricular pulsations on the pathogenesis of hydrocephalus KP Wilkie, CS Drapaca, S Sivaloganathan Applied mathematics and computation 215 (9), 3181-3191, 2010 | 14 | 2010 |

Leakage evaluation by virtual entropy generation (VEG) method Z Zhang, C Drapaca, Z Zhang, S Zhang, S Sun, H Liu Entropy 20 (1), 14, 2018 | 13 | 2018 |

A fractional pressure-volume model of cerebrospinal fluid dynamics in hydrocephalus J Kauffman, CS Drapaca Mechanics of Biological Systems and Materials, Volume 4, 179-184, 2014 | 13 | 2014 |

A mechano-electrochemical model of brain neuro-mechanics: application to normal pressure hydrocephalus CS Drapaca, JS Fritz Int. J. Numer. Anal. Model. B 3 (1), 82-93, 2012 | 13 | 2012 |