Alireza (Ali) Karimi, Ph.D.

  • Assistant Professor of Ophthalmology, School of Medicine
  • Casey Eye Institute, School of Medicine

Education and training

  • Degrees

    • Ph.D., Kyushu University, Japan

Areas of interest

  • Ocular Biomechanics

Publications

Publications

  • High-resolution modeling of aqueous humor dynamics in the conventional outflow pathway of a normal human donor eye

    Computer Methods and Programs in Biomedicine
    1. Alireza Karimi
    2. Reza Razaghi
    3. Ansel Stanik
    4. Siddharth Daniel D'costa
    5. Iman Mirafzal
    6. Mary Kelley
    7. Ted S. Acott
    8. Haiyan Gong
  • Impact of aging on anterior segment morphology and aqueous humor dynamics in human Eyes

    Biocybernetics and Biomedical Engineering
    1. Alireza Karimi
    2. Marie Darche
    3. Ansel Stanik
    4. Reza Razaghi
    5. Iman Mirafzal
    6. Kamran Hassani
    7. Mojtaba Hassani
    8. Elizabeth White
    9. Ivana Gantar
    10. Stéphane Pagès
    11. Laura Batti
    12. Ted S. Acott
    13. Michel Paques
  • Comparative analysis of traction forces in normal and glaucomatous trabecular meshwork cells within a 3D, active fluid-structure interaction culture environment

    Acta Biomaterialia
    1. Alireza Karimi
    2. Mini Aga
    3. Taaha Khan
    4. Siddharth Daniel D'costa
    5. Omkar Thaware
    6. Elizabeth White
    7. Mary J. Kelley
    8. Haiyan Gong
    9. Ted S. Acott
  • Dynamic traction force in trabecular meshwork cells

    Acta Biomaterialia
    1. Alireza Karimi
    2. Mini Aga
    3. Taaha Khan
    4. Siddharth Daniel D'costa
    5. Sebastian Cardenas-Riumallo
    6. Meadow Zelenitz
    7. Mary J. Kelley
    8. Ted S. Acott
  • Implementing new computational methods for the study of JCT and SC inner wall basement membrane biomechanics and hydrodynamics

    Computer Methods and Programs in Biomedicine
    1. Alireza Karimi
    2. Reza Razaghi
    3. Siddharth Daniel D'costa
    4. Saeed Torbati
    5. Sina Ebrahimi
    6. Seyed Mohammadali Rahmati
    7. Mary J. Kelley
    8. Ted S. Acott
    9. Haiyan Gong
  • Integrating Deep Learning with Electronic Health Records for Early Glaucoma Detection

    Bioengineering
    1. Alireza Karimi
    2. Ansel Stanik
    3. Cooper Kozitza
    4. Aiyin Chen
  • Segmental biomechanics of the normal and glaucomatous human aqueous outflow pathway

    Acta Biomaterialia
    1. Alireza Karimi
    2. Shanjida Khan
    3. Reza Razaghi
    4. Mini Aga
    5. Seyed Mohammadali Rahmati
    6. Elizabeth White
    7. Mary J. Kelley
    8. Yifan Jian
    9. Ted S. Acott
  • A position- and time-dependent pressure profile to model viscoelastic mechanical behavior of the brain tissue due to tumor growth

    Computer Methods in Biomechanics and Biomedical Engineering
    1. Fatemeh Abdolkarimzadeh
    2. Mohammad Reza Ashory
    3. Ahmad Ghasemi-Ghalebahman
    4. Alireza Karimi
  • Biomechanics of the JCT and SC Inner Wall Endothelial Cells with Their Basement Membrane Using 3D Serial Block-Face Scanning Electron Microscopy

    Bioengineering
    1. Alireza Karimi
    2. Reza Razaghi
    3. Mary J. Kelley
    4. Ted S. Acott
    5. Haiyan Gong
  • Developing an experimental-computational workflow to study the biomechanics of the human conventional aqueous outflow pathway

    Acta Biomaterialia
    1. Alireza Karimi
    2. Shanjida Khan
    3. Reza Razaghi
    4. Seyed Mohammadali Rahmati
    5. Michael Gathara
    6. Erika Tudisco
    7. Mini Aga
    8. Mary J. Kelley
    9. Yifan Jian
    10. Ted S. Acott
  • Morphological and biomechanical analyses of the human healthy and glaucomatous aqueous outflow pathway

    Computer Methods and Programs in Biomedicine
    1. Alireza Karimi
    2. Devon J. Crouch
    3. Reza Razaghi
    4. J. Crawford Downs
    5. Ted S. Acott
    6. Mary J. Kelley
    7. Julia G. Behnsen
    8. Lucy A. Bosworth
    9. Carl M. Sheridan
  • Biomechanics of human trabecular meshwork in healthy and glaucoma eyes via dynamic Schlemm's canal pressurization

    Computer Methods and Programs in Biomedicine
    1. Alireza Karimi
    2. Seyed Mohammadali Rahmati
    3. Reza Razaghi
    4. J. Crawford Downs
    5. Ted S. Acott
    6. Ruikang K. Wang
    7. Murray Johnstone
  • Finite element modeling of the complex anisotropic mechanical behavior of the human sclera and pia mater

    Computer Methods and Programs in Biomedicine
    1. Alireza Karimi
    2. Seyed Mohammadali Rahmati
    3. Reza Razaghi
    4. Christopher A. Girkin
    5. J. Crawford Downs
  • Interaction of the Blood Components with Ascending Thoracic Aortic Aneurysm Wall

    Life
    1. Ramezan Ali Taheri
    2. Reza Razaghi
    3. Ali Bahramifar
    4. Mahdi Morshedi
    5. Majid Mafi
    6. Alireza Karimi
  • Modeling the biomechanics of the conventional aqueous outflow pathway microstructure in the human eye

    Computer Methods and Programs in Biomedicine
    1. Alireza Karimi
    2. Reza Razaghi
    3. Seyed Mohammadali Rahmati
    4. J. Crawford Downs
    5. Ted S. Acott
    6. Ruikang K. Wang
    7. Murray Johnstone
  • Modeling the Endothelial Glycocalyx Layer in the Human Conventional Aqueous Outflow Pathway

    Cells
    1. Alireza Karimi
    2. Mahdi Halabian
    3. Reza Razaghi
    4. J. Crawford Downs
    5. Mary J. Kelley
    6. Ted S. Acott
  • Ocular biomechanics during improvised explosive device blast

    Injury
    1. Alireza Karimi
    2. Reza Razaghi
    3. Christopher A. Girkin
    4. J. Crawford Downs
  • Relative Contributions of Intraocular and Cerebrospinal Fluid Pressures to the Biomechanics of the Lamina Cribrosa and Laminar Neural Tissues

    Investigative Ophthalmology and Visual Science
    1. Alireza Karimi
    2. Reza Razaghi
    3. Seyed Mohammadali Rahmati
    4. Christopher A. Girkin
    5. J. Crawford Downs
  • The Design and Control of a Footplate-Based Gait Robo-Assisted System for Lower Limb Actuator

    Machines
    1. Seyed Mohammadali Rahmati
    2. Alireza Karimi
  • The Effect of Intraocular Pressure Load Boundary on the Biomechanics of the Human Conventional Aqueous Outflow Pathway

    Bioengineering
    1. Alireza Karimi
    2. Reza Razaghi
    3. Seyed Mohammadali Rahmati
    4. J. Crawford Downs
    5. Ted S. Acott
    6. Mary J. Kelley
    7. Ruikang K. Wang
    8. Murray Johnstone
  • The role of the fiber ply configurations on the biomechanics of the hip prosthesis

    International Journal of Modeling, Simulation, and Scientific Computing
    1. Kamran Hassani
    2. Mohammad Nikkhoo
    3. Alireza Karimi
  • Viscoelastic Biomechanical Properties of the Conventional Aqueous Outflow Pathway Tissues in Healthy and Glaucoma Human Eyes

    Journal of Clinical Medicine
    1. Alireza Karimi
    2. Reza Razaghi
    3. Steven Padilla
    4. Seyed Mohammadali Rahmati
    5. J. Crawford Downs
    6. Ted S. Acott
    7. Mary J. Kelley
    8. Ruikang K. Wang
    9. Murray Johnstone
  • A comparative finite element simulation of locking compression plate materials for tibial fracture treatment

    Computer Methods in Biomechanics and Biomedical Engineering
    1. Sami Beirami
    2. Mohammad Nikkhoo
    3. Kamran Hassani
    4. Alireza Karimi
  • Analysis of the effects of finite element type within a 3D biomechanical model of a human optic nerve head and posterior pole

    Computer Methods and Programs in Biomedicine
    1. Alireza Karimi
    2. Rafael Grytz
    3. Seyed Mohammadali Rahmati
    4. Christopher A. Girkin
    5. J. Crawford Downs
  • A nonlinear cfd/multibody incremental‐dynamic model for a constrained mechanism

    Applied Sciences (Switzerland)
    1. Seyed Mohammadali Rahmati
    2. Alireza Karimi
  • A patient-specific finite element model of the smoker’s lung during breathing

    Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering
    1. Mojtaba Hasani
    2. Reza Razaghi
    3. Kamran Hassani
    4. Seyed Mohammadali Rahmati
    5. Pedram Tehrani
    6. Alireza Karimi
  • A patient-specific fluid–structure interaction model of the cerebrovascular damage in relation to traumatic brain injury

    Trauma
    1. Reza Razaghi
    2. Hasan Biglari
    3. Alireza Karimi