Papers

PEER-REVIEWED JOURNALS

2025

  1. 22
    Decoding vascular age from brachial waveform morphology via machine learning and model-based data augmentation
    Arian Aghilinejad, Alessio Tamborini, and Morteza Gharib
    Machine Learning: Health, Aug 2025
    DOI PDF
  2. 21
    Aortic stretch and recoil create wave-pumping effect: the second heart in the systemic circulation
    Arian Aghilinejad, Coskun Bilgi, Haojie Geng, and Niema M. Pahlevan
    Journal of the Royal Society Interface, Mar 2025
    DOI PDF
  3. 20
    Power-Frequency Relationship of Wave Dynamics in Fluid-Filled Compliant Tubes
    Arian Aghilinejad, Faisal Amlani, and Morteza Gharib
    Physical Review Fluids, Mar 2025
    DOI
  4. 19
    A Spectral Machine Learning Approach to Derive Central Aortic Pressure Waveforms from a Brachial Cuff
    Alessio Tamborini, Arian Aghilinejad, and Morteza Gharib
    Proceedings of the National Academy of Sciences, Feb 2025
    DOI

2024

  1. 18
    Assessing Pressure Wave Components for Aortic Stiffness Monitoring Through Spectral Regression Learning
    Arian Aghilinejad and Morteza Gharib
    European Heart Journal Open, May 2024
    DOI PDF
  2. 17
    A New Methodology for Determining the Central Pressure Waveform from Peripheral Measurement Using Fourier-Based Machine Learning
    Arian Aghilinejad, Alessio Tamborini, and Morteza Gharib
    Artificial Intelligence in Medicine, Aug 2024
    DOI

2023

  1. 16
    Mechanistic Insights on Age-Related Changes in Heart-Aorta-Brain Hemodynamic Coupling Using a Pulse Wave Model of the Entire Circulatory System
    Arian Aghilinejad, Faisal Amlani, Sohrab P. Mazandarani, Kevin S. King, and Niema M. Pahlevan
    American Journal of Physiology - Heart and Circulatory Physiology, Nov 2023
    DOI PDF
  2. 15
    Non-Invasive Pressure-Only Aortic Wave Intensity Evaluation Using Hybrid Fourier Decomposition–Machine Learning Approach
    Arian Aghilinejad, Heng Wei, and Niema M. Pahlevan
    IEEE Transactions on Biomedical Engineering, Jul 2023
    DOI
  3. 14
    Framework Development for Patient-Specific Compliant Aortic Dissection Phantom Model Fabrication: Magnetic Resonance Imaging Validation and Deep-Learning Segmentation
    Arian Aghilinejad, Heng Wei, Coskun Bilgi, Alberto Paredes, Alexander DiBartolomeo, Gregory A. Magee, and Niema M. Pahlevan
    Journal of Biomechanical Engineering, Sep 2023
    DOI
  4. 13
    On the Longitudinal Wave Pumping in Fluid-Filled Compliant Tubes
    Arian Aghilinejad, Bryson Rogers, Haojie Geng, and Niema M. Pahlevan
    Physics of Fluids, Sep 2023
    DOI

2022

  1. 12
    A Coupled Atrioventricular-Aortic Setup for In-Vitro Hemodynamic Study of the Systemic Circulation: Design, Fabrication, and Physiological Relevancy
    Rashid Alavi, Arian Aghilinejad, Heng Wei, Soha Niroumandi, Seth Wieman, and Niema M. Pahlevan
    PLOS ONE, Nov 2022
    DOI PDF
  2. 11
    Model-Based Fluid-Structure Interaction Approach for Evaluation of Thoracic Endovascular Aortic Repair Endograft Length in Type B Aortic Dissection
    Arian Aghilinejad, Heng Wei, Gregory A. Magee, and Niema M. Pahlevan
    Frontiers in Bioengineering and Biotechnology, Jun 2022
    DOI PDF

2021

  1. 10
    Accuracy and Applicability of Non-Invasive Evaluation of Aortic Wave Intensity Using Only Pressure Waveforms in Humans
    Arian Aghilinejad, Faisal Amlani, Jing Liu, and Niema M. Pahlevan
    Physiological Measurement, Oct 2021
    DOI
  2. 9
    Effects of Vessel Wall Mechanics on Non-Invasive Evaluation of Cardiovascular Intrinsic Frequencies
    Arian Aghilinejad, Rashid Alavi, Bryson Rogers, Faisal Amlani, and Niema M. Pahlevan
    Journal of Biomechanics, Oct 2021
    DOI

2020

  1. 8
    Dynamic Effects of Aortic Arch Stiffening on Pulsatile Energy Transmission to Cerebral Vasculature as a Determinant of Brain-Heart Coupling
    Arian Aghilinejad, Faisal Amlani, Kevin S. King, and Niema M. Pahlevan
    Scientific Reports, May 2020
    DOI PDF
  2. 7
    Compound Droplet Modeling for Circulating Tumor Cell Microfiltration with Adaptive Meshing Refinement
    Mohammad Abul Hashem, Arian Aghilinejad, Xiaolin Chen, and Hua Tan
    Journal of Fluids Engineering, Nov 2020
    DOI

2019

  1. 6
    On the Design of Deterministic Dielectrophoresis for Continuous Separation of Circulating Tumor Cells from Peripheral Blood Cells
    Mohammad Aghaamoo, Arian Aghilinejad, Xiaolin Chen, and Jie Xu
    Electrophoresis, May 2019
    DOI
  2. 5
    On the Transport of Particles/Cells in High-Throughput Deterministic Lateral Displacement Devices: Implications for Circulating Tumor Cell Separation
    Arian Aghilinejad, Mohammad Aghaamoo, and Xiaolin Chen
    Biomicrofluidics, May 2019
    DOI
  3. 4
    On the Accuracy of Displacement-Based Wave Intensity Analysis: Effect of Vessel Wall Viscoelasticity and Nonlinearity
    Jingyi Kang, Arian Aghilinejad, and Niema M. Pahlevan
    PLOS ONE, Nov 2019
    DOI

2018

  1. 3
    Deterministic Lateral Displacement (DLD) in the High Reynolds Number Regime: High-Throughput and Dynamic Separation Characteristics
    Brian M. Dincau, Arian Aghilinejad, Taylor Hammersley, Xiaolin Chen, and Jong-Hoon Kim
    Microfluidics and Nanofluidics, Jun 2018
    DOI
  2. 2
    Vortex-Free High-Reynolds Deterministic Lateral Displacement (DLD) via Airfoil Pillars
    Brian M. Dincau, Arian Aghilinejad, Xiaolin Chen, Se Youn Moon, and Jong-Hoon Kim
    Microfluidics and Nanofluidics, Dec 2018
    DOI
  3. 1
    Effects of Electrothermal Vortices on Insulator-Based Dielectrophoresis for Circulating Tumor Cell Separation
    Arian Aghilinejad, Mohammad Aghaamoo, Xiaolin Chen, and Jie Xu
    Electrophoresis, Mar 2018
    DOI