Arash Ghorbannia, Ph.D.

Research Assistant Professor | Medical Modeling & Simulation | OERI, VHS, NCCMMS, EnMed

Office of Enterprise Research and Innovation (OERI) | Macon and Joan Brock Virginia Health Sciences (VHS) | National Center for Collaboration in Medical Modeling & Simulation (NCCMMS) | Institute for Engineering in Medicine, Health, and Human Performance (EnMed)

Old Dominion University

Correlation of computational instantaneous wave-free ratio with fractional flow reserve for intermediate multivessel coronary disease

Journal article

Arash Ghorbanniahassankiadeh, David S Marks, John F LaDisa Jr
Journal of biomechanical engineering, vol. 143, American Society of Mechanical Engineers, 2021, p. 051011

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Cite

APA Click to copy
Ghorbanniahassankiadeh, A., Marks, D. S., & LaDisa Jr, J. F. (2021). Correlation of computational instantaneous wave-free ratio with fractional flow reserve for intermediate multivessel coronary disease. Journal of Biomechanical Engineering, 143, 051011.

Chicago/Turabian Click to copy
Ghorbanniahassankiadeh, Arash, David S Marks, and John F LaDisa Jr. “Correlation of Computational Instantaneous Wave-Free Ratio with Fractional Flow Reserve for Intermediate Multivessel Coronary Disease.” Journal of biomechanical engineering 143 (2021): 051011.

MLA Click to copy
Ghorbanniahassankiadeh, Arash, et al. “Correlation of Computational Instantaneous Wave-Free Ratio with Fractional Flow Reserve for Intermediate Multivessel Coronary Disease.” Journal of Biomechanical Engineering, vol. 143, American Society of Mechanical Engineers, 2021, p. 051011.

BibTeX Click to copy

@article{ghorbanniahassankiadeh2021a,
  title = {Correlation of computational instantaneous wave-free ratio with fractional flow reserve for intermediate multivessel coronary disease},
  year = {2021},
  journal = {Journal of biomechanical engineering},
  pages = {051011},
  publisher = {American Society of Mechanical Engineers},
  volume = {143},
  author = {Ghorbanniahassankiadeh, Arash and Marks, David S and LaDisa Jr, John F}
}