Shenoy Beloor, G.; Pai Ballambat, R.; Mathias, K.A.; Zuber, M.; Mallashetty Shivamallaiah, M.; Attur, R.P.; Rangaswamy, D.; Koteshwar, P.; Tamagawa, M.; Khader, S.M.A.
Computational Assessment of Shear Stress-Driven Flow Alterations at the Renal Artery Origin Under Varying Pressure Conditions. Computation 2026, 14, 85.
https://doi.org/10.3390/computation14040085
AMA Style
Shenoy Beloor G, Pai Ballambat R, Mathias KA, Zuber M, Mallashetty Shivamallaiah M, Attur RP, Rangaswamy D, Koteshwar P, Tamagawa M, Khader SMA.
Computational Assessment of Shear Stress-Driven Flow Alterations at the Renal Artery Origin Under Varying Pressure Conditions. Computation. 2026; 14(4):85.
https://doi.org/10.3390/computation14040085
Chicago/Turabian Style
Shenoy Beloor, Gowrava, Raghuvir Pai Ballambat, Kevin Amith Mathias, Mohammad Zuber, Manjunath Mallashetty Shivamallaiah, Ravindra Prabhu Attur, Dharshan Rangaswamy, Prakashini Koteshwar, Masaaki Tamagawa, and Shah Mohammed Abdul Khader.
2026. "Computational Assessment of Shear Stress-Driven Flow Alterations at the Renal Artery Origin Under Varying Pressure Conditions" Computation 14, no. 4: 85.
https://doi.org/10.3390/computation14040085
APA Style
Shenoy Beloor, G., Pai Ballambat, R., Mathias, K. A., Zuber, M., Mallashetty Shivamallaiah, M., Attur, R. P., Rangaswamy, D., Koteshwar, P., Tamagawa, M., & Khader, S. M. A.
(2026). Computational Assessment of Shear Stress-Driven Flow Alterations at the Renal Artery Origin Under Varying Pressure Conditions. Computation, 14(4), 85.
https://doi.org/10.3390/computation14040085
