Cite
Computational fluid dynamics simulate optimal design of segmental arteries reattachment: Influence of blood flow stagnationCentral MessagePerspective
MLA
Yuki Ikeno, Md, PhD, et al. “Computational Fluid Dynamics Simulate Optimal Design of Segmental Arteries Reattachment: Influence of Blood Flow StagnationCentral MessagePerspective.” JTCVS Open, vol. 15, no. 61–71, Sept. 2023, pp. 61–71. EBSCOhost, https://doi.org/10.1016/j.xjon.2023.07.008.
APA
Yuki Ikeno, M., PhD, Yoshishige Takayama, Me., Michael L. Williams, M., Yujiro Kawaniashi, M., PhD, & Paul Jansz, M., PhD. (2023). Computational fluid dynamics simulate optimal design of segmental arteries reattachment: Influence of blood flow stagnationCentral MessagePerspective. JTCVS Open, 15(61–71), 61–71. https://doi.org/10.1016/j.xjon.2023.07.008
Chicago
Yuki Ikeno, Md, PhD, Meng Yoshishige Takayama, Md Michael L. Williams, Md Yujiro Kawaniashi PhD, and Md Paul Jansz PhD. 2023. “Computational Fluid Dynamics Simulate Optimal Design of Segmental Arteries Reattachment: Influence of Blood Flow StagnationCentral MessagePerspective.” JTCVS Open 15 (61–71): 61–71. doi:10.1016/j.xjon.2023.07.008.