Cite
Relating Macroscopic PET Radiomics Features to Microscopic Tumor Phenotypes Using a Stochastic Mathematical Model of Cellular Metabolism and Proliferation.
MLA
Ahn, Hailey S. H., et al. “Relating Macroscopic PET Radiomics Features to Microscopic Tumor Phenotypes Using a Stochastic Mathematical Model of Cellular Metabolism and Proliferation.” Cancers, vol. 16, no. 12, June 2024, p. 2215. EBSCOhost, https://doi.org/10.3390/cancers16122215.
APA
Ahn, H. S. H., Oloumi Yazdi, Y., Wadsworth, B. J., Bennewith, K. L., Rahmim, A., & Klyuzhin, I. S. (2024). Relating Macroscopic PET Radiomics Features to Microscopic Tumor Phenotypes Using a Stochastic Mathematical Model of Cellular Metabolism and Proliferation. Cancers, 16(12), 2215. https://doi.org/10.3390/cancers16122215
Chicago
Ahn, Hailey S. H., Yas Oloumi Yazdi, Brennan J. Wadsworth, Kevin L. Bennewith, Arman Rahmim, and Ivan S. Klyuzhin. 2024. “Relating Macroscopic PET Radiomics Features to Microscopic Tumor Phenotypes Using a Stochastic Mathematical Model of Cellular Metabolism and Proliferation.” Cancers 16 (12): 2215. doi:10.3390/cancers16122215.