Cruz-Ramos, J.A.; Trapero-Corona, M.I.; Valencia-Hernández, I.A.; Gómez-Vargas, L.A.; Toranzo-Delgado, M.T.; Cano-Magaña, K.R.; De la Mora-Jiménez, E.; del Carmen López-Armas, G.
Strain Elastography Fat-to-Lesion Index Is Associated with Mammography BI-RADS Grading, Biopsy, and Molecular Phenotype in Breast Cancer. Biosensors 2024, 14, 94.
https://doi.org/10.3390/bios14020094
AMA Style
Cruz-Ramos JA, Trapero-Corona MI, Valencia-Hernández IA, Gómez-Vargas LA, Toranzo-Delgado MT, Cano-Magaña KR, De la Mora-Jiménez E, del Carmen López-Armas G.
Strain Elastography Fat-to-Lesion Index Is Associated with Mammography BI-RADS Grading, Biopsy, and Molecular Phenotype in Breast Cancer. Biosensors. 2024; 14(2):94.
https://doi.org/10.3390/bios14020094
Chicago/Turabian Style
Cruz-Ramos, José Alfonso, MijaÃl Irak Trapero-Corona, Ingrid Aurora Valencia-Hernández, Luz Amparo Gómez-Vargas, MarÃa Teresa Toranzo-Delgado, Karla Raquel Cano-Magaña, Emmanuel De la Mora-Jiménez, and Gabriela del Carmen López-Armas.
2024. "Strain Elastography Fat-to-Lesion Index Is Associated with Mammography BI-RADS Grading, Biopsy, and Molecular Phenotype in Breast Cancer" Biosensors 14, no. 2: 94.
https://doi.org/10.3390/bios14020094
APA Style
Cruz-Ramos, J. A., Trapero-Corona, M. I., Valencia-Hernández, I. A., Gómez-Vargas, L. A., Toranzo-Delgado, M. T., Cano-Magaña, K. R., De la Mora-Jiménez, E., & del Carmen López-Armas, G.
(2024). Strain Elastography Fat-to-Lesion Index Is Associated with Mammography BI-RADS Grading, Biopsy, and Molecular Phenotype in Breast Cancer. Biosensors, 14(2), 94.
https://doi.org/10.3390/bios14020094