Understanding ER+ Breast Cancer Dormancy Using Bioinspired Synthetic Matrices for Long-Term 3D Culture and Insights into Late Recurrence.

MLA

Ovadia, Elisa M., et al. “Understanding ER+ Breast Cancer Dormancy Using Bioinspired Synthetic Matrices for Long-Term 3D Culture and Insights into Late Recurrence.” Advanced Biosystems, vol. 4, no. 9, Sept. 2020, p. e2000119. EBSCOhost, https://doi.org/10.1002/adbi.202000119.

APA

Ovadia, E. M., Pradhan, L., Sawicki, L. A., Cowart, J. E., Huber, R. E., Polson, S. W., Chen, C., van Golen, K. L., Ross, K. E., Wu, C. H., & Kloxin, A. M. (2020). Understanding ER+ Breast Cancer Dormancy Using Bioinspired Synthetic Matrices for Long-Term 3D Culture and Insights into Late Recurrence. Advanced Biosystems, 4(9), e2000119. https://doi.org/10.1002/adbi.202000119

Chicago

Ovadia, Elisa M, Lina Pradhan, Lisa A Sawicki, Julie E Cowart, Rebecca E Huber, Shawn W Polson, Chuming Chen, et al. 2020. “Understanding ER+ Breast Cancer Dormancy Using Bioinspired Synthetic Matrices for Long-Term 3D Culture and Insights into Late Recurrence.” Advanced Biosystems 4 (9): e2000119. doi:10.1002/adbi.202000119.