LADIKOU, Eleni E., SHARP, Kim, SIMOES, Fabio A., JONES, John, BURLEY, Thomas, STOTT, Lauren, VARELI, Aimilia, KENNEDY, Emma, VAUSE, Sophie, CHEVASSUT, Timothy, DEVI, Amarpreet, ASHWORTH, Iona, ROSS, David M., HARTMANN, Tanja, MITCHELL, Simon A., PEPPER, Chris J., BEST, Giles und PEPPER, Andrea G. S., 2025. A novel in vitro model of the bone marrow microenvironment in acute myeloid leukemia identifies CD44 and focal adhesion kinase as therapeutic targets to reverse cell adhesion-mediated drug resistance. Freiburg: Universität.

Ladikou, E.E., Sharp, K., Simoes, F.A., Jones, J., Burley, T., Stott, L., Vareli, A., Kennedy, E., Vause, S., Chevassut, T., Devi, A., Ashworth, I., Ross, D.M., Hartmann, T., Mitchell, S.A., Pepper, C.J., Best, G., Pepper, A.G.S., 2025. A novel in vitro model of the bone marrow microenvironment in acute myeloid leukemia identifies CD44 and focal adhesion kinase as therapeutic targets to reverse cell adhesion-mediated drug resistance. Universität, Freiburg. https://doi.org/10.3390/cancers17010135

Ladikou, E. E., Sharp, K., Simoes, F. A., Jones, J., Burley, T., Stott, L., Vareli, A., Kennedy, E., Vause, S., Chevassut, T., Devi, A., Ashworth, I., Ross, D. M., Hartmann, T., Mitchell, S. A., Pepper, C. J., Best, G., & Pepper, A. G. S. (ca. 2025). A novel in vitro model of the bone marrow microenvironment in acute myeloid leukemia identifies CD44 and focal adhesion kinase as therapeutic targets to reverse cell adhesion-mediated drug resistance [Cd]. Universität. https://doi.org/10.3390/cancers17010135

Ladikou EE, Sharp K, Simoes FA, Jones J, Burley T, Stott L, Vareli A, Kennedy E, Vause S, Chevassut T, Devi A, Ashworth I, Ross DM, Hartmann T, Mitchell SA, Pepper CJ, Best G, Pepper AGS (2025) A novel in vitro model of the bone marrow microenvironment in acute myeloid leukemia identifies CD44 and focal adhesion kinase as therapeutic targets to reverse cell adhesion-mediated drug resistance. Universität, Freiburg

Ladikou, Eleni E./ Sharp, Kim/ Simoes, Fabio A./ Jones, John/ Burley, Thomas/ Stott, Lauren/ Vareli, Aimilia/ Kennedy, Emma/ Vause, Sophie/ Chevassut, Timothy/ Devi, Amarpreet/ Ashworth, Iona/ Ross, David M./ Hartmann, Tanja/ Mitchell, Simon A./ Pepper, Chris J./ Best, Giles/ Pepper, Andrea G. S., A novel in vitro model of the bone marrow microenvironment in acute myeloid leukemia identifies CD44 and focal adhesion kinase as therapeutic targets to reverse cell adhesion-mediated drug resistance, Freiburg 2025.