M. S. ÖZTÜRK Et Al. , "Intravital mesoscopic fluorescence molecular tomography allows non-invasive in vivo monitoring and quantification of breast cancer growth dynamics," COMMUNICATIONS BIOLOGY , vol.4, no.1, 2021
ÖZTÜRK, M. S. Et Al. 2021. Intravital mesoscopic fluorescence molecular tomography allows non-invasive in vivo monitoring and quantification of breast cancer growth dynamics. COMMUNICATIONS BIOLOGY , vol.4, no.1 .
ÖZTÜRK, M. S., Montero, M. G., Wang, L., Chaible, L. M., Jechlinger, M., & Prevedel, R., (2021). Intravital mesoscopic fluorescence molecular tomography allows non-invasive in vivo monitoring and quantification of breast cancer growth dynamics. COMMUNICATIONS BIOLOGY , vol.4, no.1.
ÖZTÜRK, MEHMET Et Al. "Intravital mesoscopic fluorescence molecular tomography allows non-invasive in vivo monitoring and quantification of breast cancer growth dynamics," COMMUNICATIONS BIOLOGY , vol.4, no.1, 2021
ÖZTÜRK, MEHMET S. Et Al. "Intravital mesoscopic fluorescence molecular tomography allows non-invasive in vivo monitoring and quantification of breast cancer growth dynamics." COMMUNICATIONS BIOLOGY , vol.4, no.1, 2021
ÖZTÜRK, M. S. Et Al. (2021) . "Intravital mesoscopic fluorescence molecular tomography allows non-invasive in vivo monitoring and quantification of breast cancer growth dynamics." COMMUNICATIONS BIOLOGY , vol.4, no.1.
@article{article, author={MEHMET SAADEDDİN ÖZTÜRK Et Al. }, title={Intravital mesoscopic fluorescence molecular tomography allows non-invasive in vivo monitoring and quantification of breast cancer growth dynamics}, journal={COMMUNICATIONS BIOLOGY}, year=2021}