K. Yıldızhan Et Al. , "Involvement of TRPM2 Channel on Doxorubicin-Induced Experimental Cardiotoxicity Model: Protective Role of Selenium.," Biological trace element research , vol.201, no.5, pp.2458-2469, 2023
Yıldızhan, K. Et Al. 2023. Involvement of TRPM2 Channel on Doxorubicin-Induced Experimental Cardiotoxicity Model: Protective Role of Selenium.. Biological trace element research , vol.201, no.5 , 2458-2469.
Yıldızhan, K., Huyut, Z., & Altındağ, F., (2023). Involvement of TRPM2 Channel on Doxorubicin-Induced Experimental Cardiotoxicity Model: Protective Role of Selenium.. Biological trace element research , vol.201, no.5, 2458-2469.
Yıldızhan, Kenan, Zübeyir Huyut, And Fikret Altındağ. "Involvement of TRPM2 Channel on Doxorubicin-Induced Experimental Cardiotoxicity Model: Protective Role of Selenium.," Biological trace element research , vol.201, no.5, 2458-2469, 2023
Yıldızhan, Kenan Et Al. "Involvement of TRPM2 Channel on Doxorubicin-Induced Experimental Cardiotoxicity Model: Protective Role of Selenium.." Biological trace element research , vol.201, no.5, pp.2458-2469, 2023
Yıldızhan, K. Huyut, Z. And Altındağ, F. (2023) . "Involvement of TRPM2 Channel on Doxorubicin-Induced Experimental Cardiotoxicity Model: Protective Role of Selenium.." Biological trace element research , vol.201, no.5, pp.2458-2469.
@article{article, author={Kenan Yıldızhan Et Al. }, title={Involvement of TRPM2 Channel on Doxorubicin-Induced Experimental Cardiotoxicity Model: Protective Role of Selenium.}, journal={Biological trace element research}, year=2023, pages={2458-2469} }