TASKIRAN-SAG, A. Et Al. 2018. Improving Microcirculatory Reperfusion Reduces Parenchymal Oxygen Radical Formation and Provides Neuroprotection.. Stroke , vol.49, no.5 , 1267-1275.

TASKIRAN-SAG, A., YEMISCI, M., GURSOY-OZDEMIR, Y., ERDENER, Ş. E., KARATAS, H., YÜCE, D., ... DALKARA, T.(2018). Improving Microcirculatory Reperfusion Reduces Parenchymal Oxygen Radical Formation and Provides Neuroprotection.. Stroke , vol.49, no.5, 1267-1275.

TASKIRAN-SAG, ASLIHAN Et Al. "Improving Microcirculatory Reperfusion Reduces Parenchymal Oxygen Radical Formation and Provides Neuroprotection.," Stroke , vol.49, no.5, 1267-1275, 2018

TASKIRAN-SAG, ASLIHAN T. Et Al. "Improving Microcirculatory Reperfusion Reduces Parenchymal Oxygen Radical Formation and Provides Neuroprotection.." Stroke , vol.49, no.5, pp.1267-1275, 2018

TASKIRAN-SAG, A. Et Al. (2018) . "Improving Microcirculatory Reperfusion Reduces Parenchymal Oxygen Radical Formation and Provides Neuroprotection.." Stroke , vol.49, no.5, pp.1267-1275.

@article{article, author={ASLIHAN TAŞKIRAN SAĞ Et Al. }, title={Improving Microcirculatory Reperfusion Reduces Parenchymal Oxygen Radical Formation and Provides Neuroprotection.}, journal={Stroke}, year=2018, pages={1267-1275} }