ÜLKER, P. Et Al. 2013. Nitric oxide generated by red blood cells following exposure to shear stress dilates isolated small mesenteric arteries under hypoxic conditions. CLINICAL HEMORHEOLOGY AND MICROCIRCULATION , vol.54, no.4 , 357-369.

ÜLKER, P., Gunduz, F., Meiselman, H. J., & Baskurt, O. K., (2013). Nitric oxide generated by red blood cells following exposure to shear stress dilates isolated small mesenteric arteries under hypoxic conditions. CLINICAL HEMORHEOLOGY AND MICROCIRCULATION , vol.54, no.4, 357-369.

ÜLKER, PINAR Et Al. "Nitric oxide generated by red blood cells following exposure to shear stress dilates isolated small mesenteric arteries under hypoxic conditions," CLINICAL HEMORHEOLOGY AND MICROCIRCULATION , vol.54, no.4, 357-369, 2013

ÜLKER, PINAR Et Al. "Nitric oxide generated by red blood cells following exposure to shear stress dilates isolated small mesenteric arteries under hypoxic conditions." CLINICAL HEMORHEOLOGY AND MICROCIRCULATION , vol.54, no.4, pp.357-369, 2013

ÜLKER, P. Et Al. (2013) . "Nitric oxide generated by red blood cells following exposure to shear stress dilates isolated small mesenteric arteries under hypoxic conditions." CLINICAL HEMORHEOLOGY AND MICROCIRCULATION , vol.54, no.4, pp.357-369.

@article{article, author={PINAR ÜLKER Et Al. }, title={Nitric oxide generated by red blood cells following exposure to shear stress dilates isolated small mesenteric arteries under hypoxic conditions}, journal={CLINICAL HEMORHEOLOGY AND MICROCIRCULATION}, year=2013, pages={357-369} }