Colburn, T. D., Holdsworth, C. T., Craig, J. C., Hirai, D. M., Montgomery, S., Poole, D. C., . . . Kenney, M. J. (2020). ATP-sensitive K(+) Channel Inhibition in Rats Decreases Kidney and Skeletal Muscle Blood Flow Without Increasing Sympathetic Nerve Discharge. Respir Physiol Neurobiol.
Chicago Stili AlıntıColburn, Trenton D., Clark T. Holdsworth, Jesse C. Craig, Daniel M. Hirai, Shawnee Montgomery, David C. Poole, Timothy I. Musch, ve Michael J. Kenney. "ATP-sensitive K(+) Channel Inhibition in Rats Decreases Kidney and Skeletal Muscle Blood Flow Without Increasing Sympathetic Nerve Discharge." Respir Physiol Neurobiol 2020.
MLA AlıntıColburn, Trenton D., et al. "ATP-sensitive K(+) Channel Inhibition in Rats Decreases Kidney and Skeletal Muscle Blood Flow Without Increasing Sympathetic Nerve Discharge." Respir Physiol Neurobiol 2020.