Ischemic renal injury: can renal anatomy and associated vascular congestion explain why the medulla and not the cortex is where the trouble starts?
SC Ray, J Mason, PM O'Connor - Seminars in nephrology, 2019 - Elsevier
The kidneys receive approximately 20% of cardiac output and have a low fractional oxygen
extraction. Quite paradoxically, however, the kidneys are highly susceptible to ischemic …
extraction. Quite paradoxically, however, the kidneys are highly susceptible to ischemic …
[引用][C] Ischemic Renal Injury: Can Renal Anatomy and Associated Vascular Congestion Explain Why the Medulla and Not the Cortex Is Where the Trouble Starts?
SC Ray, J Mason, PM O'Connor - Seminars in Nephrology, 2019 - cir.nii.ac.jp
Ischemic Renal Injury: Can Renal Anatomy and Associated Vascular Congestion Explain Why
the Medulla and Not the Cortex Is Where the Trouble Starts? | CiNii Research CiNii 国立情報学 …
the Medulla and Not the Cortex Is Where the Trouble Starts? | CiNii Research CiNii 国立情報学 …
Ischemic Renal Injury: Can Renal Anatomy and Associated Vascular Congestion Explain Why the Medulla and Not the Cortex Is Where the Trouble Starts?
SC Ray, J Mason, PM O'Connor - Seminars in …, 2019 - augusta.elsevierpure.com
The kidneys receive approximately 20% of cardiac output and have a low fractional oxygen
extraction. Quite paradoxically, however, the kidneys are highly susceptible to ischemic …
extraction. Quite paradoxically, however, the kidneys are highly susceptible to ischemic …
Ischemic Renal Injury: Can Renal Anatomy and Associated Vascular Congestion Explain Why the Medulla and Not the Cortex Is Where the Trouble Starts?
SC Ray, J Mason, PM O'Connor - Seminars in Nephrology, 2019 - europepmc.org
The kidneys receive approximately 20% of cardiac output and have a low fractional oxygen
extraction. Quite paradoxically, however, the kidneys are highly susceptible to ischemic …
extraction. Quite paradoxically, however, the kidneys are highly susceptible to ischemic …
Ischemic Renal Injury: Can Renal Anatomy and Associated Vascular Congestion Explain Why the Medulla and Not the Cortex Is Where the Trouble Starts?
SC Ray, J Mason, PM O'Connor - Seminars in …, 2019 - epub.ub.uni-muenchen.de
The kidneys receive approximately 20% of cardiac output and have a low fractional oxygen
extraction. Quite paradoxically, however, the kidneys are highly susceptible to ischemic …
extraction. Quite paradoxically, however, the kidneys are highly susceptible to ischemic …
Ischemic Renal Injury: Can Renal Anatomy and Associated Vascular Congestion Explain Why the Medulla and Not the Cortex Is Where the Trouble Starts?
SC Ray, J Mason, PM O'Connor - Seminars in …, 2019 - seminarsinnephrology.org
The kidneys receive approximately 20% of cardiac output and have a low fractional oxygen
extraction. Quite paradoxically, however, the kidneys are highly susceptible to ischemic …
extraction. Quite paradoxically, however, the kidneys are highly susceptible to ischemic …
Ischemic Renal Injury: Can Renal Anatomy and Associated Vascular Congestion Explain Why the Medulla and Not the Cortex Is Where the Trouble Starts?
SC Ray, J Mason, PM O'Connor - Seminars in nephrology, 2019 - pubmed.ncbi.nlm.nih.gov
The kidneys receive approximately 20% of cardiac output and have a low fractional oxygen
extraction. Quite paradoxically, however, the kidneys are highly susceptible to ischemic …
extraction. Quite paradoxically, however, the kidneys are highly susceptible to ischemic …