The role of cell swelling in ischemic renal damage and the protective effect of hypertonic solute

J Flores, DR DiBona, CH Beck… - The Journal of clinical …, 1972 - Am Soc Clin Investig
J Flores, DR DiBona, CH Beck, A Leaf
The Journal of clinical investigation, 1972Am Soc Clin Investig
The failure of blood flow to return to the kidney following a transient period of ischemia has
long been recognized. The cause of this “no-reflow” has been investigated in the rat after a
transient period of total obstruction of the renal arteries. The vascular pattern of the kidneys
as visualized with silicone rubber injection shows a diffuse patchy ischemia throughout the
kidney, which persists after release of the obstructed renal artery. Electron microscopic
studies of ischemic kidneys showed that all cellular elements were swollen and limiting the …
The failure of blood flow to return to the kidney following a transient period of ischemia has long been recognized. The cause of this “no-reflow” has been investigated in the rat after a transient period of total obstruction of the renal arteries. The vascular pattern of the kidneys as visualized with silicone rubber injection shows a diffuse patchy ischemia throughout the kidney, which persists after release of the obstructed renal artery. Electron microscopic studies of ischemic kidneys showed that all cellular elements were swollen and limiting the available vascular space. Functional studies revealed an increase in plasma urea nitrogen and creatinine after 1 hr or longer ischemic periods. The ischemia, cell swelling, “no-reflow,” and subsequent renal dysfunction occurring after obstruction to the renal arteries were corrected by the administration of hypertonic mannitol, but were unaffected by an equivalent expansion of the extracellular fluid volume either with isotonic saline or isotonic mannitol, showing that the osmotic effect was primary. The hypothesis is presented that ischemic swelling of cells may occlude small blood vessels so that recirculation does not resume even after the initial cause of the ischemia is no longer present; solutes which do not penetrate cell membranes are able to shrink swollen cells, increase the available vascular space and thus permit reflow of blood to the ischemic organ.
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The Journal of Clinical Investigation