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Renal system anatomy and physiology
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If we take a cross-section of the kidney, there are two main parts, the outer cortex and the inner medulla.
If we zoom in, there are millions of tiny functional units called nephrons which go from the outer cortex down into the medulla and back out into the cortex again.
The stuff that gets filtered into the tubule is called the filtrate, and the rest of it leaves the glomerulus through the efferent arteriole.
Now, The renal tubule is a structure with several segments: the proximal convoluted tubule, the U- shaped loop of Henle with a descending and ascending limb and the distal convoluted tubule, which winds and twists back up again, before emptying into the collecting duct, which collects the final urine.
Now, zooming in on this nephron’s tubule, each one’s lined by brush border cells which have two surfaces.
One is the apical surface which faces the tubular lumen and is lined with microvilli, which are tiny little projections that increase the cell’s surface area to help with solute reabsorption.
The other is the basolateral surface, which faces the peritubular capillaries, which run alongside the nephron.
The urine osmolarity is the concentration of urine, and is measured in Osmoles per liter,which is the solute particles that exist in a liter of urine.
To concentrate urine, or increase its osmolarity, nephrons rely on the corticopapillary gradient, which is a concentration gradient that spans from the cortex to the papilla which is the innermost tip of the medulla. In other words there are a lot of solutes in the interstitium with more solutes down here then up here.
Urea recycling is a process in kidneys that involves the reabsorption and secretion of urea several times, which contributes to the high concentration of solutes in the renal medulla and helps to establish and maintain the corticopapillary gradient. This gradient is important for water conservation and urine concentration, allowing the kidney to produce concentrated urine and conserve water.
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