Counter current multiplication system
The countercurrent multiplying system is a system that enables the formation of a hypertonic medulla with an osmolarity gradient increasing from the cortex to the depth of the renal medulla. In humans, it acts in the medulla of the kidneys, specifically in the part of the nephron called The loop of Henle.
Loop of Henle[edit | edit source]
The loop of Henle consists of a descending limb and an ascending limb that are arranged in parallel. The individual parts of the loop are separated by an interstitium and differ in their permeability.
The descending limb is highly permeable to water but poorly permeable to solutes. On the contrary, the ascending arm is almost impermeable to water, but there is active transport Na+ a Cl- from the tubular fluid to the interstitium.
Mechanism[edit | edit source]
isotonic tubular fluid flows into the descending limb of the loop of Henle. The surrounding interstitium is hypertonic, therefore there is a passive transfer of water from the tubule to the interstitium. Thickening of the tubular fluid occurs
The highest osmotic concentration is reached by the tubular fluid at the top of the loop. Active transport of solutes from the tubular fluid to the interstitium takes place in the ascending branch, which conditions the formation of a hypertonic pulp (water resorption does not occur here). The tubular fluid is gradually diluted and hypoosmotic fluid leaves the loop of Henle.
Meaning[edit | edit source]
Thanks to this arrangement, a strongly hyperosmotic interstitium is created at the top of the loop , which sucks water (in case of opening of aquaporins with ADH) from the distal tubule and the collecting duct. It thus ensures the production of concentrated urine. The longer the loop of Henle (juxtamedullary nephrons in the kidney medulla), the more concentrated urine a given nephron is able to produce.
During the active resorption of solutes from the ascending limb of the loop of Henle, energy is consumed. However, the transport only takes place against a constant small gradient , so the energy consumption is relatively low.
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External links[edit | edit source]
References[edit | edit source]
- SILBERNAGL, Stefan – DESPOPOULOS, Agamemnon. Atlas fyziologie člověka. 3. edition. Praha : Grada, 2004. 448 pp. ISBN 978-80-247-0630-6.
- TROJAN, Stanislav, et al. Lékařská fyziologie. 4. edition. Praha : Grada, 2003. 772 pp. ISBN 80-247-0512-5.
- KITTNAR, Otomar. Lékařská fyziologie. 1. edition. Praha : Grada, 2011. 790 pp. ISBN 978-80-247-3068-4.