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Mechanisms of regulation of fluid volume through kidney
- 1. Mechanisms Of Regulation Of Fluid Volume Through Kidney
- 2. Mechanisms Of Regulation Of Fluid Volume Through Kidney One way the kidneys can directly control the volume of bodily fluids is by the amount of water excreted in the urine. Either the kidneys can conserve water by producing urine that is concentrated relative to plasma, or they can rid the body of excess water by producing urine that is dilute relative to plasma.
- 4. Mechanisms Of Regulation Of Fluid Volume Through Kidney The major hormones regulating body fluids are ADH, aldosterone and ANH. Mechanisms for controlling Na+ concentration in the blood include the renin angiotensin aldosterone system and ADH. When Na+ is retained, K+ is excreted; when Na+ is lost, K+ is retained.
- 5. Hormonal Control Of Tubular Reabsorption
- 6. Mechanisms Of Regulation Of Fluid Volume Through Kidney Filtration: Glomerular capillaries Bowman’s capsule. Secretion: Peritubular capillaries tubular fluid. Reabsorption: Tubular fluid peritubular capillaries. Excretion = Filtration + Secretion – Reabsorption.
- 7. Reabsorption And Secretion Facilitated diffusion. Osmosis. Active transport. Co transport. Counter transport.
- 8. Reabsorption Of Sodium Of the sodium filtered ~99.5% is reabsorbed, 0.5% excreted. Sodium reabsorption: ~70% from proximal tubule. ~20% from ascending limb of loop of Henle. ~5% from distal tubule. 3-5% from collecting duct (regulated by aldosterone & atrial natriuretic peptide- less important).
- 9. Water Transport Transport mechanism: Passive diffusion through aquaporin channels down osmotic gradient. Reabsorption: ~99% of filtered water is reabsorbed. Sites of reabsorption: ~70% from proximal tubule. ~15% from descending limb of loop of Henle. 0% from Henle’s ascending limb & distal tubule. 0-15% from collecting duct depending on plasma ADH level.
- 10. Reabsorption Of Urea Urea is freely filtered. As water is reabsorbed, the tubular urea rises. Urea is passively reabsorbed down its concentration gradient. About half the filtered urea is excreted.
- 11. Potassium Excretion Reabsorption: 1. Proximal tubule. 2. Henle’s ascending limb. Secretion: Collecting duct (regulated process).
- 12. Thick Ascending Limb Of Loop Of Henle Reabsorption: 1. Reabsorption of sodium. 2. Reabsorption of chloride. 3. Reabsorption of potassium. 4. Reabsorption of calcium. 5. Reabsorption of magnesium. 6. Reabsorption of bicarbonate. Secretion: Secretion of hydrogen ions.
- 13. Reabsorption And Secretion At Cortical Collecting Tubule Reabsorption: 1. Reabsorption of water (depends on ADH). 2. Reabsorption of sodium and chloride. Secretion: 1. Secretion of potassium. 2. Secretion of hydrogen ions.
- 14. Reabsorption And Secretion Along The Medullary Collecting Duct Water loss is regulated by ADH. Reabsorption: Sodium ion, bicarbonate, and urea are reabsorbed. Secretion: Secretion of hydrogen ions.
- 15. Role Of ALLH As salt (NaCl) leaves the ALLH, the osmolarity of the tubular fluid decreases. This happens because the ALLH is impermeable to water. The net effect of this is to remove salt from the kidney filtrate and transfer it into the medulla.
- 16. Role Of Urea Medullary collecting duct is permeable to urea. Via passive diffusion urea is transported from medullary collecting tubule to medullary interstitium making it more hyperosmotic.
- 17. Role Of Vasa Recta As blood flows through the vasa recta it picks up water and leaves behind salt. Thus, the vasa recta maintain the hyperosmotic medulla.