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Excretory System

Excretory System. Excretion, kidneys, and urine…. Excretory System. EXCRETION : is the process that rids body of metabolic wates . MAIN PARTS: Kidneys Ureter Urethra renal veins/ arteries bladder. Kidneys. Main Parts: Cortex (outer layer) Medulla (middle)

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Excretory System

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  1. Excretory System Excretion, kidneys, and urine….

  2. Excretory System • EXCRETION: is the process that rids body of metabolic wates. • MAIN PARTS: • Kidneys • Ureter • Urethra • renal veins/ arteries • bladder

  3. Kidneys Main Parts: • Cortex (outer layer) • Medulla (middle) • Renal pyramids (collections of nephrons) • Nephrons are filtering parts • Pelvis (inner) • Urine produced and collected here • Leaves via ureter

  4. Nephrons • functional units of the kidney. • They filter wastes from the blood and retain water and other needed materials. • There are about 1 million nephrons per kidney. • Urine formation occurs in the nephron.

  5. Urine Formation • Pressure Filtration: • Molecules forced through glomerulus • Selective Reabsorption: • Occurs in proximal convoluted tubule (Na+, Cl-, H20) • Molecules selected by size • Tubular Excretion: • Distal convoluted tubule

  6. Pressure Filtration • high blood pressure in GLOMERULUS (~60mm Hg) forces small molecules [*H2O, nitrogenous wastes, *nutrients, *ions (salts)] into BOWMAN'S CAPSULE. • large molecules are unable to pass (i.e. blood cells, platelets, proteins) and leave the glomerulus via EFFERENT ARTERIOLE • the small, filterable molecules that are forced into Bowman's capsule form FILTRATE. • high blood pressure is necessary for filtration This is accomplished through the functioning of the juxtaglomerular apparatus and will, if necessary, release RENIN to increase blood pressure. • People with kidney disease often have high blood pressure because their juxtaglomerular apparatus is constantly releasing renin.

  7. Selective Reabsorption • reabsorb molecules needed by the body (e.g. water, nutrients, some salts). • molecules move from proximal convoluted tubule to the peritubular capillary network and back into blood • non-reabsorbed material continues through Loop of Henle • ACTIVE Reabsorption: requires ATP and carrier molecule (e.g. glucose, Na+) • PASSIVE Reabsorption:e.g. Cl-, water • Tubular fluid now enters the LOOP OF HENLE • primary role of Loop of Henle is REABSORPTION OF WATER. Over 99% of the water in original filtrate is reabsorbed by the nephron during urine formation. • this CONCENTRATESthe urine, allowing it to be HYPERTONIC to plasma

  8. Tubular Excretion • ACTIVE PROCESS by which non-filterable wastes can be added to the tubular fluid to be excreted in urine. • Occurs in the DISTAL CONVOLUTED TUBULE: secreted substances include: some chemicals (e.g. penicillin, histamine) H+ ions, NH3 • fluid now enters COLLECTING DUCT • in cortex, fluid in duct is ISOTONIC to the surrounding cells (therefore, there is no net movement of water) • in medulla, fluid is HYPOTONIC to cells of medulla therefore H2O passively diffuses out of collecting duct • The tubular fluid, which we can now call URINE passes from duct into pelvis of kidney, and enters ureter for transport to bladder.

  9. Regulatory Functions of Kidneys Antidiuretic Hormone (ADH) Aldosterone hormone released by ADRENALCORTEX (adrenal glands sit on top of kidneys). Aldosterone acts on kidney to RETAIN Na+ and EXCRETE K+. concentration of sodium in blood regulates secretion of aldosterone [Na+] in blood important to kidneys ability to reabsorb H2O if [Na+] in blood too low, too little H2O is reabsorbed, results in HYPOTENSION. if [Na+] in blood too high, results in HYPERTENSION • released by pituitary gland • promotes reabsorption of water from collecting duct and distal convoluted tubule Here is how ADH does it’s job: • cells in hypothalamus detect low H2O content of blood • ADH released into blood, acts on DISTAL CONVOLUTED TUBULE and COLLECTING DUCT • more H2O reabsorbed, volume of urinedecreases • blood volume increases • as blood becomes more dilute, hypothalamus stops ADH secretion

  10. Kidneys and blood pH • kidneys help maintain blood pH • nephrons vary the amount of H+ and NH3 that they excrete and the amount of HCO3- and Na+ they reabsorb. • if blood acidic, more H+ and ammonia excreted, and more sodium bicarbonate is reabsorbed to neutralize adic • Na+HCO3- + HOH -----> H2CO3 + NaOH (strong base) • if blood alkaline - less H+ excreted, less Na+ and HCO3- reabsorbed • Reabsorption and excretion of ions (e.g. K+, Mg++) by kidneys also maintains properELECTROLYTE BALANCE of blood.

  11. Kidney Disease KIDNEY TRANSPLANT - one kidney is enough for normal functioning, so it is possible to donate one kidney and live. • requires living or recently deceased donor • organ rejection a problem: - ~10% for non-relative donors, only ~3% rejection rate for relatives. DIALYSIS • kidney machine: when no available donors, a machine is used to filter the patients blood. • continuous ambulatory peritoneal dialysis (CAPD): allows dialysis away from hospitals. • both utilise semi-permeable membrane that allows molecules to diffuse across it according to concentration gradients

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