Excretion

1. Excretion

2. The process by which the body rids itself of metabolic wastes • Lungs eliminate carbon dioxide • Large intestine eliminates toxic digestive waste

4. 3. Liver deaminates amino acids to form ammonia (NH3)

6. -Ammonia is toxic so it is converted into urea. -Nucleic acids break down into uric acid.

7. 4. Kidneys-remove urea and uric acid

8. The Urinary System • Two kidneys • Ureters – tubes from kidney to bladder • Bladder – stores urine • Urethra – from bladder to exterior

9. The Kidneys • Function: to remove metabolic wastes from blood • Also regulate pH and water balance of blood

10. The Nephron • Microscopic filters – 1 million in each kidney!

12. Each kidney has 3 regions: • Cortex – outermost • Contains most parts of nephrons

13. 2) The medulla: middle region • Contains loops of Henle, collecting ducts of nephrons

14. 3)The renal pelvis: the mostly hollow innermost region • Collecting ducts merge to form ureter

15. The Urinary System • Ureters have muscular walls – peristalsis • About 25 cm long

16. The Urinary System • The urinary bladder – holds up to 600 mL

17. Urinary System • Urethra is longer in males (20 cm vs. 4 cm)– thus less infections get to bladder

18. The Urinary System • Micturition: the voluntary release of sphincters controlling the urine output from bladder • Also aided by contraction of bladder wall

19. Formation of Urine • done by the nephrons • three stages: filtration, absorption and secretion.

20. Filtration • High blood pressure in the glomerulus forces small molecules out of the blood and into Bowman’s Capsule • Water, ions like Na+, Cl- and H+, amino acids, urea and glucose can pass into Bowman’s capsule

21. Filtration • Red blood cells, white blood cells and platelets can not move into Bowman’s capsule. • (If they do it is a sign that something is wrong.)

23. Filtration • About 45 gallons (180 L ) per day passes through Bowman’s capsule. • But only 1-2 L of urine is formed so what happens next?

24. Reabsorption • Essential nutrients and water are reabsorbed into the blood stream and distributed to the body. • main site: proximal convoluted tubule • also occurs in the loop of Henle, distal tubule and collecting ducts

26. Reabsorption • Na+ is moved back into the blood by active transport- requires energy • Negative ions like Cl- will follow the Na+ due to charge attraction • Glucose and amino acids are also reabsorbed by active transport

28. Active transport may form vesicles

29. Reabsorption • The movement of solutes back into the blood creates an osmotic gradient so that water also moves into the blood by osmosis.

30. Secretion Secretion – actively transporting materials back into urine from the blood. Ex) nitrogenous waste, water • Occurs in the proximal and distal tubules.

32. Proximal tubule secretes H+ which helps maintain pH balance Blood is neutral and H+ makes it acidic so it must be removed. Secretion

33. Secretion • Other things secreted include ammonia, potassium ions, penicillin, histamines, creatine, etc. Histamine release from a WBC Penicillin capsules

34. Hormonal Control 1) Aldosteroneis secreted from the cortex of the adrenal glands when blood pressure is low.

35. Hormonal Control • Low B.P is monitored by kidneys (juxtaglomerular complex)

36. Hormonal Control • Aldosterone causes the DCT and collecting ducts to increase Na+ transport into blood • Chloride ions and water follow passively

37. Hormonal Control • Net result: Blood pressure increases and urine output decreases

38. Hormonal Control 2) Antidiuretic Hormone (ADH) • Produced by hypothalamus, stored in posterior pituitary gland

39. Hormonal Control • Hypothalamus monitors water content of blood (osmoreceptors) • When the body is dehydrated, ADH is released.

40. Hormonal Control • ADH makes the nephron more permeable to water so more water is reabsorbed into the blood. • As a result, the urine becomes more concentrated. • When the body is well hydrated, the hypothalamus does not release ADH

41. Diuretics like alcohol and caffeine inhibit ADH production • So urine output increases

42. Diabetes Mellitis • inadequate secretion of insulin • without insulin, blood glucose levels are extremely high, and excess glucose remains in the nephron.

43. The high osmotic gradient prevents water re-absorption and increases urine production. • Sugar is found in the urine

44. Diabetes Insipidus • lack of ADH production • urine output increases up to 20L/day • no sugar in urine

45. Nephritis • inflammation of the nephrons • Protein in the urine is a common symptom • The osmotic gradient also causes an increase in urine production. • Nephritis can lead to irreversible kidney damage and eventual kidney failure.

46. Dialysis Hemodialysis • Artificial kidney machine connects to a vein and pumps blood through semipermeable tubes submerged in a solution to remove waste

47. Dialysis • Peritoneal dialysis-a catheter is inserted through abdominal lining. • Fluid is injected to collect waste and is drained

49. Kidney Stones • Crystallized oxalic acid and/or calcium and/or phosphate • Painful!

50. Kidney Stones Treatment: • Surgical removal • Drugs to dissolve • Lithotripsy-shock waves