Excretion & Waste Management Review

1. Excretion & Waste Management Review

2. B11-4-01 • Identify the primary metabolic wastes produced in the human body and the source of each

3. B11-4-01

4. B11-4-02 • Describe the roles of the major excretory structures in eliminating wastes and helping the body maintain homeostasis

5. B11-4-02 • Skin • Salts & N-based wastes • Lungs • CO2 • Liver/Kidneys (team) • Liver converts poisons & toxins into a form that can be excreted by the kidneys • E.g. Ammonia  urea • Excretion helps remove wastes & maintain the composition of internal fluids this is important because the body is ~60% water

6. B11-4-03 • Describe the important role of the liver in the process of excretion and the maintenance of homeostasis

7. B11-4-03 • Converts toxic ammonia (made from the breakdown of proteins and other nitrogenous compounds) into urea • Urea may be excreted • Recycles red blood cells (hemoglobin is reused & bililrubin is excreted) • Detoxifies the blood • Detoxifies drugs & alcohol after digested, but before they reach the rest of the body & cause harm

8. B11-4-04 • Identify structures of the human urinary system from a diagram, model or specimen, and describe the function of each.

9. B11-4-04

10. B11-4-04 Renal artery

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12. B11-4-04 Fibrous Capsule

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14. B11-4-04 Medulla

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16. B11-4-04 Renal Pelvis

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18. B11-4-04 Renal Column

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20. B11-4-04 Renal Pyramid

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22. B11-4-04 Renal Cortex

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24. B11-4-04 Renal Papilla

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26. B11-4-04 Ureter

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28. B11-4-04 Kidney

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30. B11-4-04 Ureter

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32. B11-4-04 Urinary Bladder

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34. B11-4-04 Renal artery

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36. B11-4-04 Renal Vein

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38. B11-4-04 Dorsal Aorta

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40. B11-4-04 Inferior Vena Cava

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42. B11-4-04 Proximal Convoluted Tubule Glomerulus Bowman’s Capsule Distal Convoluted Tubule Descending Loop of Henle Ascending Loop of Henle Collecting Duct

43. B11-4-05 • Explain the processes of filtration, reabsorption and secretion in the nephron

44. B11-4-05 • Filtration • Passage of substances from the glomerulus into Bowman’s capsule • Process is driven by the filtering effect • Filtrate contains sugar, salt, water & wastes • Passive transport  down concentration gradient

45. B11-4-05 • Reabsorption • In the PCT & descending loop of henle • Glucose, amino acids, salts and water are reabsorbed • Salts & ions are pumped out of the tubule by active transport  drives water reabsorption due to osmosis • This water is then reabsorbed into the capillaries  back into the body

46. B11-4-05 • Secretion • Ascending loop of henle & DCT • Movement of wastes from the blood (body) into the nephron by active transport • E.g. Drugs, Hydrogen ions & Nitrogenous wastes

47. B11-4-06 • Describe the feedback mechanisms associated with water and salt balance and their role in the maintenance of homeostasis in the human body

48. B11-4-06 • ADH • Controls water reabsorption by altering tubule permeability • More is released when water levels are low  increase tubule permeability  increase water reabsorption  concentrated urine • Aldosterone • Controls blood pressure by altering nephron reabsorption of salt • Release = increase in blood pressure due to an increase in water reabsorption

49. B11-4-07 • Describe what types of information can be gained through urinalysis.

50. B11-4-07 • Urinalysis can determine: • Diabetes • High blood pressure • Urinary tract infection • Nephritis • Decrease in kidney function in general