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30.4 The Excretory System

30.4 The Excretory System. It’s a hot day and you gulp down water. As you drink, you begin to wonder. Where’s all that water going? Will it just dilute your blood, or is something in your body making sure that everything stays in balance?. THINK ABOUT IT .

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30.4 The Excretory System

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  1. 30.4 The Excretory System

  2. It’s a hot day and you gulp down water. As you drink, you begin to wonder. Where’s all that water going? Will it just dilute your blood, or is something in your body making sure that everything stays in balance? THINK ABOUT IT

  3. What is the principal role of the structures of the excretory system? Structures of the Excretory System

  4. What is the principal role of the structures of the excretory system? The excretory system, which includes the skin, lungs, liver, and kidneys, excretes metabolic wastes from the body. Structures of the Excretory System

  5. Excretion is the process by which metabolic wastes are eliminated to maintain homeostasis. Structures of the Excretory System

  6. This figure shows the major organs of excretion. The ureters, urinary bladder, and urethra are also involved in excretion. Structures of the Excretory System

  7. Kidney Functions • Regulation of water, electrolyte balance, pH • Removal of waste from blood and excretion of urine. • Secretion of hormones Erythropoietin Renin Vitamin D3

  8. Cortex Glomeruli Medulla Renal tubules (with calyces forming the medulary pyramids) Ureter Takes urine to bladder Blood carried to the kidney by the renal artery and taken away by the renal vein. Cortex Medulla Renal hilum Renal artery Renal vein Renal pelvis Ureter

  9. The skin excretes excess water, salts, and a small amount of urea in sweat. By releasing sweat in very small amounts, this process eliminates wastes even when you may not think you’re sweating. The Lungs

  10. The blood transports carbon dioxide, a waste product of cellular respiration, from the body cells to the lungs. When you exhale, your lungs excrete carbon dioxide and small amounts of water vapor. The Lungs

  11. One of the liver’s main activities is the conversion of nitrogen wastes, a product of protein breakdown, into less toxic urea. Urea is then transported through the blood to the kidneys for elimination from the body. The Liver

  12. The kidneys are a pair of fist-sized organs located on either side of the spinal column near the lower back. Through a complex filtering process, the kidneys remove excess water, urea, and metabolic wastes from the blood. The Kidneys

  13. The kidneys produce and excrete a waste product known as urine. Ureterstransport urine from the kidneys to the urinary bladder, where it is stored until it is released through the urethra. The Kidneys

  14. How do the kidneys clean the blood? Excretion and the Kidneys

  15. How do the kidneys clean the blood? As waste-laden blood enters the kidney through the renal artery, the kidney removes urea, excess water and minerals, and other waste products. Excretion and the Kidneys

  16. The kidneys remove urea, excess water and minerals, and other waste products from blood. The clean, filtered blood leaves a kidney through the renal vein and returns to circulation. Excretion and the Kidneys

  17. Blood is ultrafiltered within Bowman’s capsule

  18. The kidneys remove urea, excess water and minerals, and other waste products from blood. The clean, filtered blood leaves a kidney through the renal vein and returns to circulation. Excretion and the Kidneys

  19. Each kidney contains nearly a million individual processing units called nephrons. Nephronsare where impurities are filtered out, wastes are collected, and purified blood is returned to the circulation. Blood purification in the kidneys involves two distinct processes: filtration and reabsorption.

  20. Passing a liquid or gas through a filter to remove wastes is called filtration. The filtration of blood mainly takes place in the glomerulus. The glomerulus is a small but dense network of capillaries encased in the upper end of the nephron by a hollow, cup-shaped structure called Bowman’scapsule. Filtration

  21. Much of the fluid from the glomerulus capillaries flows into Bowman’s capsule. The material that is filtered from the blood—the filtrate—contains water, urea, glucose, salts, amino acids, and some vitamins. Filtration

  22. Large substances transported in blood, such as proteins and blood cells, are too large to pass through the capillary walls. Filtration

  23. Nearly all of the material removed from the blood at Bowman’s capsule makes its way back into the blood as it flows through the nephron tubules. The process by which water and dissolved substances are taken back into the blood is called reabsorption. Reabsorption

  24. A number of materials, including salts, vitamins, amino acids, fats, and glucose, are removed from the filtrate by active transport and reabsorbed by the capillaries. Water follows these materials by osmosis. In effect, the kidney first throws away nearly everything, and then takes back only what the body needs. Reabsorption

  25. A section of the nephron tubule called the loop of Henle is responsible for conserving water and minimizing the volume of the filtrate. The waste material that remains in the tubule, now called urine, is emptied into a collecting duct. Reabsorption

  26. Functional Unit of the Kidney is the NEPHRON Glomerulus Proximal Tubule Loop of Henle Distal Tubule Collecting Duct

  27. From the collecting ducts, urine flows to the ureter of each kidney. The ureters carry urine to the urinary bladder for storage until it leaves the body through the urethra Urine Excretion

  28. How do the kidneys help maintain homeostasis? The Kidneys and Homeostasis

  29. How do the kidneys help maintain homeostasis? The kidneys respond directly to the composition of the blood. They are also influenced by the endocrine system. Disruption of proper kidney function can lead to serious health problems. The Kidneys and Homeostasis

  30. The activity of the kidneys is controlled by the composition of the blood itself. For example, if you eat salty food, the kidneys will respond to the excess salt levels in your blood by returning less salt to your blood during reabsorption. Control of Kidney Function

  31. Glands release hormones that also influence kidney function. For example, if you have not consumed enough fluids, your pituitary gland releases antidiuretic hormone (ADH) into your blood. ADH causes the kidneys to reabsorb more water from the nephron tubules and to excrete less water in the urine. If the blood contains excess water, ADH secretion stops and more water is excreted. Control of Kidney Function

  32. The color of your urine is an indicator of how hydrated you are. A pale yellow color indicates that you are well-hydrated because your kidneys are releasing a good amount of water. A darker color indicates that the water level in your blood is low, causing your kidneys to conserve water. Control of Kidney Function

  33. The presence of protein or glucose in urine can be indicators of diseases such as dangerous high blood pressure or diabetes. Drugs generally remain in the filtrate and are eliminated in urine. This is why the effects of many drugs wear off over time and why urine tests are often used to detect the use of illegal drugs. Urine Testing

  34. Substances such as calcium, magnesium, or uric acid salts in the urine can crystallize and form kidney stones. When kidney stones block a ureter, they cause pain. Kidney stones are often treated using ultrasound waves, which pulverize the stones into smaller fragments that are eliminated in the urine. Kidney Disorders—Kidney Stones

  35. High blood pressure and diabetes cause most cases of kidney damage in the United States. Kidney Disorders—Kidney Damage

  36. Excessive blood pressure damages the delicate filtering mechanism, and high blood sugar causes the kidneys to filter more blood than normal. Over time, the tubules weaken, and the kidneys may fail to keep up with the demands placed upon them. Kidney Disorders—Kidney Damage

  37. When kidneys can no longer cleanse the blood and maintain homeostasis, a person is said to be in kidney failure. A patient with kidney failure must receive dialysis or undergo a kidney transplant. During dialysis, a machine performs the role of the kidneys. The patient’s blood is pumped through the machine, cleansed, and pumped back into the body. Kidney Disorders—Kidney Failure

  38. In transplantation, a patient receives a kidney from a compatible donor. Fortunately for the donor, a person can survive with just one healthy kidney. Unless the patient’s diseased kidneys are causing infection or high blood pressure, they are left in place when a healthy kidney and ureter are transplanted from a donor. Kidney Disorders—Kidney Failure

  39. EXPLAIN???? RECAP What is ADH?

  40. Dialysis A DIALYSIS MACHINE IMITATES THE ACTION OF THE KIDNEY • You can live with one functioning kidney but may become ill if both do not work properly. • There are not enough donors for everyone who needs a new kidney so kidney dialysis machines are used to keep people alive whilst they are waiting.

  41. What is dialysis? • A patient's blood is passed through a dialysis machine to remove waste products from the blood • Inside the machine, blood is pumped through tubes made from dialysing membranes • Dialysis solution is on the other side of the dialysing membrane, kept fresh by a constant flow • Blood returns to the person's arm

  42. Dialysis machine

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