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The major function of the GI system is absorption of nutrients. .

The major function of the GI system is absorption of nutrients. The surface area of the intestine is 300 m 3 . Intestinal villi maximize surface area . https://eapbiofield.wikispaces.com/Digestive+System+Wilson. The GI tract is not a major site of waste product excretion.

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The major function of the GI system is absorption of nutrients. .

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  1. The major function of the GI system is absorption of nutrients.. The surface area of the intestine is 300 m3. Intestinal villi maximize surface area  https://eapbiofield.wikispaces.com/Digestive+System+Wilson

  2. The GI tract is not a major site of waste product excretion. • Fecal material is mostly bacteria that never actually enter the body. • Major waste products excreted throough the GI tract: • Bilirubin – a breakdown product of hemoglobin • Cholesterol

  3. Major GI Processes

  4. Major GI Hormones • Gastrin – stimulates acid secretion and motility of stomach • Secretin – inhibits acid secretion and motility of stomach i.e. slows gastric emptying, in response to acid in small intestine • Cholecystokinin (CCK) also inhibits acid secretion and motility of stomach, but in response to amino acids and fatty acids in small intestine. • Glucose-dependent insulinotropic peptide (GIP) stimulates insulin release in response to glucose and fat in small intestine.

  5. http://www.uoflhealthcare.org/digestivehealth/gerd.htm

  6. http://www.merck.com/media/mmhe2/figures/fg123_1.gif

  7. Barrett’s Esophagus http://www.barrettsinfo.com/figures/fig3a_4.jpg

  8. http://jama.ama-assn.org/cgi/content/full/294/15/1986

  9. Carbohydrate Digestion http://media.tiscali.co.uk/images/feeds/hutchinson/ency/thumbs/0013n025.jpg

  10. Protein Digestion http://media.tiscali.co.uk/images/feeds/hutchinson/ency/thumbs/0013n023.jpg

  11. Fat Digestion http://media.tiscali.co.uk/images/feeds/hutchinson/ency/thumbs/0013n024.jpg

  12. Balance of GI inputs and outputs.

  13. Iron absorption is altered in response to changes in iron homeostasis. Ferritin traps iron and holds it in cells. When iron levels are low, you produce less ferritin. When iron levels are high, you produce more ferritin. http://www.mfi.ku.dk/ppaulev/chapter22/images/22-16.jpg

  14. Consequences of prolonged vomiting • Dehydration • Metabolic Alkalosis (due to loss of gastric acid) • Low serum K+ (due to action of aldosterone, which is released after prolonged dehydration). • Malnutrition

  15. Diarrhea • Potential for massive fluid loss, leading to hypotension. • Can cause acidosis, since intestinal contents are alkaline. • Can cause hypokalemia (low K+) since intestinal contents are high in K+.

  16. Lactose intolerance results from a lactase insufficiency. Undigested lactose remains in the intestine, and osmotically draws water into the intestine, causing diarrhea. http://www.food-info.net/images/lactase.jpg

  17. Cholera toxin increases the intracellular levels of cAMP. This leads to an increase in chloride secretion into the small intestine. Water follows osmotically. The chloride channel is called “CFTR”, and is defective in people with Cystic fibrosis. One copy of the CF gene is thought to offer protection against cholera. http://www.surrey.ac.uk/SBMS/ACADEMICS_homepage/mcfadden_johnjoe/img/Cholera%20toxin.jpg

  18. The chloride channel is called “CFTR”, and is defective in people with Cystic fibrosis. One copy of the CF gene is thought to confer protection against cholera.

  19. Celiac Disease • Results from intolerance to gluten, specifically the gluten breakdown product gliaden. • Considered to be an autoimmune disease – the person makes antibodies against gliadin, which cross react with proteins in the small intestine.

  20. Consequences of celiac disease • Pain and diarrhea, inflammation of intestinal villi. • Malabsorption of nutrients leading to • Osteoporosis (from lack of calcium) • Anemia (from lack of iron) • Short stature (from general malnutrition • Miscarriage, neural tube defects (lack of folic acid, and other nutrients)

  21. Hemorrhagic Diarrhea • Infectious diarrhea leading to blood in stools • Example: recent outbreaks of E. coli 0157:H7 • May be a consequence of factory farming practices • Grows well in corn-fed factory farmed beef • Runoff contaminates vegetable farms

  22. The Pancreas

  23. Pancreatic enzymes are usually released in an inactive form.

  24. Cystic Fibrosis (CF) and the pancreas • Pancreatic enzyme secretion uses the same CFTR chloride channel we heard about with cholera • This channel is defective in people with CF, and causes them to have problems with the digestion of food and absorption of nutrients.

  25. Regulation of Pancreatic Function • Secretin – Stimulates release of bicarbonate • Bicarb release also stimulated by smell and taste of food, distension of stomach, acid in duodenum, and gastrin. • CCK - Stimulates release of enzymes • Enzyme release also stimulated by smell and taste of food, distension of stomach, and presence of peptides and fatty acids.

  26. The Liver

  27. http://www.niaaa.nih.gov/Resources/GraphicsGallery/Liver/214c.htmhttp://www.niaaa.nih.gov/Resources/GraphicsGallery/Liver/214c.htm

  28. The openings (fenestrations) in the capillaries mean that the hepatocytes are essentially in direct contact with the blood. http://www.siumed.edu/~dking2/erg/liver.htm

  29. Bile duct and sphincter of Oddi

  30. Bile Pigments When bilirubin metabolism is insufficient, then bile pigments accumulate in the tissues, giving the skin and eyes a jaundiced (yellowish) appearance. http://www.mfi.ku.dk/ppaulev/chapter23/images/23-1.jpg

  31. Cirrhosis of the Liver

  32. Cirrhosis occurs when scarring and fibrosis lead to the death of hepatocytes.

  33. Portal hypertension can cause bleeding into the GI tract, as well as congestion of blood in the spleen, leading to destruction of platelets http://www.clevelandclinic.org/health/health-info/pictures/tipspre.gif

  34. The yellow coloring of the eye in a patient with jaundice reflects the accumulation of bile pigments in the connective tissues. Skin also becomes yellowish.

  35. Consequences of Liver Failure • Portal Hypertension – blood backs up into the GI tract • Blood does not pass through liver, so nutrients are not absorbed, also loss of immune surveillance • Varices • Promotes development of ascites • Congestion of blood in spleen, leads to RBC destruction

  36. Consequences of Liver Failure, (cont.) • Ascites formation – watery fluid in the abdominal cavity • Infection • Generalized edema • Neurologic disorders (from accumulation of ammonia and other toxins)

  37. Consequences of Liver Failure, (cont.) • Increased bleeding from • lack of liver-produced clotting factors, • lack of absorption of vitamin K, • hyperactivity of the spleen • Endocrine disorders • Lack of liver-produced hormone carriers • Inability to degrade estrogen

  38. Consequences of Liver Failure, (cont.) • Manifestations of decreased bile production • Jaundice (build-up of bile pigments leading to yellowish color of eyes and skin) • Decreased fat absorption (diarrhea, steatorrhea, deficiencies of fat-soluble vitamins)

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