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Nutrition for Lower GI Tract Disorders

Learn about nutrition therapy for patients with disorders of the lower GI tract and accessory organs, including constipation, diarrhea, and malabsorption. Discover how to improve symptoms, replenish losses, and promote healing.

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Nutrition for Lower GI Tract Disorders

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  1. Nutrition for Patients with Disorders of the Lower GI Tract and Accessory OrgansChapter 18

  2. Nutrition for Patients with Disorders of the Lower GI Tract • Ninety percent to 95% of nutrient absorption occurs in the first half of the small intestine. • Large intestine absorbs water and electrolytes and promotes the elimination of solid wastes. • Accessory organs—liver, gallbladder, and pancreas—play vital roles in nutrient digestion. • Nutrition therapy is used to • Improve or control symptoms • Replenish losses • Promote healing

  3. Altered Bowel Elimination • Constipation • Difficult or infrequent passage of stools that are hard and dry • Can occur secondary to irregular bowel habits, psychogenic factors, lack of activity, chronic laxative use, inadequate intake of fluid and fiber, metabolic and endocrine disorders, and bowel abnormalities (e.g., tumors, hernias, strictures) • Certain medications cause constipation.

  4. Altered Bowel Elimination—(cont.) • Constipation—(cont.) • Nutrition therapy • Constipation is treated by treating the underlying cause. • Increasing fiber and fluid intake effectively relieves and prevents constipation. • High-fiber diet

  5. Altered Bowel Elimination—(cont.) • Constipation—(cont.) • Nutrition therapy—(cont.) • Adequate intake set for fiber is 25 g/day for women and 38 g/day for men. • Common practice is to recommend fiber intake be gradually increased. • Fiber intake should be spread throughout the day. • Lifestyle changes to promote bowel regularity include drinking more fluid and increasing exercise.

  6. Altered Bowel Elimination—(cont.) • Diarrhea • Characterized by more than three bowel movements a day of large amounts of liquid or semiliquid stool • Potential for dehydration, hyponatremia, hypokalemia, acid–base imbalance, and metabolic acidosis • Chronic diarrhea can lead to malnutrition related to impaired digestion, absorption, and intake.

  7. Altered Bowel Elimination—(cont.) • Diarrhea—(cont.) • Osmotic diarrhea occurs when there is an increase in particles in the intestine, which draws water in to dilute the high concentration. • Causes include maldigestion of nutrients (e.g., lactose intolerance), excessive intake of sorbitol or fructose, dumping syndrome, tube feedings, and some laxatives. • Cured by treating the underlying cause

  8. Altered Bowel Elimination—(cont.) • Diarrhea—(cont.) • Secretory diarrhea • Related to an excessive secretion of fluid and electrolytes into the intestines • Caused by infections, some medications, some GI disorders, and an excessive amount of bile acids or unabsorbed fatty acids in the colon • Treatment • Antibiotics if cause is infectious • Symptoms may be treated with medications that decrease GI motility or thicken the consistency of stools.

  9. Altered Bowel Elimination—(cont.) • Diarrhea—(cont.) • Nutrition therapy • Primary nutritional concern with diarrhea is maintaining or restoring fluid and electrolyte balance. • Mild diarrhea lasting 24 to 48 hours • Usually requires no nutrition intervention other than encouraging a liberal fluid intake to replace losses • High-potassium foods are encouraged; clear liquids are avoided because they have high osmolality related to their high sugar content, which may promote osmotic diarrhea.

  10. Altered Bowel Elimination—(cont.) • Diarrhea—(cont.) • Nutrition therapy—(cont.) • For more serious cases, commercial (e.g., Pedialyte, Rehydralyte) or homemade oral rehydration solutions, or IV therapy, are used to replace fluid and electrolytes. • May improve by avoiding foods that stimulate GI motility • A low-fiber diet that is also low in fat and lactose may help decrease bowel stimulation.

  11. Question • One cause of osmotic diarrhea is a. Antibiotics b. Maldigestion c. Some GI disorders d. Unabsorbed fatty acids

  12. Answer b.Maldigestion Rationale: The causes of osmotic diarrhea include maldigestion of nutrients (e.g., lactose intolerance), excessive intake of sorbitol or fructose, dumping syndrome, tube feedings, and some laxatives. It is cured by treating the underlying cause.

  13. Malabsorption Disorders • Occurs secondary to nutrient maldigestion or from alterations to the absorptive surface of the intestinal mucosa • Malabsorption related to maldigestion involves one or few nutrients. • Malabsorption that stems from an altered mucosa is more generalized, resulting in multiple nutrient deficiencies and weight loss. • Symptoms vary with the underlying disorder.

  14. Malabsorption Disorders—(cont.) • Excretion of fat in the stool means that essential fatty acids, fat-soluble vitamins, calcium, and magnesium are also lost through the stool. • Can cause metabolic complications

  15. Malabsorption Disorders—(cont.) • Goal of nutrition therapy for malabsorption syndromes is to • Control steatorrhea • Promote normal bowel elimination • Restore optimal nutritional status • Promote healing, when applicable • Individualized according to symptoms and complications

  16. Malabsorption Disorders—(cont.) • Lactose intolerance • Occurs when the level of lactase is absent or deficient • Lactose digestion is impaired. • Undigested lactose increases the osmolality of the intestinal contents. • May lead to osmotic diarrhea

  17. Malabsorption Disorders—(cont.) • Lactose intolerance—(cont.) • Lactose is fermented in the colon. • Produces bloating, cramping, and flatulence

  18. Malabsorption Disorders—(cont.) • Lactose intolerance—(cont.) • Primary lactose intolerance occurs in “well” people who simply do not secrete adequate lactase. • Least common in people of northern European descent • May be asymptomatic when doses less than 4 to 12 g of lactose are consumed (e.g., ⅓ to 1 cup of milk) or when lactose is consumed as part of a meal • Chocolate milk is usually better tolerated than plain milk.

  19. Malabsorption Disorders—(cont.) • Lactose intolerance—(cont.) • Primary lactose intolerance • Know individual limits • Lactose-reduced milk and lactase enzyme tablets or liquid may be used.

  20. Malabsorption Disorders—(cont.) • Lactose intolerance—(cont.) • Lactose intolerance secondary to gastrointestinal disorders that alter the integrity and function of intestinal villi cells, where lactase is secreted • Loss of lactase may also develop secondary to malnutrition because the rapidly growing intestinal cells that produce lactase are reduced in number and function. • Tends to be more severe than primary lactose intolerance

  21. Malabsorption Disorders—(cont.) • Lactose intolerance—(cont.) • Nutrition therapy • Nutrition therapy for lactose intolerance is to reduce lactose to the maximum amount tolerated by the individual. • A lactose-free diet is not realistic.

  22. Question • In lactose intolerance, undigested lactose increases the __________ of the intestinal contents. a. Secretions b. Osmolality c. Acidity d. Liquidity

  23. Answer b. Osmolality Rationale: Particles of undigested lactose increase the osmolality of the intestinal contents, which may lead to osmotic diarrhea.

  24. Malabsorption Disorders—(cont.) • Inflammatory bowel disease (IBD) • Primarily refers to two chronic inflammatory GI diseases • Crohn disease • Ulcerative colitis • IBD is believed to be caused by an abnormal immune response to a complex interaction between environmental and genetic factors.

  25. Malabsorption Disorders—(cont.) • Inflammatory bowel disease (IBD)—(cont.) • Characterized by periods of exacerbation and remission • Share symptoms and treatment

  26. Malabsorption Disorders—(cont.) • Inflammatory bowel disease (IBD)—(cont.) • Nutrition therapy • Depends on the presence and severity of symptoms, the presence of complications, and the nutritional status of the patient • Diet restrictions are kept to a minimum. • Patients are often reluctant to eat. • Crohn disease is more likely to cause nutritional complications.

  27. Malabsorption Disorders—(cont.) • Inflammatory bowel disease (IBD)—(cont.) • Nutrition therapy—(cont.) • Focus of therapy for acute exacerbation of IBD is to correct deficiencies by providing nutrients in a form the patient can tolerate. • For patients consuming an oral diet, low fiber is recommended to minimize bowel stimulation. • Protein and calorie needs are elevated to facilitate healing. • Diet modifications are made according to symptoms.

  28. Malabsorption Disorders—(cont.) • Celiac disease • A genetic autoimmune disorder characterized by chronic inflammation of the proximal small intestine mucosa • Related to a permanent intolerance to certain proteins found in wheat, barley, and rye • Malabsorption of carbohydrates, protein, fat, vitamins, and minerals may occur, resulting in diarrhea, flatulence, weight loss, and vitamin and mineral deficiencies.

  29. Malabsorption Disorders—(cont.) • Celiac disease—(cont.) • Symptoms and their severity vary depending on the patient’s age and the duration and extent of the disease. • Classic symptoms in children are diarrhea, abdominal distention, and failure to thrive. • Adults present with diarrhea, constipation, weight loss, weakness, flatus, abdominal pain, and vomiting.

  30. Malabsorption Disorders—(cont.) • Celiac disease—(cont.) • Atypical presentations • In 15% to 25% of people with celiac disease, dermatitis herpetiformis is the presenting symptom. • Symptoms of dermatitis herpetiformis respond to a gluten-free diet.

  31. Malabsorption Disorders—(cont.) • Celiac disease—(cont.) • People who have a first-degree relative with celiac disease, people with Down syndrome, and those with an autoimmune disease are at risk for celiac disease. • Untreated celiac disease is associated with an increased incidence of small bowel cancers and enteropathy-associated T-cell lymphoma.

  32. Malabsorption Disorders—(cont.) • Celiac disease—(cont.) • Nutrition therapy • Only scientifically proven treatment for celiac disease is to completely and permanently eliminate gluten from the diet. • Lactose intolerance secondary to celiac disease may be temporary or permanent.

  33. Malabsorption Disorders—(cont.) • Celiac disease—(cont.) • Nutrition therapy—(cont.) • A gluten-free diet requires a major lifestyle change. • Expensive • Short bowel syndrome (SBS) • Occurs when the bowel is surgically shortened to the extent that the remaining bowel is unable to absorb adequate levels of nutrients to meet the individual’s needs

  34. Question • Who is at risk for celiac disease? a. People with a second-degree relative who has celiac disease b. People who have lactose intolerance c. People who have congenital diseases d. People who have an autoimmune disease

  35. Answer d. People who have an autoimmune disease Rationale: People who have a first-degree relative with celiac disease, people with Down syndrome, and those with an autoimmune disease are at risk for celiac disease.

  36. Malabsorption Disorders—(cont.) • Short bowel syndrome (SBS)—(cont.) • Most common reasons for extensive intestinal resections that result in SBS • Crohn disease • Traumatic abdominal injuries • Malignant tumors • Mesenteric infarction

  37. Malabsorption Disorders—(cont.) • Short bowel syndrome (SBS)—(cont.) • Nutrition complications experienced by people with short bowel syndrome depend on the amount and location of resected and remaining bowel. • Patients who have 150 cm or more of remaining small bowel without a colon, or 60 to 90 cm of small bowel with a colon, initially require PN and may progress to an oral diet over a 1- to 2-year period.

  38. Malabsorption Disorders—(cont.) • Short bowel syndrome (SBS)—(cont.) • Factors that influence adaptation • Length of remaining jejunum and/or ileum and whether the colon is present • Patient’s age • Whether the ileocecal value remains • Health of the remaining bowel • Health of the stomach, liver, and pancreas

  39. Malabsorption Disorders—(cont.) • Short bowel syndrome (SBS)—(cont.) • Nutrition therapy • In the early months after bowel surgery, PN is the major source of nutrition and hydration. • Consuming intact nutrients promotes bowel adaptation because they stimulate blood flow to the intestine and the secretion of pancreatic enzymes and bile acids.

  40. Malabsorption Disorders—(cont.) • Short bowel syndrome (SBS)—(cont.) • Nutrition therapy—(cont.) • Six to eight small meals per day • If the patient’s colon is intact, fat intake is restricted to avoid steatorrhea and increased fluid losses.

  41. Conditions of the Large Intestine • Irritable bowel syndrome (IBS) • Most frequently diagnosed digestive disorder in the United States • Many factors involved in its etiology • Symptoms include lower abdominal pain, constipation, diarrhea, alternating periods of constipation and diarrhea, bloating, and mucus in the stools. • Can significantly impair quality of life

  42. Conditions of the Large Intestine—(cont.) • Irritable bowel syndrome (IBS)—(cont.) • Nutrition therapy • Inconclusive evidence for any of the current treatments used for IBS • Pharmacologic treatment options • Meet with limited success • Complementary therapies • Elimination diet

  43. Conditions of the Large Intestine—(cont.) • Irritable bowel syndrome (IBS)—(cont.) • Nutrition therapy—(cont.) • Probiotics • Grade A level Evidence exists for the use of 5 g of guar gum daily. • Guar gum is a soluble, nongelling fiber.

  44. Conditions of the Large Intestine—(cont.) • Diverticular disease • Diverticular disease is caused by increased pressure within the intestinal lumen. • Usually asymptomatic • Diverticulitis occurs when diverticula become inflamed.

  45. Conditions of the Large Intestine—(cont.) • Diverticular disease—(cont.) • Symptoms of diverticulitis • Cramping • Alternating periods of diarrhea and constipation • Flatus • Abdominal distention • Low-grade fever

  46. Conditions of the Large Intestine—(cont.) • Diverticular disease—(cont.) • Potential complications • Occult blood loss and acute rectal bleeding leading to iron deficiency anemia • Abscesses and bowel perforation leading to peritonitis • Fistula formation causing bowel obstruction • Bacterial overgrowth (in small bowel diverticula) that leads to malabsorption of fat and vitamin B12

  47. Conditions of the Large Intestine—(cont.) • Diverticular disease—(cont.) • Nutrition therapy • High-fiber intake may prevent and improve symptoms of diverticulosis and prevent diverticulitis. • Avoid nuts, seeds, and popcorn.

  48. Conditions of the Large Intestine—(cont.) • Diverticular disease—(cont.) • Nutrition therapy—(cont.) • During an acute phase of diverticulitis • Patients are NPO until bleeding and diarrhea subside. • Oral intake resumes with clear liquids and progresses to a low-fiber diet until inflammation and bleeding are no longer a risk. • A high-fiber diet is recommended unless symptoms of diverticulitis recur.

  49. Question • Is the following statement true or false? Pharmacologic treatment options meet with limited success in diverticular disease.

  50. Answer False. Rationale: Antidiarrheals, antispasmodics, and antidepressants are pharmacologic treatment options that meet with limited success in irritable bowel syndrome.

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