Principles of Nutrition Chapter 3
food in the trachea
Choking is caused by:
Somatostatin
Decreases motility of stomach/intestines Inhibits release of gastrin
Cholecystokinin is released in response to fat or protein in the small intestine. In addition to its role in fat emulsification and digestion, cholecystokinin slows GI tract motility. Slowing the digestive process helps maintain a pace that allows all reactions to reach completion. Hormonal and nervous mechanisms like these account for much of the body's ability to adapt to changing conditions.
Fat and protein take longer to digest than carbs do. When fat or protein is present, intestinal motility slows to allow time for its digestion. How does the intestine know when to slow down?
The stomach normally maintains a pH between 1.5 and 1.7. How does it stay that way?
Food entering the stomach stimulates cells in the stomach wall to release the hormone gastrin. Gastrin, in turn, stimulates the stomach glands to secrete the components of hydrochloric acid. When pH 1.5 is reached, the acid itself turns off the gastrin-producing cells; they stop releasing gastrin, and the glands stop producing hydrochloric acid. Thus, the system adjusts itself.
target organ: small intestine/ secretion: bile/ action: bile emulsifies fat so that enzymes can have access to break it down
Gallbladder: Target Organ, secretion, and action
Target organ: stomach/ Secretion: Gastric juice/ Action: fluid mixes with bolus; hydrochloric acid uncoils proteins; enzymes break down proteins; mucus protects stomach cells
Gastric glands: Target Organ, secretion, and action
the backflow of stomach acid into the esophagus, causing damage to the cells of the esophagus and the sensation of heartburn
Gastroesophageal reflux and indigestion
foods eaten together can enhance each others use by the body
How does food combining affect the digestive system?
hydrochloric acid secreted into the stomach to maintain an acidic pH
How does the body respond to a release of gastrin?
Bile secreted into the duodenum to emulsify fats Bicarbonate- and enzyme-rich juices secreted into the small intestine to maintain a slightly alkaline pH, digest fats and proteins, and slow GI tract motility
How does the body respond to the release of cholecytokinin?
Bicarbonate-rich juices secreted into the small intestine to maintain a slightly alkaline pH
How does the body respond to the release of secretin?
target organ: gallbladder/ secretion: bile/ action: bile is stored until needed
Liver: Target Organ, secretion, and action
target organ: small intestine/ secretion: pancreatic juice/ action: bicarbonate neutralizes acidic gastric juices; pancreatic enzymes break down carbohydrates, fats, and proteins
Pancreas:Target Organ, secretion, and action
Enzyme activity changes proportionately in response to the amounts of carbohydrate, fat, and protein in the diet. If a person has been eating mostly carbohydrates, the pancreas makes and secretes mostly carbohydrases; if the per- son's diet has been high in fat, the pancreas produces more lipases; and so forth. Hormones from the GI tract, secreted in response to meals, keep the pancreas in- formed as to its digestive tasks. The day or two lag between the time a person's diet changes dramatically and the time digestion of the new diet becomes efficient explains why dietary changes can "upset digestion" and should be made gradually.
Pancreatic secretions contain a mixture of enzymes to digest carbohydrate, fat, and protein. How does the pancreas know how much of each type of enzyme to provide?
Motlin
Response to bile and pancreatic secretions Promotes gastric emptying
GIP (Gastric Inhibitory peptide)/ GLP-1 (glucagon like peptide)
Response to glucose and fat Insulin release Maintains BG from rising following meal
Target organ: mouth/ Secretion: Saliva/ Action: fluid eases swallowing; salivary enzyme breaks down some carbohydrate
Salivary Gland: Target Organ, secretion, and action
As the chyme enters the small intestine, the pancreas adds bicarbonate to it so that the intestinal contents always remain at a slightly alkaline pH. How does the pancreas know how much to add?
The presence of chyme stimulates the cells of the duodenual wall to release the hormone secretin into the blood. When secretin reaches the pancreas, it stimulates the pancreas to release its bicarbonate-rich juices. Thus, whenever the duodenum signals that acidic chyme is present, the pancreas responds by sending bicarbonate to neutralize it. When the need has been met, the cells of the duodenal wall are no longer stimulated to release secretin, the hormone no longer flows through the blood, and the pancreas no longer receives the message and stops sending pancreatic juice. Nerves also regulate pancreatic secretions.
pH, peristalsis, diet, and other microbes
What affects the microbes in the GI tract?
grains, fruits, and milk
What are considered carbohydrates?
chyme and fullness or abdominal or lumen distention.
What are muscle receptors in the gut are sensitive to?
ascending colon, transverse colon, descending colon, and sigmoid colon
What are the parts of the large intestine
duodenum jejunum, and ileum
What are the three segments of the small intestine?
segmentation and peristalsis
What are the two layers of muscle in the GI tract that produce action?
simple diffusion, facilitated diffusion, active diffusion
What are the types of absorption techniques used in the small intestine?
IBS, colitis, and celiac disease. Treatment begins with rehydration
What are three digestive conditions where diarrhea is a common symptom
chylomicrons
What carries fats through the body because they are insoluble in water?
Bacterial infection Anti-inflammatory drugs Excessive gastric acid secretion
What causes and ulcer
fat or protein in the small intestine
What does cholecystokinin respond to
food in the stomach
What does gastrin respond to?
stomach glands
What does gastrin stimulate
acidic chyme in the small intestine
What does secretion respond to?
stress, drugs, and illness
What factors interfere with GI tract contractions?
a result of lifestyle, some medications cause constipation, fiber, fluid, and physical activity help prevent constipation
What is constipation
fermentation by bacteria occurs in the large intestine; gas production is mainly caused by sugars, fiber, and starch
What is the cause of intestinal gas
mouth,esophagus, stomach, small intestine, large intestine, rectum, and anus
What is the oder of body parts that food passes through
strong acidity prevents bacterial growth and kills most bacteria that enter the body with food
What is the purpose of the stomach's pH
Signal nerves embedded in the gut. contract/ relax muscles. increase or decrease fluid secretions. change blood flow
What is the role of neurotransmitters in GI movement?
liquefy chyme with gastric juices and force chyme downward
What is the role of the stomach muscles
an adaptive body mechanism that can often result in dehydration
What is vomiting and a common side affect
circular, longitudinal, and diagonal muscles
What muscles make up the stomach?
salivary gland, stomach, pancreas, liver (via gallbladder), and the small intestine
What organ aid in the breakdown of food into nutrients through secretions
• Take medicine as prescribed by your physician. • Avoid coffee and caffeine- and alcohol-containing beverages. • Avoid foods that aggravate your ulcer. • Minimize aspirin, ibuprofen, and naproxen use. • Refrain from smoking cigarettes.
What should be done to prevent an ulcer?
Eat slowly. Chew thoroughly. Relax while eating
What should be done to prevent belching?
cut food into small pieces, chew thoroughly before swallowing, don't talk or laugh with food in your mouth, and don't eat when breathing hard
What should be done to prevent choking?
Eat a high-fiber diet. Drink plenty of fluids. Exercise regularly. Respond promptly to the urge to defecate.
What should be done to prevent constipation
Avoid strenuous activity. Rest. Drink fluids to replace losses. Call for medical help if diarrhea persists.
What should be done to prevent diarrhea?
• Eat small meals. • Drink liquids between meals. • Sit up while eating; elevate your head when lying down. • Wait 3 hours after eating before lying down. • Wait 2 hours after eating before exercising. • Refrain from wearing tight-fitting clothing. • Avoid foods, beverages, and medications that aggravate your heartburn. Common irritants include foods that are fried or high in fat; chocolate and peppermint; coffee, alcoholic beverages, and carbonated beverages; mustard, ketchup, and tomato sauces; acidic substances such as vinegar, citrus juices, and citrus fruits. • Refrain from smoking cigarettes or using tobacco products. • Lose weight if overweight.
What should be done to prevent heartburn
Eat bothersome foods in moderation
What should be done to prevent intestinal gas
heimlich maneuver
What should be performed to save a choking person
gallbladder, pancreas
What stimulates the release of cholecystokinin?
pancreas
What stimulates the secretion of secretin
Fat in the intestine stimulates cells of the intestinal wall to release the hormone cholecystokinin (CCK). This hormone travels by way of the blood to the gall- bladder and stimulates it to contract, which releases bile into the small intestine. Cholecystokinin also travels to the pancreas and stimulates it to secrete its juices, which releases bicarbonate and enzymes into the small intestine. Once the fat in the intestine is emulsified and enzymes have begun to work on it, the fat no longer pro- vokes release of the hormone, and the message to contract is canceled. (By the way, fat emulsification can continue even after a diseased gallbladder has been surgically removed because the liver can deliver bile directly to the small intestine.)
When fat is present in the intestine, the gallbladder contracts to squirt bile into the intestine to emulsify the fat. How does the gallbladder get the message that fat is present?
The pyloric sphincter opens to let out a little chyme, then closes again. How does it know when to open and close?
When the pyloric sphincter relaxes, acidic chyme slips through. The cells of the pyloric muscle on the intestinal side sense the acid, causing the pyloric sphincter to close tightly. Only after the chyme has been neutralized by pancreatic bicarbonate and the juices surrounding the pyloric sphincter have become alkaline can the muscle relax again. This process ensures that the chyme will be released slowly enough to be neutralized as it flows through the small intestine. This is important because the small intestine has less of a mucous coating than the stomach does and so is not as well protected from acid
small intestine
Where does most absorption take place?
stomach wall
Where is gastrin secreted from
duodenal wall
Where is secretion secreted from?
older adults, alzheimers disease, Parkinsons disease, or pneumonia
Who is most vulnerable to choking?
The pancreas protects itself from harm by producing an inactive form of the enzymes.* It releases these proteins into the small intestine, where they are activated to become enzymes. In pancreatitis, the digestive enzymes become active within the infected pancreas, causing inflam- mation and damaging the delicate pancreatic tissues.
Why don't the digestive enzymes damage the pancreas?
peptic ulcer
a lesion in the mucous membrane of either the stomach (gastric ulcer) or the duodenum (duodenal ulcer)
Ulcer
a lesion of the skin or mucous membranes characterized by inflammation and damaged tissues
appendix
a narrow blind sac extending from the beginning of the colon that contains bacteria and lymph cells
villi function
absorb nutrients
Large intestine (Colon)
absorbs water and minerals; passes waste (fiber, bacteria, and unabsorbed nutrients) along with water to the rectum
colon
absorbs water and recycles dissolved salts
Bile function
acts as emulsifier that disperses fat in watery solutions
chyme
after bolus is digested in the stomach, the semiliquid food that moves to small intestine
ileocecal valve function
allow contents of small intestine to empty into large intestine
Esophageal sphincters
allow passage from mouth to esophagus and from esophagus to stomach/ prevent back flow from stomach to esophagus and from esophagus to mouth
Trachea
allows air to pass to and from lungs
celiac disease
an intestinal disorder in which the inability to absorb gluten results in an immune response that damages intestinal cells; also called celiac sprue, nontropical sprue, or gluten-sensitive enteropathy.
Microbes in the GI tract....
are influenced by prebiotics and probiotics, thus by one's diet
Digestion
breaks down food into nutrients, which can then be broken down further into energy
Stomach
churns, mixes, and grinds food to a liquid mass; adds acid, enzymes, and fluid
pyloric sphincter
circular muscle that separates the stomach from the small intestine and regulates the flow of partially digested food into the small intestine
Lymph
clear fluid that contains infection fighting white blood cells
Saliva
contain water, salts, mucus, and enzymes to start digestion of carbohydrates/ protect teeth and linings of mouth, esophagus, and stomach
vomiting
contents of stomach propelled through esophagus to the mouth and expelled
Pharynx
directs food from mouth to esophagus, the passageway leading from the nose and mouth to the larynx and esophagus
undigested residues
exercise intestinal muscles
Bacteria
ferment some fibers
villi
fingerlike projections from the folds of the small intestine
Liver function
first to receive nutrients absorbed from the GI tract/ defends body by detoxifying substances that might cause harm and prepares waste products for excretion
prebiotics
food components (such as fiber) are not digested by the human body but are used as food by the GI bacteria to promote their growth and acitivty
Pyloric sphincter function
holds chyme in stomach long enough to mix with gastric juice and liquefy/ prevent intestinal contents from backing up into stomach
anus
holds rectum closed, opens to allow elimination/ the terminal outlet of the GI tract
segmentation
inner circular muscles contract and relax in a way that churns the chyme mixing it with digestive juices
Lumen
inner space of intestines
probiotics
living microorganisms found in foods and dietary supplements that when consumed in sufficient quantities are beneficial to health
ileocecal valve
located at the beginning of the large intestine (colon)/ separates the small and large intestine
Pancreas
manufactures enzymes to digest all energy-yielding nutrients and releases bicarbonate to neutralize acid chyme that enters the small intestine
Bolus
mass of chewed swallowed food
yogurt
milk products produced by fermentation of lactic acid
Lymphatic system
network of tissues and organs that transport fluids toward the heart or carry products of fat digestion into the bloodstream
Active Transport
nutrients such as glucose and amino acids require energy to move against a concentration gradient
Facilitated transport
nutrients such as water soluble vitamins need a specific carrier to transport them from one side of the cell membrane to the other
Upper Esophageal sphincter function
opens in response to swallowing
peristalsis
outer longitudinal muscles that rhythmically contract in a wavelike motion that move chyme forward
flatulence
passage of excessive amounts of intestinal gas
Rectum function
prevents continuous elimination
Lower Esophageal sphincter function
prevents reflux of stomach contents
Mouth
process of digestion begins, chew and mixes food with saliva
Benefit of bacteria in GI tract
produce several vitamins, digest and metabolize fibers
Bile
produced by the liver, stored in gallbladder, and flows into duodenum
Epiglottis
protects airway during swallowing/ cartilage in the throat that guards the entrance to the trachea and prevents fluid or food from entering it when a person swallows
Fiber
retains water
diverticulosis
sacs or pouches develop in weakened areas of the intestinal wall that are inflammed. common in colon
small intestine
secretes enzymes that digest all energy-yielding nutrients to smaller nutrient particles; cells of wall absorb nutrients into blood and lymph
Diaphragm
separates the abdomen from the thoracic cavity
Simple diffusion
small nutrients (water and small lipids) cross into intestinal cells freely
capillaries
small vessels that connect arteries to veins/ exchange of oxygen nutrients and wastes
Gallbladder
stores bile until needed
rectum
stores waste prior to elimination/ the muscular terminal part of the intestine, extending from the sigmoid colon to the anus
laxatives
substances that loosen bowels and prevent or treat constipation
Intestinal glands: Target Organ, secretion, and action
target organ: small intestine/ secretion: intestinal juice/ action: intestinal enzymes break down carbohydrate, fat, and protein fragments; mucus protects the intestinal wall
Esophagus
the food pipe, the conduit from the mouth to the stomach
thoracic duct
the main lymphatic vessel that collects lymph and drains into the left subclavian vein
Hepatic portal vein
the vein that collects blood from the GI tract and conducts it to the liver
subclavian vein
the vein that provides passageway from the lymphatic system to the vascular system
arteries
vessels carry blood from the heart to the tissues
veins
vessels carry blood to the heart
categorized by frequent watery stools. intestinal contents move too quickly to allow water resportion.
what is diarrhea
antacids and acid controlers
what should be taken to provide relief to GERD
intestinal wall
where is cholecystokinin secreted from
