Chapter 23- The digestive system

Question 1

Functions of the digestive system (6)

Answer 1

1. Ingestion
2. Movement
3. Mechanical breakdown
4. Digestion
5. Absorption
6. Defecation

Question 2

How does movement occur in the digestive system?

Answer 2

Food propelled through digestive system by peristaltic movement. Peristaltic movements are wavelike contractions moving food in one direction- uses smooth muscle tissue

Question 3

How does mechanical breakdown occur in the digestive system?

Answer 3

Food broken down into smaller pieces to increase efficiency of digestion. Increases the surface area of food that’s exposed to digestive substances

Question 4

Membranes of the digestive system (2)

Answer 4

1. Peritoneum

2. Mesentery

Question 5

Peritoneum

Answer 5

Serous membrane that covers organs of the abdominopelvic cavity. The visceral peritoneum covers organs, while the parietal peritoneum clings to body wall

Question 6

Peritoneal cavity

Answer 6

Fluid filled space between visceral and parietal peritoneum. Function- prevents friction form organ/organ or organ/body wall contact

Question 7

Mesentery definition

Answer 7

Double layer of peritoneum extending from digestive organs to body wall

Question 8

Mesentery functions (3)

Answer 8

1. Holds organs in place
2. Providing passage for blood/lymphatic/nerve supply to digestive organs
3. Fat storage

Question 9

Alimentary canal (6 organs)

Answer 9

Portion of digestive system that forms one long tube in- out of the body. Includes- mouth, pharynx, esophagus, stomach, small intestine, large intestine. Has associated accessory glands

Question 10

4 basic layers of the alimentary canal organs

Answer 10

1. Mucosa- innermost layer
2. Submucosa- lies external to mucosa
3. Muscularis externa
4. Serosa- outermost layer is the visceral peritoneum

Question 11

3 subdivisions of the mucosa

Answer 11

1. Epithelia
2. Lamina propria
3. Muscularis mucosa

Question 12

Epithelia of the mucosa

Answer 12

Epithelia is mostly simple columnar. Function- secretes mucus, digestive enzymes, hormones. Exceptions- mouth, esophagus, and anus- stratified squamous

Question 13

Lamina propria

Answer 13

Vascularized loose areolar connective tissue. Allows absorption of nutrients. Lymph supply (MALT)- tonsils and appendix- protection from infectious disease

Question 14

Muscularis mucosa

Answer 14

Has smooth muscle cells, creates movement to increase digestion and secretion. Digestive enzymes that break down food molecules and hormones are secreted. Not the most important layer for creating movement

Question 15

Submucosa

Answer 15

Lies external to mucosa. Areolar connective tissue with elastic fibers- organs can stretch. Rich supply of blood and lymphatic vessels, lymphoid follicles, nerve fibers- serve surrounding layers of GI tract. BV keep the submucosa healthy, but also provides blood supply to surrounding layers

Question 16

Muscularis externa

Answer 16

Muscular layer that generates peristaltic movement of GI tract. Thickenings in muscularis externa form sphincters. Functions- controls movement from one alimentary organ to another and prevents back movement of ingested food. The 2 layers can’t contract at the same time since they have opposite functions. To produce movement, the layers contract asynchronously

Question 17

2 layers of the muscularis externa

Answer 17

1. Circular layer- contraction causes tube to constrict

2. Longitudinal layer- contraction causes tube to become wider

Question 18

Serosa

Answer 18

Outermost layer is the visceral peritoneum. In organs not found in abdominopelvic cavity (esophagus), the serosa is replaced by adventitia. Dense connective tissue that binds organ to surrounding structures- tougher and more fibrous than visceral peritoneum

Question 19

Splanchnic circulation

Answer 19

Blood supply to digestive organs. Arteries that branch off aorta and hepatic portal circulation

Question 20

Arteries of splanchnic circulation

Answer 20

Arteries- branches of celiac trunk that serve spleen, liver, and stomach. Hepatic artery, left gastric, splenic arteries. Splenic artery not part of digestive system

Question 21

Hepatic portal circulation

Answer 21

Collects nutrient rich blood draining from digestive organs and transports it to the liver. In portal circulation, the blood skips the heart and goes to another organ. The digestive organs bring in new nutrients- don’t want the heart or the brain to be exposed to unstable conditions. Blood goes to the liver so it can be processed and toxins can be removed

Question 22

2 major intrinsic nerve complexes of the enteric nervous system

Answer 22

1. Submucosal nerve plexus- found in submucosa

2. Myenteric nerve plexus- found between circular and longitudinal muscle layers

Question 23

Function of ENS nerve plexuses

Answer 23

Function- both plexuses supply walls of entire GI tract and help regulate motility through it

Question 24

ENS long reflex

Answer 24

Initiated by stimuli inside and outside the GI tract. Involves CNS and extrinsic autonomic nerves- sympathetic and parasympathetic. Sympathetic stimulation inhibits gastric activity, while parasympathetic stimulation enhances gastric activity

Question 25

ENS short reflex

Answer 25

Mediated entirely by enteric nervous system in response to stimuli within GI tract. Ex- peristalsis- wavelike contractions created by muscularis externa

Question 26

Components of the mouth (2)

Answer 26

1. Lips and cheeks

2. Palate

Question 27

Lips and cheeks muscles

Answer 27

Composed of several skeletal muscles. Orbicularis oris- lips and buccinators- cheeks

Question 28

Hard palate

Answer 28

Rigid, ribbed surface on roof of the mouth. Function- helps break down food

Question 29

Soft palate

Answer 29

Soft, mobile surface at back of mouth. Posterior to the hard palate, closes off the nasopharynx when we swallow

Question 30

Uvula

Answer 30

Projects from soft palate, helps close off nasopharynx

Question 31

Bundles of skeletal muscle in the tongue (2)

Answer 31

1. Intrinsic muscles

2. Extrinsic muscle

Question 32

Intrinsic muscles of the tongue

Answer 32

Confined within the tongue, not attached to bone. Function- allow tongue to change shape. Ex- making the tongue flatter, thinner

Question 33

Extrinsic muscles of the tongue

Answer 33

Origin of muscle is found on bone. Function- allows tongue to change position in mouth. Ex- moving the tongue from one side to another, sticking the tongue into/out of mouth

Question 34

Functions of saliva (4)

Answer 34

1. Cleanses mouth
2. Dissolves food chemicals for taste
3. Moistens food
4. Contains digestive enzymes salivary amylase and lingual lipase- this is the very beginning of digestion, not all of it

Question 35

Salivary amylase

Answer 35

Begins digestion of starchy foods only

Question 36

Lingual lipase

Answer 36

Begins digestion of triglycerides only

Question 37

Major salivary glands (3)

Answer 37

1. Parotid gland
2. Submandibular gland
3. Sublingual gland

Question 38

Parotid gland

Answer 38

Largest of all the salivary glands. Empties saliva from roof of mouth (2nd upper molar)

Question 39

Submandibular gland

Answer 39

Opens at base of lingual frenulum

Question 40

Sublingual gland

Answer 40

Smallest of salivary glands. Opens at floor of mouth via 10-20 different ducts

Question 41

Function of teeth

Answer 41

Tear/grind food into smaller pieces during chewing

Question 42

Types of teeth (2)

Answer 42

1. Deciduous teeth

2. Permanent teeth

Question 43

Deciduous teeth

Answer 43

Also called “baby teeth” or “milk teeth”. Total of 20 deciduous teeth. Roots start to degenerate, so the teeth die off and fall out

Question 44

Permanent teeth

Answer 44

Will eventually replace baby teeth that fall out during adolescence-also called “adult teeth”. Total of 32 permanent teeth. Wisdom teeth do not emerge until about 17-25 years of age

Question 45

Classification of teeth (4)

Answer 45

1. Incisors (I)- cutting teeth
2. Canines (C)- tearing teeth, important for meat eaters
3. Premolars (PM) and molars (M)- grinding teeth

Question 46

Primary definition formula of teeth

Answer 46

(2I, 1C, 2M (upper jaw)/ 2I, 1C, 2M (lower jaw)) *2

Question 47

Permanent definition formula of teeth

Answer 47

(2I, 1C, 2PM, 3M (upper jaw)/2I, 1C, 2PM, 3M (lower jaw))* 2

Question 48

2 main regions of teeth

Answer 48

1. Crown- exposed portion

2. Root- portion embedded in jaw bone

Question 49

Crown

Answer 49

The outer part is made of enamel- tough, mineralized substance covering exposed tooth surface. Strongest substance produced in the human body, but it can still be broken down, especially exposure to acidic substances (lemons). Cavities can go down through the dentin and reaching the pulp cavity in the middle of the tooth

Question 50

Pulp cavity

Answer 50

Contains blood vessels, connective tisse, and nerves. The root canal is a narrow opening inferior to the pulp cavity. The pulp cavity is surrounded by dentin, and dentin is covered by enamel superficially.

Question 51

Root- what is it anchored to?

Answer 51

Portion of the tooth embedded in jawbone. Anchored to periodontal ligament- gomphoses joint

Question 52

Odontoblast

Answer 52

Cell that continuously lays down dentin

Question 53

Deglutition

Answer 53

The act of swallowing food or fluid. Liquids are swallowed faster than solids

Question 54

Deglutition phases (2)

Answer 54

1. Buccal phase

2. Pharyngeal-esophageal phase

Question 55

Buccal phase deglutition

Answer 55

Voluntary portion that occurs in the mouth. Pushing food to the back of the mouth stimulates tactile receptors in the pharynx

Question 56

Pharyngeal-esophageal phase of deglutition

Answer 56

Involuntary portion controlled by swallowing center of the brain. Vagus nerve transmits impulses from swallowing center to muscles in pharynx and esophagus. Respiration temporarily inhibited- epiglottis closes off respiratory passages

Question 57

Pharynx function

Answer 57

Flood/fluid/air pass through oropharynx and laryngopharynx. Contractions of muscle in walls propels food into esophagus

Question 58

Where does the esophagus join to the stomach?

Answer 58

Joins stomach at cardiac orifice

Question 59

Cardiac (gastroesophageal) sphincter

Answer 59

Thickening of smooth muscle at cardial orifice. Function- closes off stomach when food is not entering, prevents backflow of food/stomach acid into esophagus

Question 60

Acid reflux

Answer 60

Gastric juices wash back up into the esophagus and burn the lining

Question 61

Major regions of the stomach (4)

Answer 61

1. Cardia
2. Fundus
3. Body
4. Pyloric portion

Question 62

Cardia of the stomach

Answer 62

portion of the stomach that joins with the esophagus

Question 63

Fundus of the stomach

Answer 63

dome shaped portion

Question 64

Body of the stomach

Answer 64

midportion of stomach

Question 65

Pyloric portion of the stomach

Answer 65

Inferior funnel shaped portion of the stomach, leads directly into small intestine

Question 66

Pyloric sphincter

Answer 66

Thickening of tissue that controls release of food from stomach to intestine. Prevents a large influx of material into the intestine, preventing damage

Question 67

Omenta

Answer 67

Mesenteries extending from greater/lesser curvature of the stomach. Consists of lesser and greater sections. Function- attaches/anchors stomach to other digestive organs

Question 68

Lesser omentum

Answer 68

Runs from liver to stomach

Question 69

Greater omentum

Answer 69

Runs from stomach to intestines. Wraps over intestines and spleen, forming a “purse” to hold them in place. Has large collections of lymph nodes- immune cells can monitor peritoneal cavity and organs

Question 70

Autonomic innervation of the stomach

Answer 70

There are parasympathetic fibers via vagus nerve. When active- increases digestion and gastric juice secretion. Also sympathetic fibers via thoracic splanchnic nerves. Inhibits gastric activity when active

Question 71

How is the muscularis layer of the stomach modified?

Answer 71

Stomach has 3 layers of muscle, but the muscularis has an oblique muscle layer- provides extra muscle layer to generate force. Importance- stomach plays a role in mixing and moving food, pummeling it to smaller pieces to increase surface area

Question 72

How is the mucosa of the stomach modified?

Answer 72

Surface epithelia is simple columnar cells that secrete large amounts of mucus. Lining dotted with gastric pits, lead into gastric glands- gastric juices produced here.

Question 73

Gastric gland cells (4)

Answer 73

1. Mucous neck cells
2. Parietal cells
3. Chief cells
4. Enteroendocrine cells

Question 74

Mucus neck cell

Answer 74

Produces acidic, thin mucus. Function of the mucus is unclear

Question 75

Parietal cell

Answer 75

secrete HCl and intrinsic factor

Question 76

HCl

Answer 76

HCl makes the stomach extremely acidic- pH 1.5-3.5 is normal. Importance- activates protein-digesting enzyme pepsin, denatures proteins and breaks down plant cell walls, kills off many bacteria. Acidic conditions aren’t good for bacterial growth or survival

Question 77

Intrinsic factor

Answer 77

Substance necessary for vitamin B12 absorption in small intestine. Without B12, people develop megaloblastic anemia- this vitamin is important for producing RBCS. Lack of B12 also makes neurons and muscle cells fire abnormally, DNA synthesis won’t occur

Question 78

Chief cells

Answer 78

Produce pepsinogen. Pepsinogen converted to pepsin by HCl. Function- pepsin breaks down proteins to amino acids

Question 79

Enteroendocrine cells

Answer 79

Release 4 hormones: histamine, serotonin, somatostatin, gastrin

Question 80

Histamine

Answer 80

Stimulates parietal cells to release HCl. Useful for before you start eating

Question 81

Serotonin

Answer 81

Stimulates contraction of muscle in stomach wall. Interacts with smooth muscle cells in muscularis externa to stimulate smooth muscle contractions

Question 82

Somatostatin

Answer 82

Plays several inhibitory roles in the stomach and other organs. More likely to be released in between meals

Question 83

Gastrin functions (4)

Answer 83

1. Increases HCl secretion
2. Stimulates contraction of intestinal muscle
3. Releases ileocecal valve
4. Stimulates mass movement of material.

Question 84

Purpose of the mucosal barrier in the stomach

Answer 84

Stomach must be protected from its own secretion of gastric juice

Question 85

3 mechanisms of protection of the stomach (3)

Answer 85

1. Thick coating of alkaline mucus on the internal surface of the stomach wall
2. Epithelial cells joined by tight junctions
3. Damaged epithelial cells shed and are quickly replaced

Question 86

Importance of tight junctions in the stomach

Answer 86

Importance- gastric juices cannot escape/leak from stomach or internal organs would corrode

Question 87

How often are epithelial cells in the stomach replaced?

Answer 87

Damaged epithelial cells shed and are quickly replaced. Undifferentiated stem cells in gastric pits replace damaged cells. You produce a new stomach lining every 3-6 days

Question 88

Contractile activity of the stomach

Answer 88

This is important because the stomach has to push food into small intestine. Smooth muscle is thickest at the bottom of the stomach (pyloris), and the strongest contractions occur here- greater mixing/churning

Question 89

Retropulsion of the stomach

Answer 89

As food is mixed/churned in pylorus, small amounts of liquid/small food particles can pass through the pyloric valve. This mixture of gastric juices and partially digested food is called chyme. The pyloric sphincter closes mid-contraction, forcing the rest of the food backward to be mixed/churned more

Question 90

What establishes the rate of contraction of the stomach?

Answer 90

Rate of contraction established by enteric pacemaker cells. These cells don’t control how hard the stomach contracts. The more you stretch smooth muscle cells, the harder they will contract

Question 91

Rate of stomach emptying is dependent on (3)

Answer 91

1. What’s in the stomach
2. How distended the stomach is
3. Contents of the first part of the small intestine

Question 92

How does what’s in the stomach determine the rate of stomach emptying?

Answer 92

Liquids empty more quickly since they don’t need to be broken down into smaller pieces

Question 93

How does distention of the stomach determine the rate of stomach emptying?

Answer 93

More food= stronger contractions, which means more food is pushed into the intestine at once and the stomach empties more quickly

Question 94

How do contents of the small intestine determine the rate of stomach emptying?

Answer 94

Receptors in duodenum react to incoming food- suppress gastric secretions to slow gastric emptying. Suppression of pyloric contractions in the stomach. Incoming fatty chyme- fats take more time to digest than carbohydrates, linger in duodenum longer

Question 95

Accessory organs to the alimentary canal (6)

Answer 95

1. Liver
2. Gallbladder
3. Pancreas
4. Salivary gland
5. Tongue
6. Teeth

Question 96

4 lobes of the liver

Answer 96

right, left, caudate, and quadrate

Question 97

Falciform ligament

Answer 97

Divides left lobe of the liver from the right, suspends liver from diaphragm

Question 98

Round ligament

Answer 98

Is a remnant of the umbilical veins

Question 99

Common hepatic ducts

Answer 99

Liver products drain from lobes via common hepatic ducts. The liver has more than 500 functions, not all of them are digestive. Produces bile, which is important for digestion

Question 100

Microscopic anatomy of the liver

Answer 100

Liver composed of tightly packed, hexagon shaped liver lobules. Each liver lobule is packed with liver cells (hepatocytes). A central vein runs through the center of each lobule. The vein brings the processed blood to the hepatic vein, where it enters general circulation again. Each corner of a lobule contains a portal triad

Question 101

A portal triad consists of

Answer 101

1. Hepatic artery branch
2. Hepatic portal branch
3. Bile duct

Question 102

Liver sinusoids

Answer 102

Drain blood from portal triad, emptying into the central vein

Question 103

Bile canaliculi

Answer 103

Drain bile secreted by hepatocytes- enter bile duct of portal triad. Bile eventually drains into duodenum

Question 104

Hepatocyte functions (4)

Answer 104

1. Bile secretion
2. Processes bloodborne nutrients
3. Store fat soluble vitamins
4. Detoxifies blood

Question 105

Bile

Answer 105

Yellow green alkaline solution produced by the hepatocytes. Bile salts and bilirubin

Question 106

Bile salts

Answer 106

Component of bile aiding in digestion and absorption of fats. Bile salts are not disposed of by the body- constantly recycled. Recirculate 4-12 times per day, depending on how fatty your meals are. Saves the body energy of having to produce large amounts of new bile daily

Question 107

Bilirubin

Answer 107

Bile pigment formed by heme breakdown. Absorbed from blood in liver, excreted into bile, metabolized in small intestine by bacteria

Question 108

Cirrhosis

Answer 108

End stage liver failure, fibrosis of the liver. Healthy liver tissue is damaged, hepatocytes replaced by scar tissue. Liver function decreases, scar tissue obstructs vessels of hepatic portal system

Question 109

Causes of cirrhosis (4)

Answer 109

1. Build up of fats in liver tissue, some things that can cause this are Type 2 diabetes, PCOS, and sleep apnea
2. Too much iron stored
3. Hepatitis (B, C, and D especially)- the longer it has been going on, the more likely liver damage will be
4. Alcoholism

Question 110

How does too much iron cause cirrhosis?

Answer 110

Hereditary hemochromatosis- more iron than needed is absorbed from the digestive tract. Free iron is toxic, so it goes to the liver, but liver function is eventually affected.

Question 111

How does alcoholism cause cirrhosis?

Answer 111

Large amounts of excessive alcohol intake. Alcohol is a toxin- the liver filters the blood. Can take anywhere from a decade to 2 or 3 decades of heavy drinking to cause cirrhosis

Question 112

Treatment for cirrhosis

Answer 112

Liver transplant. Liver is a regenerative tissue- can regenerate if part of it is lost. With cirrhosis, it can’t- replaced by nonfunctional scar tissue. Recipient can “grow” new liver from a donor piece- won’t be exactly the same, but will still have a function. Donor can regrow the piece lost to transplant

Question 113

Gallbladder

Answer 113

Sits in a shallow fossa on the inferior surface of the liver, very green in color when filled. When empty- has honeycomb like folds. Function- concentrated bile storage. Absorption of water and ions allows for concentration of bile

Question 114

Pancreas function

Answer 114

Secretes substances that help digest a wide variety of foodstuff. The exocrine part of pancreas secretes pancreatic juice, the endocrine part contains pancreatic islets.

Question 115

Exocrine part of pancreas (2 parts)

Answer 115

1. Acini- synthesizes, stores, and secretes digestive enzymes. In pancreas- digestive enzymes are inactive
2. Ducts- transports secretions of acini

Question 116

Endocrine part of pancreas (2 parts)

Answer 116

1. Alpha cells- secrete glucagon. Increase blood glucose levels
2. Beta cells- secrete insulin. Decrease blood glucose levels

Question 117

Composition of pancreatic juice

Answer 117

Inactive while in the pancreas. Composed of water, enzymes, electrolytes (mostly bicarbonate). Alkaline in nature- neutralizes acidic chyme entering the small intestine from the stomach

Question 118

Digestive enzymes found in pancreatic juice (4)

Answer 118

1. Amylase (starches)
2. Proteases (proteins)
3. Lipases (fats)
4. Nucleases (nucleic acids)

Question 119

Where is the small intestine located?

Answer 119

Named for diameter, not length. The small intestine is actually longer than the large intestine. Extends from the pyloric sphincter to the ileocecal valve.

Question 120

3 subdivisions of the small intestine

Answer 120

1. Duodenum
2. Jejunum
3. Ileum- joins to large intestine at the ileocecal valve

Question 121

Duodenum

Answer 121

Digestive juices of liver and pancreas empty into duodenum via major duodenal papilla. Shortest of all the segments, major digestive portion of the small intestine

Question 122

Jejunum

Answer 122

Connects duodenum to ileum

Question 123

Ileum

Answer 123

Joins to large intestine at the ileocecal valve

Question 124

Circular folds of small intestine

Answer 124

Permanent folding of submucosa and mucosa. Function- forces chyme to move slowly- increases absorptive capacity since surface area is increased

Question 125

Villi of the small intestine

Answer 125

Projections of mucosa. Function- increases surface area of small intestine to increase absorption. Center of each villus has blood supply and lacteal. Villi are largest in duodenum, become smaller through jejunum and ileum

Question 126

Intestinal crypts of the small intestine

Answer 126

Tubular glands in wall of small intestine. Contain different types of cells that secrete products

Question 127

Cells of intestinal villi and crypts (5)

Answer 127

1. Enterocyte
2. Goblet cells
3. Enteroendocrine cells
4. Paneth cells
5. Stem cells- continuously dividing cells that replenish mucosa, can replace any of the above cells

Question 128

Enterocyte

Answer 128

Simple columnar cells with microvilli. Function- absorbing nutrients in villi, secrete intestinal juice in crypts

Question 129

Paneth cells

Answer 129

release defensins and lysozyme

Question 130

Digestive roles of the small intestine (2)

Answer 130

1. Enzymes for digestion

2. Regulates chyme entry

Question 131

Brush border enzymes

Answer 131

Digestive enzymes of the small intestine that break down macromolecules into monomers

Question 132

How does the small intestine regulate chyme entry?

Answer 132

Large amounts of acidic chyme can damage the small intestine. Acidic chyme is hypertonic to the blood plasma. Small intestine only lets small amounts of chyme enter at one time

Question 133

Segmentation

Answer 133

Contractions in small intestine that slows rate of movement of chyme. Segmentation is forward and backward movement- not like the wave-like contractions of peristalsis. Function- contractions push chyme back and forth

Question 134

What initiates contractions of the small intestine?

Answer 134

Pacemaker cells initiate contractions. Cells in duodenum depolarizes faster than ileum- allows for “forward” movement overall

Question 135

What happens in the small intestine after a meal?

Answer 135

Parasympathetic nervous system enhances segmentation. Chyme is moved slowly to increase digestion and absorption

Question 136

Motilin

Answer 136

Between meals, hormone motilin is released when most absorption has already occurred. Long peristaltic waves begin in small intestine- moves waste, debris, and sloughed off cells toward large intestine. As soon as next meal comes in- motilin release decreases, segmentation begins again

Question 137

Ileocecal valve

Answer 137

Controls passage of materials from small intestine to large intestine. Is mostly closed, but relaxes due to 2 factors

Question 138

What relaxes the ileocecal valve? (2)

Answer 138

1. Gastroileal reflex

2. Gastrin

Question 139

Gastroileal reflex

Answer 139

Increases force of segmentation in small intestine and relaxes valve

Question 140

Gastrin

Answer 140

Hormone that increases small intestine motility, relaxes valve

Question 141

3 structures found in the large intestine and nowhere else in the alimentary canal

Answer 141

1. Teniae coli
2. Haustra
3. Epiploic appendages

Question 142

Teniae coli

Answer 142

Bands of smooth muscle tissue from longitudinal layer. Causes puckering of wall of large intestine

Question 143

Haustra

Answer 143

“Pockets” formed from teniae coli. Gives colon its segmented appearance. Function- contractions of individual haustra aid motility in large intestine

Question 144

Epiploic appendages

Answer 144

Fat filled pouches that hang from the surface of large intestine. Function is unclear

Question 145

6 subdivisions of the large intestine

Answer 145

1. Cecum
2. Appendix
3. Colon
4. Sigmoid colon
5. Rectum
6. Anus

Question 146

Cecum

Answer 146

Sac-like structure making up the first part of the large intestine. Large intestine divided from small intestine at ileocecal valve

Question 147

Appendix

Answer 147

Extends off from cecum. Lymphoid organ- MALT. Stores extra bacteria- can recolonize gut when necessary

Question 148

Colon (3 parts)

Answer 148

1. Ascending colon travels up the right side of the abdominal cavity
2. Transverse colon crosses abdomen right to left
3. Descending colon travels down left side of abdominal cavity

Question 149

Sigmoid colon

Answer 149

point at which colon enters the pelvis

Question 150

Rectum

Answer 150

Temporary holding site for feces. Contains rectal valves- prevent feces from being passed with gas

Question 151

Anus

Answer 151

Opens to the exterior of the body (the “end” of the alimentary canal), has 2 sphincters

Question 152

2 sphincters of the anus

Answer 152

1. Internal anal spinchter- composed of smooth muscle

2. External anal spinchter- composed of skeletal muscle tissue

Question 153

Microanatomy of the large intestine

Answer 153

Mostly simple columnar epithelia. Exception- anal canal is stratified squamous epithelia. Abundant crypts packed with goblet cells- mucus secreted reduces friction. No villi, brush border, or circular folds. Digestion is almost entirely complete before entering large intestine

Question 154

Bacterial flora of the large intestine

Answer 154

1000+ types of bacteria that come into the body through anus or survive harsh conditions of stomach and small intestine. Important for vitamin synthesis and fermentation

Question 155

Which vitamins does the bacteria in the large intestine synthesize?

Answer 155

B complex vitamins, some vitamin K synthesized by gut bacteria

Question 156

Fermentation

Answer 156

Bacteria can ferment indigestible carbohydrates and mucin- produces short chain fatty acid- used for fuel by body cells. Fermentation results in 500 ml of gas produced per day. The more indigestible carbohydrates you consume, the more gas you produce

Question 157

Motility of the large intestine

Answer 157

Slow, sluggish contraction in haustra. Contractions allow mixing of residue to increase water absorption

Question 158

Mass movements in the large intestine

Answer 158

Force residue toward rectum. Promotes final “drying out” of feces- last water is removed. Fiber strengthens mass movement and softens feces

Question 159

Defecation reflex

Answer 159

Initiated by stretching of rectal walls. Sigmoid colon and rectum contract, internal sphincter relaxes. Allowed by opening of external anal spinchter (voluntary portion). If not allowed- reflex ends, but will begin again in a few minutes

Question 160

Primary mechanism of digestion

Answer 160

Primary mechanism- enzymatic hydrolysis. Enzymes break down large food molecules to monomers, and are secreted in lumen by intrinsic and accessory glands

Question 161

Where is most digestion accomplished?

Answer 161

Most accomplished in small intestine. Pancreatic enzymes break down large molecules into smaller molecules. Brush border enzymes from small intestine break down various molecules into monomers- lipases and bile both necessary for fat digestion

Question 162

How does absorption occur?

Answer 162

Substances must move through the enterocytes from apical membrane- basal membrane of small intestine, and must pass through interstitial fluid, diffuse into capillaries. Nonpolar substances absorbed passively, anything else must be actively transported. Nothing you eat can be absorbed in the small intestine until it is broken down to its simplest form- monomers

Question 163

Sources of carbohydrates (3)

Answer 163

1. Polysaccharides
2. Disaccharides
3. Monosaccharides

Question 164

Polysaccharides

Answer 164

Starch and glycogen. Remember- starch digestion begins in the mouth. Polysaccharides initially broken down into oligosaccharides- chains of 2-8 glucose molecules linked together

Question 165

Disaccharides (3)

Answer 165

Sucrose, lactose, maltose. Maltose found in grains, lactose in milk, sucrose in fruit

Question 166

Monosaccharides (3)

Answer 166

Glucose, fructose, and galactose. These are monomers absorbed by the small intestine

Question 167

How are polysaccharides broken down? (5 steps)

Answer 167

1. Polysaccharides broken down into oligosaccharides (chains of 6-8 glucose molecules) and disaccharides by pancreatic amylase.
2. Brush border enzymes (dextrinase and glucoamylase) break down disaccharides and oligosaccharides into monosaccharides
3. Monosaccharides transported through enterocyte. Glucose and galactose- secondary active transport. Fructose- facilitated diffusion
4. Monosaccharides exit enterocyte at basal membrane- facilitated diffusion
5. Enter bloodstream via intercellular clefts

Question 168

Sources of proteins (3)

Answer 168

1. Dietary proteins
2. Enzyme proteins secreted into GI tracts by glands
3. Proteins from sloughed off/disintegrating mucosal cells

Question 169

How much dietary protein do we consume per day?

Answer 169

125 mg

Question 170

Where does the digestion of protein begin?

Answer 170

Digestion begins in stomach with activation of pepsin

Question 171

Which pancreatic proteases break down proteins? (2)

Answer 171

1. Trypsin and chymotrypsin- break down larger proteins into smaller fragments
2. Carboxypeptidase- split off individual amino acids

Question 172

Protein digestion process (4 steps)

Answer 172

1. Proteins broken down by pancreatic proteases
2. Brush border enzymes split remaining protein fragments into individual amino acids
3. Amino acids are cotransported into enterocyte
4. Amino acids exit enterocyte via facilitated diffusion, enter blood via intercellular clefts

Question 173

Sources of lipids

Answer 173

Triglycerides

Question 174

Where does digestion of lipids begin?

Answer 174

Digestion begins in small intestine- pancreatic juices containing lipases and bile necessary for fat digestion

Question 175

Monomers of lipids

Answer 175

Monomers- fatty acids and monoglycerides

Question 176

Emulsification

Answer 176

Bile salts from bile break down large fat globule into smaller fat droplets. Importance- smaller fat droplets have increased surface area exposed to lipases. Emulsification does not break chemical bonds

Question 177

Digestion of lipids process (6 steps)

Answer 177

1. Emulsification
2. Pancreatic lipase- breaks down triglycerides to fatty acids and monoglycerides
3. Micelle formation- fatty acids and monoglycerides associate with bile salts again to form micelles
4. Lipids leave micelle at absorptive surface, move into enterocyte by simple diffusion
5. Chylomicron formation
6. Chylomicrons transported out of enterocyte by exocytosis

Question 178

Micelle formation importance

Answer 178

Importance- without micelle formation, fatty acids and monoglycerides would float to chyme surface, not transported to enterocyte. A micelle is an aggregate of molecules

Question 179

Chylomicron formation

Answer 179

Once inside the enterocyte, fatty acids and monoglycerides recombined to form triglycerides. Triglycerides combined with various other molecules, coated with protective, water-soluble proteins to form a chylomicron

Question 180

How are chylomicrons transported out of the enterocyte?

Answer 180

Chylomicrons transported out of enterocyte by exocytosis. Too large to pass through plasma membrane of enterocyte or the capillary walls. Instead, chylomicrons are pumped straight into lacteals lymph system. Chylomicrons exit lymph system into venous blood

Question 181

How are nucleic acids digested?

Answer 181

Pancreatic nucleases hydrolyze nucleic acids. Brush border enzymes break apart nucleotides into nitrogenous bases, pentose sugars, and phosphate ions.

Question 182

How are nucleic acids absorbed?

Answer 182

Products actively transported across small intestine epithelium, enter blood

Question 183

Functions of vitamins

Answer 183

Serve as coenzymes for reactions in the body- help enzymes to function

Question 184

Which vitamins are fat soluble? (4)

Answer 184

Vitamins A, D, E, and K are fat soluble only- absorbed through GI tract in a similar way to lipids. Usually don’t need a multivitamin if you are healthy/have a normal diet

Question 185

Which vitamins are water soluble? (2)

Answer 185

Vitamins B and C are water soluble only

Question 186

Where in the digestive tract is water absorbed?

Answer 186

95% of water absorbed in small intestine, nearly the rest by large intestine- .1 L leaves body with feces

Question 187

Sodium absorption

Answer 187

Sodium absorption coupled with movement of glucose and amino acids- moves into enterocyte on apical surface with monomers. Pumped out of enterocyte on basal surface by Na/K pump

Question 188

Potassium absorption

Answer 188

K+ moves into mucosa by facilitated diffusion. K+ absorption influenced by water absorption- anything that inhibits water absorption usually inhibits K+ absorption