Chapter 23 The digestive system
6. List and describe the function of the secretions produced in these digestive organs: salivary glands, esophagus, stomach, small intestines, liver, gall bladder, and pancreas.
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Be able to draw and/or label the major layers of the digestive tract.
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Describe all major cell types found in gastric glands and gastric pits, and their secretions (focus on parietal cells, chief cells, and enteroendocrine cells).
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Describe the components and function of bile
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Describe the function, site of production and site of action of the digestive hormones gastrin, secretin, and CCK.
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Describe the histological organization of the digestive tract.
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Describe the regulation of gastric activity (3 overlapping phases; intestinal phase has two parts to it).
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For the mucosal layer, also know the sublayers. Understand the salient (important) features of each layer. Be able to recognize any specialized features found in different parts of the digestive tract (e.g., extra muscle layer in stomach; specialized features in epithelia of stomach and small intestine).
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Know the basic categories of pancreatic enzymes, and their substrates.
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Know two local neurotransmitters that stimulate and two local neurotransmitters that inhibit smooth muscle contraction in the gut.)
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Liver: Microscopic Anatomy
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Understand the basic anatomy of this organ (hepatocytes, lobules, and portal triads
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esophagus
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gall bladder
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liver
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pancreas
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salivary glands
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small intestines
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stomach
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the function of carbonic acid
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Enteric Nervous System: stimulate
ACh and Substance P stimulate smooth muscle contraction
Accessory Digestive Organs
Accessory Digestive Organs Teeth Physically grind down foods Tongue Manipulates food, assists with swallowing Salivary glands (Sublingual, Submanibular, Parotid), Gallbladder, Liver, and Pancreas
Understand the role of pancreatic acinar cells?
Acinar cells, forming the bulk of the gland, produce an enzyme rich juice that is carried by ducts to the small intestine during digestion
pancreas: Exocrine function
Acini (clusters of secretory cells) secrete pancreatic juice Zymogen granules of secretory cells contain digestive enzymes Epithelial cells in walls of smaller ducts release bicarbonate in response to secretin
peristalsis
Adjacent segments of alimentary tract organs alternately contract and relax, which, along with gravity, moves food down the tract
First of 2 Groups of Organs
Alimentary Canal (Gastrointestinal or GI tract; also called "gut") One long muscular tube, open on both ends Consists of mouth, pharynx, esophagus, stomach, small intestine, and large intestine Digests and absorbs food
alkaline tide is
As H+ is pumped from the cell and HC03- is ejected through the basal cell membrane into the capillary blood. As a result, blood draining from the stomach is more alkaline than the blood serving it. This is called alkaline tide.
CCK and secretin
Both secretin and cholecystokinin prompt the pancreas to secrete its juice. Secretin, released in response to the presnce of HCl in the intestin,e, mainly targets the pancreatic duct cells, resulting in a watery bicarbonate rich pancreatic juice. CCK, released in response to proteins and fats in chyme, stimulates the acini to release enzyme rich pancreatic juice, and potentiatesthe effect of secretin.
Know the roles of the brush border and its enzymes, and why the location of the enzymes is advantageous?
Brush border enzymes take breakdown of products of digestion to production of monomers that can be absorbed into blood and lymphatic vessels.
What does CCK cause at the intestine/gall bladder/ pancreas
CCK is secreted in response to the entry of chyme rich in protein and fat into the duodenum. It causes the pancreatic acini to secrete digestive enzymes and stimulates the gallbladder to contract
Mastication
Chewing food is called mastication. Food mixes with saliva (including water, mucus, and digestive enzymes).
Intrinsic nerve supply of alimentary canal
Contains > 100 million neurons - more than are found in spinal cord!
Chemical Digestion of Carbohydrates
Digestive enzymes Salivary amylase Pancreatic amylase Brush border enzymes (dextrinase, glucoamylase, lactase, maltase, and sucrase)
Defecation:
Elimination of undigestible substances from body via anus as feces
What is enteropeptidase?
Enteropeptidase (also called enterokinase) is an enzyme produced by cells of the duodenum and involved in human digestion. It is secreted from intestinal glands (the crypts of Lieberkühn) following the entry of ingested food passing from the stomach.
Chemical Digestion of Proteins
Enzymes: pepsin in the stomach Pancreatic proteases Trypsin, chymotrypsin, and carboxypeptidase Brush border enzymes Aminopeptidases, carboxypeptidases, and dipeptidases
Salivary Glands: extrinsic
Extrinsic salivary glands (parotid, submandibular, and sublingual)
Serous membrane
Familiar parietal and visceral layers with fluid-filled cavity in between Parietal layer lines walls of cavity Visceral layer is transparent and directly lines most organs Fluid lubricates mobile organs in the cavity
esophagus
Flat muscular tube from laryngopharynx to stomach Joins stomach at cardiac orifice Esophageal mucosa contains stratified squamous epithelium Changes to simple columnar at the stomach Esophageal glands in submucosa secrete mucus to aid in bolus movement Muscularis: skeletal superiorly; smooth inferiorly Adventitia instead of serosa
Villi of the Duodenum
For electrolyte and nutrient absorption and for chemical digestion Are fingerlike extensions (~1 mm high) of the mucosa Epithelium of villi: Simple columnar absorptive cells (enterocytes) Many goblet cells release mucus
Be familiar with the hepatic portal circulation
Hepatic portal circulation is nutrient-rich venous blood that drains from digestive viscera and is delivered to liver, where it is "treated" before being returned to the rest of the body
Liver lobules
Hexagonal structural and functional units -Filter and process nutrient-rich blood -Composed of plates of hepatocytes (liver cells) Longitudinal central vein
Segmentation
In segmentation, nonadjacent segments of alimentary tract organs alternately contract and relax, moving food forward and backward. Slows movement through tract Increases food mixing and contact with enzymes and wall of lumen
Submucosal nerve plexus
In submucosa Sensory and motor fibers Regulates glands and smooth muscle in mucosa
Salivary Glands: intrinsic
Intrinsic (buccal) salivary glands are scattered in the oral mucosa (mouth)
Deglutition (swallowing)
Involves the tongue, soft palate, pharynx, esophagus, and 22 muscle groups Buccal phase Voluntary contraction of the tongue Pharyngeal-esophageal phase Involuntary Control center in medulla and lower pons
swallowing
It is mechanically broken apart to form a bolus, which is then swallowed. Bolus passes through pharynx with no chemical or mechanical digestion; is called chyme after it enters the stomach
Enteric nervous system
Linked to CNS via afferent visceral fibers Long ANS fibers synapse with enteric plexuses Sympathetic impulses inhibit secretion and motility Parasympathetic impulses stimulate
long relexes
Long reflexes involve the central nervous system
Be able to recognize or describe a short reflex versus a long reflex.
Long reflexes involve the central nervous system Short reflexes are carried out by the enteric nervous system with no CNS involvement
Small Intestine: Gross Anatomy
Major organ of digestion, absorption 2-4 m long; from pyloric sphincter to ileocecal valve Subdivisions Duodenum Jejunum Ileum
Digestive System Functions
Makes it possible to engage in one of life's greatest pleasures - eating! Breaks down foods to forms of nutrients that can be absorbed and used by the body Site of vitamin synthesis Absorbs usable substances, discards the rest Protects against foreign invaders Plays a role in water and electrolyte balance
Know what the alkaline tide is
Meanwhile, HCO3- accumulates in the parietal cell HCO3- is ejected through basal (side away from lumen) cell membrane into blood/interstitial fluid in exchange for Cl-. This is the alkaline tide Consequence: blood returning from stomach region is more alkaline than usual Consequence: Cl- supply in parietal cells is replenished
Alimentary Canal Organs, In Order
Mouth Pharynx Esophagus Stomach Small Intestine (Duodenum Jejunum Ileum) Large Intestine (Cecum (w/Appendix) Ascending Colon Transverse Colon Descending Colon Sigmoid Colon Rectum Anal Canal)
Also know which organs/structures are involved in mastication and swallowing (deglutition)
Mouth to pharynx Chewing food is called mastication. Food mixes with saliva (including water, mucus, and digestive enzymes). It is mechanically broken apart to form a bolus, which is then swallowed. Bolus passes through pharynx with no chemical or mechanical digestion; is called chyme after it enters the stomach
Stomach: Microscopic Anatomy
Mucosa -Simple columnar epithelium composed entirely of mucous cells Layer of alkaline mucus traps bicarbonate-rich fluid beneath it -Otherwise smooth lining dotted with gastric pits that lead into tubular gastric glands that produce gastric juice, among other things
Enteric Nervous system: inhibit
NO and vasoactive intestinal peptide (VIP) inhibit smooth muscle contractions
gastric pits
Otherwise smooth lining dotted with gastric pits that lead into tubular gastric glands that produce gastric juice, among other things
Pancreatic enzymes
Pancreatic enzymes are natural chemicals that help break down fats, proteins and carbohydrates.
other features of duodenum
Paneth cells, deep in crypt, release antimicrobial/antibacterial substances and help to determine which bacteria colonize intestinal lumen Submucosa contains duodenal (Brunner's) glands that secrete alkaline mucus to counteract acidity of recently arrived chyme
parasympathetic
Parasympathetic nervous system activity stimulates salivation Parasympathetic impulses stimulate
How do the parasympathetic and sympathetic nervous systems influence digestive functions?
Parasympathetic nervous system activity stimulates salivation Strong sympathetic stimulation inhibits salivation and results in dry mouth (xerostomia) Sympathetic impulses inhibit secretion and motility Parasympathetic impulses stimulate
Absorption:
Passage of digested end products across digestive system lumens through mucoscal cells and into blood or lymph
Understand where the parietal and visceral peritoneum are found.
Peritoneum is mucus membrane that lines abdominopelvic cavity
Digestive Processes in the Stomach
Physical digestion via churning Denaturation of proteins in highly acidic environment Enzymatic digestion of proteins by pepsin Secretes intrinsic factor required for absorption of vitamin B12 Lack of intrinsic factor pernicious anemia Delivers chyme to small intestine with controlled rate of delivery
Chemical Digestion of Lipids
Pre-treatment—emulsification by bile salts Enzyme—pancreatic lipase
Gastric Gland Secretions
Primary functions of gastric juice: Provide HCl (creates acidic environment needed for protein denaturation and function of pepsin in hydrolysing proteins Provide pepsin to catalyse breakdown of proteins Provide chemical messengers that assist with HCl release and coordinate or bring about other digestive activity in stomach and intestines Assist with vitamin B12 absorption
What roles are played by the ENS?
Produce and coordinate local movements Orchestrate secretions Work independently or in association with the central nervous system (via short or long reflexes)
A Form of Propulsion: Peristalsis
Propulsion moves food through alimentary canal. One tool (besides swallowing) is peristalsis, in which Adjacent segments of alimentary tract organs alternately contract and relax, which, along with gravity, moves food down the tract
Enteroendocrine cells, including G cells
Secrete gastrin, histamine, serotonin, somatostatin, and other chemical messengers May exert local or hormonal effects depending on messenger
Parietal cells
Secrete hydrochloric acid (HCl) and intrinsic factor
Chief cells
Secrete pepsinogen
What role does secretin play?
Secretin, released by intstinal cells exposed to fatty chyme, also stimulates liver cell to secrete bile.
Salivary glands function
Secretion of lubricating fluid containing enzymes that break down carbodydrates
Understand the mechanics and function of peristalsis and how it is different from segmentation.
Segmentation mixes food with digestive juices and increases the efficiency of absorption by repeatedly moving different parts of the food mass over the intestine wall. Segmentation is part of mechanical digestion. Peristalsis is part of propulsion. Peristalsis the major means of propulsion, involves alternate waves of contraction and relaxation of muscles in the organ walls. Its main effect is to squeeze food along the tract, but some mixing occurs as well.
Chemical digestion
Series of steps in which complex food molecules are broken down into their chemical building blocks by enzymes (catabolic activity)
short reflexes
Short reflexes are carried out by the enteric nervous system with no CNS involvement
Cholecystokinin (CCK)
Site of production: Duodenal mucosa Stimulus for production: fatty chyme, in particular, but also partially digested proteins Target organ: liver/pancreas: protentiates secretin's action on these organs gallbladder: stimulates organ to contract and expel stored bile hepatopancreatic sphincter: relaxes sphincter to allow entry of bile and pancreatic juice into duodenum.
Gastrin
Site of production: stomach mucosa (g cells) Stimulus or production: food in stomach (chemical stimulation); acetylcholine released by nerve fibers target organ stomach (parietal cell): increases HCl secretion and stimulate gastric emptying Small intestine: stimulates contraction of intestinal muscle ileocecal valve: relaxes ileocecal valve large intestine: stimulates gastric glands and motility
Digestive Processes: six essential activitest
Six essential activities 1. Ingestion 2. Propulsion 3. Mechanical digestion 4. Chemical digestion 5. Absorption 6. Defecation
sympathetic
Strong sympathetic stimulation inhibits salivation and results in dry mouth (xerostomia) Sympathetic impulses inhibit secretion and motility
The stomach
Temporary "storage tank" Can expand tremendously From volume of ~ 50 ml to ~ 4,000 ml As it collapses inward, mucosa and submucosa form large longitudinal folds (rugae)
teeth incisors
The chisel shaped incisors are adapted for cutting or nipping off pieces of food
List and describe the major digestive functions of the liver that pertain to digestion.
The liver has multiple functions, but its main function within the digestive system is to process the nutrients absorbed from the small intestine. Bile from the liver secreted into the small intestine also plays an important role in digesting fat. In addition, the liver is the body's chemical "factory." It takes the raw materials absorbed by the intestine and makes all the various chemicals the body needs to function. The liver also detoxifies potentially harmful chemicals. It breaks down and secretes many drugs.
What protections help to prevent or minimize damage from digestion of our own organs by acidity and by enzymes that catalyze breakdown of proteins
The mucosal barrier, which protects the stomach from self digestion and HCl, reflects the fact that the mucosal cells are connected by tight junctions, secrete a thick mucus, and are quickly replaced when damaged
teeth molars
The premolars and molars have broad crowns with rounded cusps and are best suited for grinding or crushing.
Brush border
The small intestine tract: This is where absorption takes place.[2][3The brush borders of the intestinal lining are the site of terminal carbohydrate digestions. The microvilli that constitute the brush border have enzymes for this final part of digestion anchored into their apical plasma membrane as integral membrane proteins. These enzymes are found near to the transporters that will then allow absorption of the digested nutrients. The kidney: Here the brush border is useful in distinguishing the proximal tubule (which possesses the brush border) from the distal tubule (which does not).[5][6] The brush border morphology increases a cell's surface area, a trait which is especially useful in absorptive cells. Cells that absorb substances need a large surface area in contact with the substance to be efficient.[7]
tongue
The tongue occupies the floor of the mouth and fills most of the oral cavity when the mouth is closed. The tongue also mixes food with saliva forming it into a compact mass called a bolus, and then intiiates swallowing by pushing the bolus posteriorly into the pharynx.
What are two types of cells found in the Salivary glands
Two types of secretory cells: Serous cells produce watery secretion with enzymes, ions, a bit of mucin Mucous cells secrete mucus
Understand how cells of the stomach contribute to the formation of hydrochloric acid (HCl).
When protein foods are in the stomach, the pH of the gastric contents generally rises because proteins act as buffers to tie up H+. The rise in pH stimulates gastrin secretion and subsequently HCl release, which in turn provides the acidic conditions needed for protein digestion. The more protein in the meal, the greater the amount of gastrin and HCl released. As proteins are digested, the gastric contents gradually become more acidic, which again inhibits the gastrin secreting cell. This negative feedback mechanism helps maintain optimal pH and working conditions for the gastric enzymes
large intestine
ascending, transverse, descending, and sigmoid colon and rectum/anus
liver: portal triad
at each corner of lobule -Bile duct receives bile from bile canaliculi -Portal arteriole is branch of hepatic artery -Hepatic venule is branch of hepatic portal vein
CCK
besides cuasing the gallbladder to contract, CCK stimulates secretion of pancreatic juice and relaxes the hepatopancreatic sphincter so that bile and pancreatic juice can enter the duodenum.
stomach function
chemical breakdown of materials by acid and enzymes; mechanical processing through muscular contractions
Define the enteric nervous system (ENS).
communicate widely with one another to regulate digestive system activity.
small intestine (duodenum, jejunum, and ileum),
duodenum, jejunum, and ileum
large intestine function
enzymatic digestion and absorption of water, organic substrates, vitamins, and ions
splanchnic circulation
includes arteries that branch off abdominal aorta and serve digestive organs
Ingestion
is act of putting food in mouth
Mechanical digestion
is physical process of preparing food for chemical digestion; includes chewing, mixing, churning, segmentation*
What is the function of these structures, and of the mesenteries (omenta)?
it's a double layer of peritoneum Provides routes for blood vessels, lymphatics, and nerves Holds organs in place; stores fat
Propulsion
moves food through the system; includes swallowing and peristalsis*
Myenteric nerve plexus
n muscularis externa Provide major nerve supply to GI tract wall Controls GI tract motility
Intraperitoneal (peritoneal)
organs are surrounded by peritoneum
Retroperitoneal
organs lie posterior to peritoneum
Pancreas: endocrine function
pancreatic islets secrete insulin and glucagon
Mucous neck cells
secrete thin, acidic mucus
liver function
secretion of bile (important for lipid digestion) storage of nutrients, many other vital functions
secretin
site of production: duodenal mucosa stimulus or production: acidic chyme (also partially digested proteins, fats, hypertonic or hypotonic fluids, or irritants in chyme. stomach: inhibits gastric gland secretion and gastric motility during gastric phase of secretion
gallbladder
storage and concentration of bile
teeth canines
the conical or fanglike canines (cuspids or eye teeth) tear and pierce
Esophagus function
transport of materials to the stomach