3. 
Reduces particle size

Helps to absorb micronutrients and trace
elements

Sets a physical and immunologic barrier

4. Breaks down

Carbohydrates (starch and sugar) → single
sugar molecules

Proteins → amino acids

Fats → fatty acids, glycerol

5. 
Proteins that
break bonds

6. 
Is a long tube
from the mouth to
the anus

7. 
Mouth to anus


Barrier to invaders

Submucosal layer


Epithelium lines the lumen
Muscularis
Taste and smell

9. 
Muscular
contractions that
move food along
throughout GI tract

10. 
Mastication: chewing

Saliva

Salivary glands produce about 1.5 liters of
saliva daily

Salivary amylase (ptyalin) begins to break
down starch (inactivated in the stomach)

11. 
Salivary lipase: begins fat digestion, but
has minimal effect

Mucus to lubricate the food for easier
swallowing

Lysozyme to kill bacteria

12. Tongue
–
–
Taste receptors: sweet, sour, salty, bitter, savory
Enzymes to help break down fatty acids

13. 

Bolus is the food swallowed at one time
Epiglottis blocks windpipe, prevents choking

14. 
Long tube

Connects pharynx to
the stomach

Peristalsis, muscle
contraction

Lower esophageal
sphincter

Heartburn

15. 
Lower esophageal sphincter and pyloric sphincter
control entry and exit from stomach

Storage capacity of ~4 cups

Secretion of hydrochloric acid, enzymes, including
a protease, gastric lipase; mucus, the hormone
gastrin, and intrinsic factor (B12)

Stomach secretes about 2000-2500 ml of gastric
juice daily

16. 
pH of stomach is low, 1 to 4; kills many
bacteria and micro-organisms

Achlorhydria, gastrectomy, GI dysfunction or
disease ↑ risk of bacterial overgrowth in the
intestines

17. 
Protein digestion begins with pepsinogen
which is converted to active pepsin in acidic
stomach environment

Chief cells secrete acid-stable gastric lipase,
which has minor effect on shorter-chain
triglycerides

18. 
Most of a liquid meal exits in 1 to 2 hours
and most of a solid meal in 2 to 3 hours

Formation of chyme

Mucus layer protects stomach from digestion

Very little absorption of nutrients

20. 
Activates digestive enzymes

Partially digests dietary protein

Assists in calcium absorption

Makes dietary minerals soluble for
absorption

21. 
Most digestion and absorption happens
here

About 5-7 meters

Duodenum (.5 meters)

Jejunum (2-3 meters)

Ileum (3-4 meters)

22. 
Folded walls with villi projections

Absorptive cells are located on the villi

Increases intestinal surface area 600x

Rapid cell turnover

25. 
Passive diffusion: driven by concentration;
fats, water, some minerals

Active absorption: uses energy; glucose and
amino acids

Phagocytosis and pinocytosis: absorptive cells
engulf compounds, generally larger
molecules, as in immune substances in
breast milk

28. Digestion → small particles
End products of digestion:

Carbohydrates → monosaccharides

Proteins → amino acids

Fats → glycerol, fatty acids

29. Through small intestine walls
Absorbed into

Blood – water soluble nutrients

Lymph – fat soluble nutrients

Blood → liver → general circulation

Liver detoxifies and repackages

30. 
~3 1/2 feet in length

No villi or enzymes present

Little digestion occurs

Absorption of water, some minerals, vitamins

Bacteria break down fiber; produce Vitamin K

Formation of feces for elimination

31. 
Stool remains

Stimulates elimination

Muscle contraction

Anal sphincters

Voluntary control

Opens for elimination

33. 
Salivary glands

Pancreas

Gallbladder

Liver

34. Saliva

Works in mouth

Moistens

Salivary amylase

Digests starch

35. 
Produces glucagon and insulin (endocrine)

Manufactures digestive enzymes→ small
intestine

Secretes pancreatic juices

Bicarbonate needed to neutralize chyme
when it enters small intestine

36. 

Produces bile (fat digestion)
Enterohepatic circulation

37. Stores bile

Concentrates it

Releases to small intestine when
needed

39. The Digestive System

40. Sites of
Secretion,
Digestion, and
Absorption

41. 
Different nutrients leave the stomach at
different rates:
—Carbohydrates first, followed by protein,
fat, and fibrous foods

42. Secretion
Enzyme
Substrate
Action
Saliva
Ptyalin
Starch
Hydrolysis
to form
dextrins
Gastric
juice
Pepsin
Protein
Hydrolysis
of peptide
bonds
Gastric
lipase
Fats
Hydrolysis
into free
fatty acids
Final
Product

43. Secretion
Enzyme
Substrate
Action
Final
Product
Pancreatic
exocrine
secretion
Lipase
Fat
Hydrolysis to
monoglycerides
Fatty
acids
Cholesterol
esterase
Cholesterol
Hydrolysis to Cholesesters of
terol
cholesterol
and fatty acids
alphaAmylase
Starch,
dextrins
Hydrolysis
Dextrin,
maltose

44. Secretion
Enzyme
Substrate
Action
Final
Product
Pancreatic
exocrine
secretion
Trypsin
Protein
Hydrolysis Polypeptides
Chymotrypsin Protein
Hydrolysis Polypeptides
Carboxypeptidase
Polypeptides
Hydrolysis Amino acids
Ribonuclease
Ribonu-cleic Hydrolysis Monoacids
nucleotides
Elastase
Fibrous
protein
Hydrolysis Amino acids

45. Secretion
Enzyme
Substrate
Action
Brush border
enzymes
Carboxypeptidase;
aminopeptidase;
dipeptidase
Polypep-tides Hydrolysis
Enterokinase
Trypsino-gen Activates to Polypeptrypsin
tidases and
peptides
Sucrase
Sucrose
Hydrolysis
Final
Product
Amino
acids
Glucose,
fructose

46. Secretion
Enzyme
Substrate
Action
Final
Product
Brush
border
enzymes
Isomaltase
Dextrin
Hydrolysis Glucose
Maltase
Maltose
Hydrolysis Glucose
Lactase
Lactose
Hydrolysis Glucose,
galactose
Nucleotidases
Nucleic acid
Hydrolysis Nucleotides
Nucleosidases
and
phosphorylase
Nucleosidases
Hydrolysis Purine and
pyrimidine
bases

47. 
92% to 97% of the diet is absorbed

Small intestine—key role in digestion and
absorption

Intestines: 7 meters long
—Villi and microvilli/brush border

48. Villi of the Human
Intestine

49. 
GI tract compromised after starvation

Feeding results in cellular proliferation,
which restores normal gastrointestinal
architecture and function after a few days

50. 
The major portion of fat digestion takes
place in the small intestine as a result of
pancreatic lipase

51. Summary of
Fat Absorption

52. Transport Pathways through the Cell Membrane

53. 
5 feet long

Bacterial action to produce gases and
organic acids

Nutrients formed here—vitamin K, thiamin,
vitamin B12, riboflavin

54. The Gradual Breakdown of Large Starch Molecules

55. Process of Digestion of Carbohydrate

56. Sites of Secretion and Absorption
into Gastrointestinal Tract

57. 
Alpha-aminobutyric acid: relaxes LES

Norepinephrine: decreases motility,
increases contractions of sphincters,
inhibits secretions

Acetylcholine: increases motility, relaxes
sphincters, stimulates secretions

58. 
Neurotensin: inhibits release of gastric
emptying and acid secretion

Neuropeptide-Y: stimulates feeding behavior

59. 
Released from gastric mucosa and
duodenum in presence of peptides and
amino acids; stimulates secretion of
hydrochloric acid and pepsinogen; increases
gastric antral motility, increases LES tone

60. 
Secretin: from duodenal mucosa in presence
of acid in small intestine; stimulates
pancreas to secrete water and bicarb; also
insulin and pancreatic enzymes

61. 
Released from proximal small bowel in
presence of peptices, amino acids, fat, HCL,
stimulates pancreas to release pancreatic
enzymes

62. 
Released from small intestine in presence of
glucose and fat; inhibits gastrin-stimulated
release of gastric acid

63. 
Released from stomach and small and large
intestine in presence of biliary and
pancreatic secretions; promotes gastric
emptying and increases GI motility

64. 
Released from stomach, pancreas, and
upper small intestine in presence of acidity
and products of protein and fat digestion;
inhibits release of gastrin, motilin, and
pancreatic secretions; decreases motility of
GI tract

65. 
It’s important to know the physiology and
function of the GI tract in order to understand
the implications of pathophysiology