1. Department of physiology
Aimst university
Department of physiology
DR.P.SUNITHA

2. COMPONENTS OF FOOD CARBOHYDRATES: STARCH ( POLYSACCHARIDE)
SUCROSE( DISACCHARIDE)
LACTOSE ( A DISACCHARIDE IN MILK)
CELLULOSE(DIETARY FIBER) NOT DIGESTED IN HUMAN GIT
PROTEINS
FATS (TRIGLYCERIDES)
Minerals Na, K, Ca, PO4, Fe
Vitamins
Water

3. DIGESTION AND ABSORPTION OF FOOD STUFFS

4. Features of Digestion and Absorption
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

5. Digestion in the Stomach
Different nutrients leave the stomach at different rates:
—Carbohydrates first, followed by protein, fat, and fibrous foods

6. DIGESTION OF STARCH MOUTH SALIVARY α- AMYLASE SPLITS SOME STARCH TO
MALTOSE( NOT IMP.)
STOMACH NIL
INTESTINE PANCREATIC- α-AMYLASE
SPLITS ALL STARCH TO MALTOSE
CELLULOSE CANNOT BE DIGESTED BECAUSE IT REQUIRES β- AMYLASE NOT PRESENT IN HUMAN GIT SECRETIONS

7. BRUSH BORDER OF SMALL INTESTINE
MALTASE
MALTOSE GLUCOSE+GLU
LACTASE
LACTOSE GLU + GALACTOSE
SUCRASE
SUCROSE GLU. +FRUCTOSE
MONOSACCHARIDES ABSORBED IN UPPER SMALL INTESTINE

8. The Gradual Breakdown of Large Starch Molecules

9. Digestion of carbohydrates
Area
Juice
Enzyme
Substrata
End product
Mouth
Saliva
Salivary amylase
Polysaccharides-cooked starch
Disaccharides-maltose
Stomach
Gastric juice
Gastric amylase
Weak amylase
Action is negligible
Small intestine
Pancreatic juice
__________
Succus entericus
Pancreatic amylase
__________Sucrase
Maltase
Lactase
Polysaccharides
-Sucrose
Maltose
lactose
Disaccharides-dextrin, maltose
______________
Glucose and fructose
Glucose, glucose
Glucose, galactose

10. Absorption of Monosaccharides
Intestinal epithelium absorbs monosaccharides:
by facilitated diffusion and co-transport
via a carrier protein

11. FATS DIGESTION MOUTH ------- NIL STOMACH-------NIL SMALL INTESTINE
PANCREATIC LIPASE AND BILE SALTS ESSENTIAL FOR DIGESTION AND ABSORPTION OF FATS

12. Digestion of fats Area Juice Enzyme Substrate End product Mouth Saliva
Lingual lipase
Triglycerides
Fatty acids
stomach
Gastric juice
Gastric lipase
Fatty acids and Glycerol
Small intestine
Pancreatic juice
Pancreatic lipase
Monoglycerides and Fatty acids

14. Digestion Fats Fats Bile salts Emulsified fat Pancreatic lipase
activation
Emulsified fat
Pancreatic lipase
Fatty acids &
2-monoglycerides

15. DIGESTION AND ABSORPTION OF FATS
1.FIRST Fats EMULSIFIED BY BILE SALTS
2. Pancreatic lipase splits triglycerides into fatty acids and glycerol
lipase
triglycerides fatty acids +glycerol

17. Lipid Absorption
Intestinal cells synthesize new triglycerides from monoglycerides and fatty acids
Triglycerides and other absorbed molecules are coated with proteins:
creating chylomicrons
Intestinal cells secrete chylomicrons into interstitial fluid by exocytosis

18. Fatty acids transported by bile salts from intestinal lumen to intestinal wall as mixed micelles
4.FATTY ACIDS ENTER INTESTINAL MUCOSAL CELL BY DIFFUSION

19. Micelle

22. PROTEINS VEGETABLE PROTEINS ANIMAL PROTEINS DIGESTION MOUTH--------NIL
STOMACH PEPSIN-----SPLITS PROTEINS TO SMALLER FRAGMENTS CALLED PROTEOSES

23. SMALL INTESTINE PANCREATIC PROTEOLYTIC ENZYMES BREAK DOWN PROTEINS AND PROTEOSES INTO AMINO ACIDS AND DI-PEPTIDES.
BRUSH BORDER DIPEPTIDASES
DI-PEPTIDES AMIN0 ACIDS
AMINO ACIDS ABSORBED

24. Digestion of proteins Area Juice Enzyme substrate End product Mouth
Saliva
No proteolytic enzyme -
Stomach
Gastric juice
Pepsin
Proteins
Proteoses, Peptones,large polypeptides
Small intestine
Pancreatic juice
Succus entericus
Trypsin
chymotrypsin
Carboxy peptidases
Peptidases
Proteoses and Peptones
Polypeptides
Large polypeptides
____________
Amino acids

25. Absorption of Amino Acids
Dipeptidases:
enzymes on epithelial surfaces of small intestine
break short peptide chains into individual amino acids
After diffusing to basal surface of cell:
amino acids are released into interstitial fluid
by facilitated diffusion and co-transport

26. Brush border di -and tri -peptidases

27. Absorption of Ions and Vitamins
Table 24–4

28. Small Intestine Absorbs Lipids 80% ingested water Monoglycerides
Electrolytes
Vitamins
Minerals
Carbonates
Active/facilitated transport
Monosaccharides
Proteins
Di-/tripeptides
Amino acids
Lipids
Monoglycerides
Fatty acids
Micelles
Chylomicrons

29. Large Intestine Functions Concentrate/eliminate wastes
Mechanical digestion
Haustral churning
Peristalsis
Reflexes
Gastroileal
Gastrocolic
Chemical digestion – Bacterial digestion
Ferment carbohydrates
Protein/amino acid breakdown
Absorbs
More water
Vitamins B K
Concentrate/eliminate wastes

30. Absorption of food stuffs

31. Absorption
The food is then ABSORBED through the wall of the small intestine into the blood stream.
To do this effectively, the small intestine needs to have a large surface area.
This is achieved in the following ways:

32. Absorption 1 The tube is over 6 meters long
The inner wall of the tube has bends in it
The wall is covered in villi (small finger-like structures)
Outer wall
Pathway for Food
Inner wall

33. The carbohydrates are absorbed from the small intestine mainly as monosaccharides viz. glucose, galactose and fructose.
The proteins are absorbed in the form of amino acids from the small intestine. The absorption of amino acids is faster in duodenum and jejunum and slower in ileum.
The fats are absorbed from the intestinal mucosa in the form of fatty acids, cholesterol and monoglycerides. Most of the fats are absorbed in upper part of small intestine. Presence of bile is essential for fat absorption.

34. Sites of Secretion and Absorption into Gastrointestinal Tract

35.  Absorption of main nutrients
* Water
8 L/day, passive & iso-osmotic absorbed
Different absorbability in different parts
* Inorganic slats
Sodium: 95%~99%, jejunum>ileum>colon
active transport
Ferrum: 1/10, mainly in duodenum & jejunum,
transferrin dependent, active transport
Calcium: promote by Vit. D, active transport
Anions: mainly Cl  & HCO3, passive transport

36. * Carbohydrate
Absorptive form: monosarccharide
Mechanism: secondary active transport
* Protein
Absorptive form: amino acid
* Fats
Absorptive form: glycerol, monoglyceride,
fatty acid, cholesterol
Mechanism: passive diffusion
Pathway: blood & lymph

37. FUNCTIONS OF DIETARY FIBER IN DIET
1.Adds bulk to food---slows down gastric emptying------lowers insulin requirement
2. Retains water –makes feces larger and softer----no constipation
3. lowers blood cholesterol by interfering with its intestinal absorption
4. Reduces incidence of diabetes mellitus
coronary art. dis
cancer colon

38.   Action of dietary fibers on the intestinal function
Reduce absorption of water; Enhance colonic
movement; Increase the volume of feces; Low
the caloric ratio of the food

39. Summary of Enzymatic Digestion and Absorption
Secretion
Enzyme
Substrate
Action
Final Product
Saliva
Ptyalin
Starch
Hydrolysis to form dextrins
Gastric juice
Pepsin
Protein
Hydrolysis of peptide bonds
Gastric lipase
Fats
Hydrolysis into free fatty acids

40. Secretion Enzyme Substrate Action Final Product
Pancreatic exocrine secretion
Lipase
Fat
Hydrolysis to mono-glycerides
Fatty acids
Cholesterol esterase
Cholesterol
Hydrolysis to esters of cholesterol and fatty acids
Choles-terol
alpha-Amylase
Starch, dextrins
Hydrolysis
Dextrin, maltose

41. Secretion Enzyme Substrate Action Final Product
Pancreatic exocrine secretion
Trypsin
Protein
Hydrolysis
Polypeptides
Chymotrypsin
Carboxy-peptidase
Polypep-tides
Amino acids
Ribonuclease
Ribonu-cleic acids
Mono- nucleotides
Elastase
Fibrous protein

42. Secretion Enzyme Substrate Action Final Product Brush border enzymes
Carboxy-peptidase; aminopep-tidase; dipeptidase
Polypep-tides
Hydrolysis
Amino acids
Entero-kinase
Trypsino-gen
Activates to trypsin
Polypep-tidases and peptides
Sucrase
Sucrose
Glucose, fructose

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

44. Digestive system -revise

45. Lactose intolerance: This is due to deficiency of lactase and is common in africans and asians. The treatment involves elimination of lactose (milk and milk products )from the diet.
Flatulence: flatulence is characterized by increased intestinal motility, cramps and irritation due to excess production of gases under the influence of bacteria.

46. 1. Steatorrhea: excess fat is excreted into the stools
1.Steatorrhea: excess fat is excreted into the stools. The defect may be either due to deficiency of pancreatic lipase or due to inadequate quantity of bile salts.
Crohn’s desease: In this condition mucosal degeneration in the terminal part of ileum results in failure of absorption of bile salts. This in turn causes steatorrhoea.

47. THANK YOU