GI

Question 1

why do we need the GI tract?

Answer 1

To make ATP
To make new cell parts (building blocks)
To maintain cellular function – cell division and growth and repair.

Question 2

what are the two types of digestion.

Answer 2

chemical and mechanical.

Question 3

retropulsion

Answer 3

stomach - the backward movement of bolus to make the pieces smaller to then fit through the pylorus to the duodenum.

Question 4

propulsion

Answer 4

stomach - the movement of food forward.

Question 5

the digestion of carbs

Answer 5

physical digestion – polysaccharides (starch) many.
Chemical digestion – monosaccharides.

Question 6

the digestion of lipids.

Answer 6

Physical digestion – triglycerides
Chemical digestion – 2x fatty acids and monoglycerides.

Question 7

the digestion of protein.

Answer 7

Physical digestion – protein (many)
Chemical digestion -amino acids short peptides.

Question 8

accessory organs in digestion.

Answer 8

Salivary gland – helping food go down
Liver – production of bile salts,
Gall bladder – storing bile
Pancreas – pancreatic juices enzymes.

Question 9

how does the CNS regulate the GI tract?

Answer 9

parasympathetic - increased digestion, stimulates motility and secretion.
sympathetic - inhibits motility and secretion.

Question 10

how does the enteric nervous system regulate the GI tract?

Answer 10

self-contained system.
able to function independently of the CNS. web of neurons that stimulate motility, secretion and absorption.

Question 11

how do hormones regulate the GI tract.

Answer 11

GI tract is the largest endocrine organ in the body.
hormones secreted by endocrine cells throughout the intestinal tract. e.g gastrin - stimulates acid production in stomach. stimulates gastric motility.

Question 12

mouth

Answer 12

Chewing – physical breakdown of food.
Saliva – lubrication – for swallowing and easy passage of food.
Salivary amylase enzyme – initial chemical breakdown of carbohydrate.
Dissolves food – allpws tasting.

Question 13

Esophagus

Answer 13

Transport of materials to the stomach. Food is moved via peristalsis. Sphincter between esophagus and stomach (lower esophageal sphincter) prevent acid reflux.

Question 14

Stomach

Answer 14

Storage – relaxation of smooth muscles allows volume to increase without change in pressure. Must be able to store a meal or two to allow time for the food to be physically and chemically digested.

Question 15

chemical digestion.

Answer 15

Only protein in stomach. Stomach secrete acid and pepsin.
Acid unfolds the protein structure. Pepsin will then chop up the unfolded protein inot polypeptides.

Question 16

anticipation - cephalic phase.

Answer 16

Function: Prepare the stomach for the arrival of food.
Responds to: Seeing, smelling, tasting or thinking about food
Triggers: Activation of the Central nervous system (brain) ↑Parasympathetic Nervous System Activity
- Release of the hormone (gastrin) from cells in the stomach Outcome: ↑ Secretion of mucus, acid and pepsin from cells in.

Question 17

Race - Gastric (stomach) phase: food arrives in stomach

Answer 17

Function: Maximise physical digestion and begin protein chemical digestion
Responds to: Stretch, ↑pH, undigested food (esp protein)
Triggers: Activation of the Enteric nervous system ↑ Release of gastrin
Outcome: ↑ Secretion of mucus, acid and pepsin ↑ Mixing waves

Question 18

Handover – Intestinal phase: stomach → intestine

Answer 18

Function: Slow controlled release of food to small intestine.
Responds to: Stretch of the SI wall, ↓pH (acid), lipids (fat) and carbohydrates in the intestine
Triggers: Release of SI hormones.
Outcome: Inhibition of the enteric nervous system innervating stomach ↓ Secretion of acid and pepsin ↓ Mixing waves.

Question 19

How does exercise impact Gastric Emptying?

Answer 19

High Intensity Exercise
|
↑↑Sympathetic NS Activity & ↓Parasympathetic NS Activity
|
Reduction in neural and hormonal control
|
Delayed gastric emptying.

Question 20

Small intestine

Answer 20

completion of chemical digestion, absorption of 90% of nutrients
First part is the – duodenum = ‘doorman’ works with accessory organs for digestion and absorption of nutrients.

Question 21

Duodenum

Answer 21

HCO3 (bicarbonate) and mucus secretion.
- Protects the SI from stomach acid.

Question 22

Pancreas digestive enzyme

Answer 22

• Chemical digestion of protein, fat and carbohydrate.

Question 23

Small Intestine – Chemical digestion

Answer 23

Chemical digestion of – Carbohydrates, protein and fat
Pancreas secretes (releases) enzymes into the duodenum:
Amylase - carbohydrate digesting enzyme
Proteases - protein digesting enzyme
Lipase - fat digesting enzyme.

Question 24

amylase.

Answer 24

carbohydrate digesting enzyme.
starch - disaccharide (2).

Question 25

Proteases

Answer 25

protein digesting enzyme. polypeptides (20) to small polypeptides (10). breaks up the long chains of protein.

Question 26

lipase

Answer 26

fat digesting enzyme.
triglycerides (3) - 2x fatty acid and monoglyceride.

Question 27

Small Intestine – Brush Border Enzymes

Answer 27

The rest of the small intestine.
Chemical digestion of carbohydrates and proteins is finished by brush border enzymes.
Carbohydrates: Disaccharides monosaccharides.
Protein: Small Polypeptides Amino acids + short peptides (2-3).

Question 28

Segmentation

Answer 28

Rhythmic contraction and relaxation * but no set pattern.
Important for chemical digestion * mixes the digested food with pancreatic enzymes * increases contact with intestinal wall/brush border.
But: * does not move chyme through intestine * not physical digestion (because this has already been finished by the stomach).

Question 29

The GI Tract – Large Intestine (Colon)

Answer 29

Absorption of vitamins, electrolytes and water * Microbial fermentation (flatus) * Forms and stores faeces, comprising of: * bacteria * old epithelial cells * undigested food matter * fibre * a little bit of water

Question 30

carbs break down.

Answer 30

Polysaccharides (most)
*Glycogen (liver) and starch (plants)

Disaccharides (some)
* Sucrose

Monosaccharides (a little)
*Glucose

the small intestine will only ababsorbsorp monosaccharides.

Question 31

the small intestine cell structure.

Answer 31

Lumen= inside tube of small
intestine (with digested food)
Apical Membrane = cell side
exposed to digested material
(lumen side)
Basolateral membrane = cell
side exposed to interstitial fluid
(blood side).

Question 32

sodium concentration gradient in carbs absorption.

Answer 32

Sodium concentration gradient
High = outside cells
Low = inside cells
Sodium electrical gradient
* Positive = outside cells
* Negative = inside cells
= Sodium electrochemical
gradient

Question 33

how is glucose absrobed.

Answer 33

apical membrane - Sodium-coupled secondary active
transport
* Movement of Na+ down its
concentration gradient to
drives glucose transport
against its concentration
gradient.

Basolateral membrane
* Facilitated diffusion
* Glucose transporter drives
glucose transport down its
gradient

both driven by the sodium electrochemical gradient.

Question 34

how does water follow carb absorption?

Answer 34

By osmosis
* Movement of water from an
area of lower solute
concentration to higher
solute concentration.

Question 35

rehydration fluids - maximise isosmotic fluid uptake.

Answer 35

Na+ & glucose in drinks/rehydration fluids
–Oral rehydration salts
*25 g sugar + 3 g salt per litre of water
–6 level tsp sugar, ~0.5 tsp salt

Question 36

Rehydration Fluids – Sports Drinks

Answer 36

Maximise isosmotic fluid uptake:
* Na+ & glucose in drinks/rehydration fluids.
Gatorade 60 g sugar + 4.9 g salt /litre
◼12 tsp sugar, 1 tsp salt

Question 37

digestion journey of protein.

Answer 37

acid + pepsin in the stomach - polypeptides - proteases - small polypeptides - brush boarder enzymes - amino acids (1) and short peptides (2-3).

Question 38

Protein absorption.

Answer 38

uses sodium electrochemical gradient.

Apical Membrane
* Sodium-coupled secondary
active transport

Basolateral Membrane
* Facilitated diffusion
* Amino acid transporter

Question 39

fat digestion journey.

Answer 39

triglycerides - lipase, bile slats - free fatty acids (2) and monoglyceride (1). to absorb fats must be broken into small droplets and emulsified.

Question 40

how can fat be absorbed as a lipid.

Answer 40

is a lipid so water insoluble. bile salts go both ways Water loving head (hydrophilic)
and Lipid loving tale (hydrophobic). breakdown into smaller ‘droplets’ via segmentation = Emulsification. Bile surrounds droplets and form micelles.

Question 41

fat absorption into the blood.

Answer 41

micelle - simple diffusion into the small intestine cells. the bile slats are released (reasbosrped and recycled). monoglycerides and fatty acids reassembled into triglycersides and other lipids. repackaged into chylomicrons (special form of fat).

Question 42

how does blood flow effect absorption?

Answer 42

decreases absorption

Question 43

why do we get stitch?

Answer 43

If you have food in your stomach → ↑blood flow to digestive tract and ↓blood flow to diaphragm → diaphragm cramping and causing a side stitch in the area.

• Ligaments that connect your diaphragm to internal organs are overstretched → causes spasms.
• Friction between the membranes that line your abdominal wall and the membrane that line your abdominal organs.

Question 44

The Gut Microbiome – The Effect of Diet

Answer 44

• Diet plays a large role in
  determining what kinds of
  microbiota live in the colon.
• The type and amount of
  protein, fat and
  carbohydrates present in the
  diet have been widely found
  to influence the composition
  of the gut microbiota in the
  body.

Question 45

The Gut Microbiome – The Effect of Exercise

Answer 45

More exercise.
More bacterial diversity.
Better health.