PHYSIOLOGY

Question 1

what is the alimentary canal

Answer 1

series of hollow organs running from mouth to anus (oral to aboral) that are separated by sphincters, controlling movement

Question 2

what is the function of mouth and pharynx

Answer 2

chops and lubricates food, starts carbohydrate digestion, delivers food to oesophagus

Question 3

what is the function of the oesophagus

Answer 3

propels food to the stomach

Question 4

what is the function of the stomach

Answer 4

stores and churns food continues carbohydrate, initiates protein, digestion regulates delivery of chyme to duodenum

Question 5

what is the function of the small intestine

Answer 5

(duodenum, jejunum and ilium) principal site of digestion and absorption of nutrients

Question 6

what is the function of the large intestine

Answer 6

(caecum, appendix and colon). Colon reabsorbs fluids and electrolytes, stores faecal matter before delivery to recutum

Question 7

what is the function of the rectum anal canal and anus

Answer 7

regulated expulsion of faeces

Question 8

what are accessory structures to the alimentary canal

Answer 8

salivary glands, the pancreas, the liver and gall bladder (hepatobiliary system)

Question 9

what are the generalised structures of the digestive tract wall (4)

Answer 9

1. mucosa
2. submucosa
3. muscularis externa
4. serosa

Question 10

what are the 3 layers in the mucosa

Answer 10

1. mucous membrane
2. lamina propria
3. muscularis mucosae

Question 11

what are the structures in the submucosa

Answer 11

• connective tissue
• larger blood and lymph vessels
• glands
• submucosa plexus (neurone network)

Question 12

what are the structures in the muscularis externa

Answer 12

• circular muscle layer
• myenteric plexus (neurone network)
• longitudinal muscle layer

Question 13

what are the 4 major functions of the alimentary canal

Answer 13

• motility
• secretion
• digestion
• absorption

Question 14

what does the function of motility entail

Answer 14

mechanical activity mostly involving smooth muscle (skeletal at mouth, pharynx, upper oesophagus and external anal sphincter)

Question 15

what does the function of secretion entail

Answer 15

into the lumen of the digestive tract occurs from itself and accessory structures in response to the presence of food, hormonal and neural signals. Required for digestion, protection and lubrication

Question 16

what does the function of digestion entail

Answer 16

chemical breakdown by enzymatic hydrolysis of complex food stuffs to smaller, absorbable units

Question 17

what does the function of absorption entail

Answer 17

transfer of the absorbable products of digestion from the digestive tract to the blood or lymph

Question 18

what does circular muscle contraction cause

Answer 18

lumen becomes narrower and longer

Question 19

what does longitudinal contraction cause

Answer 19

intestine becomes shorter and fatter

Question 20

what happens when the muscularis mucosae contracts

Answer 20

change in absorptive and secretory area of mucosa (folding), mixing activity

Question 21

what are the function of gap junctions between smooth muscle cells in the GI tract

Answer 21

Electrically couple adjacent cells (allow slow wave of depolarisation to spread across muscle sheet).
- synchronous wave (ie single unit smooth muscle)

Question 22

what are Interstitial cells of Cajal (ICC)

Answer 22

Pacemaker cells located largely between the circular and longitudinal muscle layers. They form gap junctions with each other and smooth muscle cells electrically coupling them. Slow waves in ICC drive slow waves in the smooth muscle cells coupled to them. Some ICCs form a bridge between nerve endings and smooth muscle cells.

Question 23

when does contraction in the intestines only occur

Answer 23

Contraction in the intestines occurs only if the small wave amplitude is sufficient to reach a threshold to trigger smooth muscle cell calcium action potentials

• Depolarising slow waves do not necessarily result in smooth muscle contraction

Question 24

what are slow waves

Answer 24

Slow waves, also known as the basic electrical rhythm (BER), vary in frequency along the length of the GI tract eg stomach, 3 min-1, small intestine, 8-12 min-1

Question 25

whether a slow wave amplitude reaches threshold depends on: (3)

Answer 25

• neuronal stimuli
• hormonal stimuli
• mechanical stimuli

(generally act to depolarise smooth muscle cells rather than influence slow waves directly - depolarisation shifts slow wave peak to threshold)

Question 26

explain the autonomic innervation of the GI tract by the parasympathetic system

Answer 26

pre ganglionic fibres (releasing ACh) synapse with ganglion cells within the enteric nervous system

• excretory influences = increased gastric, pancreatic and small intestinal secretion, blood floe and smooth muscle contraction
• inhibitory influences = relaxation of some sphincters, receptive relaxation of stomach during feeding

Question 27

explain the autonomic innervation of the GI tract by the sympathetic system

Answer 27

pre ganglionic fibres (releasing ACh) synapse in the pre vertebral ganglia. Post ganglionic fibres ( releasing noradrenaline) innervate mainly enteric neurones but also other structures

• excretory influences = increased sphincter tone
• inhibitory influences = decreased motility, secretion and blood flow

Question 28

what is the enteric nervous system

Answer 28

The enteric nervous system (ENS) is a large division of the peripheral nervous system (PNS) that can control gastrointestinal behaviour independently of central nervous system (CNS) input

Question 29

what does the myenteric (Aurbachs) plexus regulate

Answer 29

mainly regulates motility and sphincters

Question 30

what does submucosus (Meissners ) plexus

Answer 30

mainly modulates epithelia and blood vessels

Question 31

what neurones coordinate muscular, secretive and absorptive activities in the GI tract

Answer 31

sensory neurones , interneurones, effector neurones

Question 32

what is peristalsis

Answer 32

A wave of relaxation, followed by contraction, that normally proceeds a short distance along the gut in an aboral direction - triggered by distension of the gut wall

Question 33

what is the effect of altered activity of interneurones and hence motoneurons on the longitudinal and circular muscle in the propulsive segment and the receiving segment

Answer 33

• (oral) Longitudinal muscle relaxed (release of VIP and NO from inhibitory motoneurons). Circular muscles contract ( release of ACh and substance P from excretory motoneurons)
• (aboral) Longitudinal muscle contrasts ( release of ACh and substance P from excretory motor neurone). Circular muscle relaxes (release of VIP and NO from inhibitory motor neurone)

Question 34

what is segmentation

Answer 34

mixing or churning movements- rhythmic contractions of the circular muscle layer that mix and divide luminal contents. It occurs in the small intestine ( in the fed state) and in the large intestine (where is it called haustartio)

Question 35

what is colonic mass movement

Answer 35

powerful sweeping contraction that forces faeces into the rectum - occurs a few times a day

Question 36

what is the migration motor complex

Answer 36

powerful sweeping contraction from stomach to terminal ilium

Question 37

what are tonic contractions

Answer 37

• Low pressure - organs with a major storage function

- High pressure - sphincters

Question 38

how many sphincters are in the GI tract

Answer 38

6 excluding the sphincter of odd

Question 39

what do sphincters do

Answer 39

act as one way valves by maintaining a positive resting pressure relative to two adjacent structures

Question 40

name the sphincters

Answer 40

Upper oesophageal sphincter 
Lower oesophageal sphincter 
Pyloric sphincter 
Ileocaecal valve
Internal and external anal sphincter

Question 41

what are the functions of each of the sphincters

Answer 41

• UOS = skeletal muscle relaxes to allow swallowing or closes during inspiration
• LOS relaxes to permit entry of food to the stomach or closes to prevent reflux of gastric contents to the oesophagus
• Pyloric sphincter = regulates gastric emptying and usually prevents duodenal gastric reflux
• Ilieocaecal valve = regulates flow from ilium to caecum or distension of ilium opens, distension of proximal colon closes
• Internal (smooth muscle) and external (skeletal muscle) anal sphincters = are regulated by the defection reflex

Question 42

what is glycogenesis

Answer 42

synthesis of glycogen from glucose

Question 43

what is glycogenolysis

Answer 43

breakdown of glycogen to form glucose catalysed by glycogen phosphorylase

• Rate limiting step of glycogenolysis. One glucose molecule is cleaved off the ends of glycogen at a time

Question 44

what is gluconegenesis

Answer 44

de novo synthesis of glucose from metabolic precursors (lactate, amino acids, glycerol)

-It is not the verse of glycolysis due to the need to overcome energetically unfavourable steps, catalysed by a unique set of enzymes

Question 45

what is the function of hexokinase in glycolysis

Answer 45

primer for glucose phosphorylation

Question 46

what is the function of phosphoglucomutase in glycolysis

Answer 46

Targets glucose away from glycolysis and towards glycogen synthesis. It changes the position of the phosphate from 6 to 1

Question 47

What is the function of UDP glucose pyrophosphorylase in glycolysis

Answer 47

Binds the UDP to the glucose

Simple precursors are first converted to activated intermediates

UDP glucose can be thought of an activated form of glucose. ATP and acetyl-CoA are activated forms of phosphate and acetate respectively

Question 48

what is the function of glycogen synthase in glycolysis

Answer 48

attaches UDP glucose as a primed molecule to glycogen

Question 49

what is the function of glycogen syntheses

Answer 49

synthesises glycogen from UDP glucose. Adds one glucose molecule to glycogen at a time. Can only extend the chains of glycogen ie cannot start new molecules. Cannot introduce branches. Rate limiting enzyme of glycolysis

Question 50

what are the 4 liver enzymes required for gluconeogenesis

Answer 50

• Glucose-6-phosphate
• Fructose-1,6-bisphospahte
• PEP carboxykinase
• Pyruvate carboxylase

Question 51

what is the cori cycle

Answer 51

Lactate is a precursor if gluconegenesis. Blood transports lactate to the lover. The liver converts lactate back ti glucose. Glucose released into bloodstream. Buys time and shifts metabolic burden form muscle to other organ

Question 52

what is the structure of a triglyceride

Answer 52

glycerol and 3 fatty acids

Question 53

what are the main natural fatty acids

Answer 53

Palmitic acid 16:0
Stearic acid 18:0
Oleic acid 18:1

Question 54

what are the main products of fat digestion

Answer 54

Glycerol, fatty acids and monoglycerides

Question 55

where is fat absorbed

Answer 55

Absorbed into mucosal cells of intestine. Short and medium length fatty acids enter portal blood. Longer chains FAs and monoglycerides are resynthesises to triglycerides

Question 56

what is lipolysis

Answer 56

breakdown of lipids. Fat is stored in adipose tissue

Question 57

before fatty acids can be oxidised to generate energy what do they have to be converted to

Answer 57

CoA derivatives

Question 58

what is the carnitine shuttle

Answer 58

The carnitine shuttle represents a mechanism by which long-chain fatty acids, which are impermeable to the mitochondrial membranes, are transported into the mitochondrial matrix for the purpose β-oxidation and energy production.

Question 59

what is beta oxidation (in mitochondrial matrix)

Answer 59

Beta oxidation is a metabolic process involving multiple steps by which fatty acid molecules are broken down to produce energy. More specifically, beta oxidation consists in breaking down long fatty acids that have been converted to acyl-CoA chains into progressively smaller fatty acyl-CoA chains.

Question 60

what are ketone bodies

Answer 60

(three related compounds produced during the metabolism of fats, two of which are used as a source of energy instead of glucose during a period of fasting or very low carbohydrate intake) They are formed in the mitochondria from acetyl-CoA from b oxidation. Diffuse into the blood stream and to peripheral tissues. Important molecules of energy metabolism for heart muscle and renal cortex- convert back to acetyl-CoA, which enters the TCA cycle.

Question 61

what cells cover the oral cavity, oropharynx and larngopharynx

Answer 61

stratified squamous epithelium which is generally not keratinised

Question 62

what cells are on the anterior 2/3 of the tongue

Answer 62

stratified squamous epithelium, thin on ventural surface, thick and with papillae of the dorsal surface

Question 63

what cells are on the posterior 1/3 of the tongue

Answer 63

covered by smooth stratified squamous epithelium which, except for the circumvallate papillae, lacks papillae but does have substantial lymphoid aggregates in the submucosa

Question 64

what are the 4 types of papillae on the tongue

Answer 64

Fungiform, Circumvallate, Foliate, Filiform

Question 65

what are the 4 main layers from the digestive tract from the oesophagus to the anal canal

Answer 65

1. Mucosa: 3 parts
   - Epithelium (sits on basal lamina)
   - Lamina Propria (loose connective tissue)
   - Muscularis mucosa (thin layer of smooth muscle)
2. Submucosa (dense irregular connective tissue)
3. Muscularis externa ( 2 thick layers of smooth muscle, an inner circular layer and an outer longnitudinal layer)
4. Serosa or Adventitia (Outer layer of connective tissue that either suspends the digestive tract or attaches it to other organs)

Question 66

what is the gastro-oesophageal; junction

Answer 66

abrupt transition from stratified squamous epithelium of oesophagus to the simple columnar epithelium of the cardia of the stomach

Question 67

where would you find parietal cells and stem cells of the gastric gland

Answer 67

isthmus

Question 68

where do you find neck mucous cells and parietal cells

Answer 68

neck

Question 69

where do you find mostly chief cells with a few parietal cells and enteroendocrine cells

Answer 69

funds (base)

Question 70

what is the function of chief cells

Answer 70

digestive enzyme secreting cell

Question 71

what is the function of parietal cell

Answer 71

hydrochloric acid producing cell

Question 72

what are the different stomach regions

Answer 72

• Cardia: deep gastric pits that branch into loosely packed, tortuous glands
• Body: shallow gastric pits with long straight gastric glands
• Pylorus: Deep gastric pits with branched, coiled gastric glands at a higher density than in the cardia

Question 73

what are the 3 segments of the small intestine

Answer 73

1. Duodenum = 25cm long
2. Jejunum = 2m long
3. Ilium = 2.75m long

Question 74

compare the small intestine regions

Answer 74

1. Duodenum contains Brunners glands in the submucosa
2. Jejunum. Tallest villi, located on permenant circular folds of the mucosa and submucosa, the place circulars. Lymphoid follicles infrequent
3. Ileum is characterised by shorter villi and aggregates of lymphoid follicles callers Peyer’s patches found in the submucosa and often extending into the lamina propria

Question 75

what are enterocytes

Answer 75

the most numerous cells, they are tall columnar cells with a brush boarder and are the principle absorptive cell

Question 76

what are goblet cells

Answer 76

produce mucin to protect epithelium and lubricate passage of material

Question 77

what are paneth cells

Answer 77

found at the base of the crypts of lieberkuhn, there have a defensive function and have a role in regulating bacterial flora (secrete lysozyme and definsins)

Question 78

what are enteroendocrine (neuroendocrine) cells

Answer 78

produce hormones that contribute to the control of secretion and motility

Question 79

what are stem cells

Answer 79

found at the base of the crypts of lieberkuhn, they divide to replenish the epithelium

Question 80

what occurs in the duodenum

Answer 80

Receives acidic, partly digested semifluid material called chyme from the stomach. It has glands located within the submucosa called Brunners glands and when stimulated by the presence of chyme they produce a thin, alkaline mucous to neutralise the chyme

Question 81

what are Peyers patches

Answer 81

the numerous areas of lymphoid tissue in the wall of the small intestine which are involved in the development of immunity to antigens present there.

Question 82

what are the 2 main types of cells in the large intestine epithelium

Answer 82

• Absorptive cells for the removal of salts and thereby water
• Goblet cells for the secretion of mucus to lubricate the colon

Question 83

what is the appendix

Answer 83

A blind ending hollow extension of the cecum

Question 84

what is the structure of the appendix

Answer 84

the structure of the appendix is similar to the rest of the colon, but the crypts are far less abundant sonf there is typically a circular arrangement of lymphoid tissue in the submucosa and often the lamina propria

Question 85

what cells are along the long anal canal

Answer 85

continuous with the keratinised stratified squamous epithelium of the surrounding skin

Question 86

what is the digestive tracts own nervous system

Answer 86

Enteric nervous system.

Question 87

where does the enteric nervous system receive input from

Answer 87

autonomic nervous system, but is capable of coordinating gut motility locally

Question 88

what is a neuron living outside the brain and spinal chord called

Answer 88

ganglion

Question 89

what cell composes the parenchyma of the liver and pancreas

Answer 89

glandular epithelial cells

Question 90

what is the structure of the liver

Answer 90

Made up of segments called lobules. Each lobule is approximately hexagonal and has a branch of the hepatic vein called the centrolobular even at its centre and portal triads at each corner

Question 91

what are portal triads

Answer 91

Branches of the vessels which enter at the aorta hepatis, that is the hepatic artery and hepatic portal vein. There is a third tube called the bile duct

Question 92

what are the main cells of the liver

Answer 92

hepatocytes

Question 93

what is the space of Disse

Answer 93

The sinusoids are lined by endothelial cells and there is a narrow space between these lining cells and the hepatocytes. The space is called the space of Disse

Question 94

what are hepatic stellate cells

Answer 94

They are scattered in the space of Disse. They are modifies fibroblasts and make connective tissue. They also store vitamin A within fat droplets in their cytoplasm. In some pathological conditions they transform into myofibroblasts and produce scar tissue in the liver

Question 95

what are Kupffer cells

Answer 95

They are resident macrophages scattered within the sinusoids. These cells remove particulate matter from the blood and help remove worn out RBCs

Question 96

what is bile

Answer 96

bile is an alkaline solution containing water, ions, phospholipids, bilirubin and bile salts.

Question 97

what is bilirubin

Answer 97

A pigment which results from the breakdown of haemoglobin in the spleen, and when excreted in the bile, is the principal cause of the brown colour of feces

Question 98

what are bile salts needed for

Answer 98

They are necessary for emulsification of fats in the digestive tract.

Question 99

how is bile produced

Answer 99

All hepatocytes produce bile in the liver

Question 100

what are bile canaliculi

Answer 100

they are small channels formed by tight junctions in the cell membranes of adjacent hepatocytes

Question 101

what does the exocrine pancreas produce

Answer 101

Digestive juices, lipase to break down lipids, nucleases to breakdown DNA and RNA, amylase to breakdown starch. These enter the duodenum via the pancreatic duct

The cells in the exocrine pancreas are very basophilic because they contain large amounts of RER in the basal part. In the apical part its very eosinophilic due to the presence of zymogen granules

Question 102

what does the endocrine pancreases do

Answer 102

the endocrine pancreas consists of small scattered islands of tissue called islets of langerhans which produce a number of hormones including insulin and glucagon

Question 103

what is the function of the enzymes produced from the exocrine pancreas

Answer 103

the enzymes produced are produced as proenzymes. Once the pancreatic secretion arrives at the duodenum an enteropeptidase converts the inactive proteolytic enzyme trypsinogen into the active form trypsin

Question 104

what is trypsinogen

Answer 104

an inactive substance recreated by the pancreas, from which the digestive enzyme trypsin is formed in the duodenum

Question 105

what is trypsin

Answer 105

enzyme that helps digest protein

Question 106

what is the structure and function of the gall bladder

Answer 106

the gall bladder is a muscular sac which is lined by columnar epithelium backed by lamina propria of loose connective tissue rich in blood vessels and lymphatic vessels, a coat of smooth muscle and an outer collagenous layer of adventitia. The gall bladder stores bile and modifies the bile within it. It has a folded mucosa when empty

Question 107

what hormone causes contraction of the gall bladder

Answer 107

cholecystokinin

Question 108

what is cholecystitis

Answer 108

Inflammation of the gall bladder is not uncommon. Here gall stones have obstructed the cystic duct leading expansion of the gall bladder, thickening of the muscle layers and inflammation

Question 109

what is the absorption of water in the GI tract largely driven by

Answer 109

absorption of Na+

Question 110

what are the principle mechanisms in the absorption of water in the GI tract

Answer 110

• Na+/glucose co transport
• Na+/ amino acid co-transport
• Na+/H+ exchange
• Parallel Na+/H+ and Cl-/HCO3- exchange
• Epithelial Na+ channels (ENaC )