GI

Question 1

Is stage 1 of swallowing voluntary or involuntary?

Answer 1

Voluntary.

Question 2

What happens in stage 1 of swallowing?

Answer 2

Food is compressed against the roof of the mouth and is pushed to the oropharynx by the tongue.

Question 3

Is stage 2 of swallowing voluntary or involuntary?

Answer 3

Involuntary.

Question 4

What happens in stage 2 of swallowing?

Answer 4

The nasopharynx closes off due to soft palate elevation. The trachea is closed off by the epiglottis. Elevation of the hyoid bone shortens and widens the pharynx.

Question 5

Is stage 3 of swallowing voluntary or involuntary?

Answer 5

Involuntary.

Question 6

What happens in stage 3 of swallowing?

Answer 6

The pharyngeal constrictor muscles sequentially contract producing peristaltic waves. This propels the bolus of food down the Oesophagus. This is followed by depression of the hyoid bone.

Question 7

Name 6 muscles/groups of muscles that are involved in swallowing.

Answer 7

1. Buccinator.
2. Suprahyoids.
3. Muscles of the palate.
4. Muscles of the floor of the mouth.
5. Infrahyoids.
6. Pharyngeal constrictor muscles.

Question 8

Which muscle(s) manipulate food in chewing. Elevate the hyoid bone and flatten the floor of the mouth?

Answer 8

Buccinator and Suprahyoids.

Question 9

What is the function of the muscles of the soft palate in swallowing?

Answer 9

They act to tense and elevate the soft palate.

Question 10

What is the function of the muscles of the floor of the mouth in swallowing?

Answer 10

They raise the hyoid bone and larynx.

Question 11

What is the function of the infrahyoids?

Answer 11

To depress the hyoid bone and larynx.

Question 12

What is the function of the pharyngeal constrictor muscles?

Answer 12

They contract sequentially producing peristaltic waves which drive food into the oesophagus.

Question 13

Do parotid glands have mainly serous or mainly mucous acini?

Answer 13

Mainly serous acini.

Question 14

What is serous acini secretion composed of?

Answer 14

alpha amylase - this is needed for starch digestion.

Question 15

Do sublingual glands have mainly serous or mainly mucous acini?

Answer 15

Mainly mucous acini.

Question 16

What is mucous acini secretion composed of?

Answer 16

Mucin - needed for lubrication.

Question 17

Do submandibular glands have mainly serous or mainly mucous acini?

Answer 17

They have serous and mucus acini.

Question 18

Which of the main salivary glands is constantly active?

Answer 18

Submandibular.

Question 19

What is the function of saliva?

Answer 19

It acts as a lubricant for chewing, swallowing and speech. It is important in oral hygiene; has a role in immunity, wash and it can also act as a buffer.

Question 20

What is the optimum oral pH?

Answer 20

7.2

Question 21

What is the pH range of saliva?

Answer 21

6.2 - 7.4

Question 22

Name 4 factors that can affect the composition of saliva.

Answer 22

1. Stimulus.
2. Age.
3. Gender.
4. Drugs.

Question 23

Are serous acini dark staining or pale staining on a histological slide?

Answer 23

Dark staining.

Mucus acini = pale staining

Question 24

What is the epithelium lining of intercalated ducts?

Answer 24

Simple cuboidal epithelium.

Question 25

What is the function of intercalated ducts?

Answer 25

They connect acini to larger striated ducts.

Question 26

What ions are reabsorbed at striated ducts?

Answer 26

Na+ and Cl-

Question 27

Is saliva hypotonic or hypertonic?

Answer 27

Hypotonic - water reabsorption and ion secretion.

Question 28

What is the importance of the striated duct basal membrane being highly folded?

Answer 28

It is folded into microvilli for the active transport of HCO3- against its concentration gradient.

Question 29

What organelle is abundant in striated ducts and why?

Answer 29

Mitochondria. For the active transport of ions.

Question 30

Name 2 ions that striated ducts secrete.

Answer 30

K+ and HCO3-

Question 31

Name 2 ions that striated ducts reabsorb.

Answer 31

Na+ and Cl-

Question 32

What ducts do striated ducts lead on to?

Answer 32

Interlobular (excretory) ducts.

Question 33

What is the epithelium lining of interlobular ducts?

Answer 33

Simple columnar epithelium.

Question 34

What is the parasympathetic innervation of the Parotid gland?

Answer 34

Cn 9 - glossopharyngeal.

Question 35

What is the parasympathetic innervation of the Sublingual gland?

Answer 35

Cn 7 - facial.

Question 36

What is the parasympathetic innervation of the Submandibular gland?

Answer 36

Cn 7 - facial.

Question 37

What nerve passes through the parotid gland but does not innervate it?

Answer 37

The facial nerve (Cn 7) gives rise to its 5 terminal branches in the parotid gland.

Question 38

What artery ascends through the parotid gland?

Answer 38

The external carotid artery.

Question 39

Does parasympathetic innervation stimulate or inhibit salivary secretion?

Answer 39

Stimulates.

Question 40

What is the volume of an empty stomach?

Answer 40

50ml

Question 41

What is the maximum volume of the stomach?

Answer 41

1.5L

Question 42

What is receptive relaxation?

Answer 42

Smooth muscle in the body and fundus of the stomach relaxes prior to the arrival of food, this allows the stomach volume to increase. There is afferent input from Cn 10. NO and serotonin also influence relaxation.

Question 43

Where do peristaltic waves begin?

Answer 43

In the gastric body.

Question 44

Where in the stomach are peristaltic contractions the most powerful?

Answer 44

In the gastric antrum.

Question 45

Why is the pyloric sphincter closed as the peristaltic wave reaches it?

Answer 45

This prevents chyme entering the duodenum and so the gastric contents are forced back and mixed together in the body of the stomach.

Question 46

On average, how many peristaltic waves are there a minute?

Answer 46

3 (slow repol/depol cycles).

Question 47

Name 2 factors that can increase the strength of peristaltic contractions.

Answer 47

1. Gastrin.

2. Gastric distension.

Question 48

Name 5 factors that can decrease the strength of peristaltic contractions.

Answer 48

1. Duodenal distension.
2. Low pH in duodenum lumen.
3. Increased duodenal osmolarity.
4. Increased sympathetic action.
5. Decreased parasympathetic action.

Question 49

What do parietal cells secrete?

Answer 49

HCl and intrinsic factor.

Question 50

What do chief cells secrete?

Answer 50

Pepsinogen and gastric lipase.

Question 51

What cells secrete Gastrin?

Answer 51

Enteroendocrine cells / G cells.

Question 52

What cells secrete somatostatin?

Answer 52

D cells.

Question 53

What cells secrete histamine?

Answer 53

Enterochromaffin like cells.

Question 54

On average, how much gastric acid do we secrete a day?

Answer 54

2L

Question 55

What is the hydrogen ion concentration of gastric acid?

Answer 55

> 150mM

Question 56

Where does the H+ come from in gastric acid?

Answer 56

In parietal cells: H2O + CO2 = HCO3- + H+

Question 57

What is the mechanism of the H+/K+ ATPase proton pump?

Answer 57

It pumps H+ into the stomach lumen and K+ into the parietal cell.

Question 58

What ions are exchanged on the side of the parietal cell in contact with the capillaries?

Answer 58

Cl- is pumped into the parietal cell and HCO3- moves out of the parietal cell into the capillary.

Question 59

What is the importance of HCO3- being exchanged for Cl-?

Answer 59

HCO3- moving out of the cell increases the rate of the forward reaction and so more H+ are produced. Cl- moving into the cell then moves into the stomach lumen via Cl- channels and combines with H+ to form HCl.

Question 60

What are the 4 phases important in regulating gastric acid secretion? Do these phases turn secretion on or off?

Answer 60

1. Cephalic phase - turning ON.
2. Gastric phase - turning ON.
3. Gastric phase - turning OFF.
4. Intestinal phase - turning OFF.

Question 61

Regulating gastric acid secretion: What stimuli are involved in the cephalic phase?

Answer 61

Sight, smell, taste of food. Chewing.

Question 62

Regulating gastric acid secretion: What stimuli are involved in the gastric ON phase?

Answer 62

Gastric distension, presence of peptides and amino acids in the stomach.

Question 63

Regulating gastric acid secretion: What stimuli are involved in the gastric OFF phase?

Answer 63

Low pH in gastric lumen.

Question 64

Regulating gastric acid secretion: What stimuli are involved in the intestinal phase?

Answer 64

Low pH in duodenal lumen, duodenal distension, presence of amino acids and fatty acids in the duodenum.

Question 65

Briefly describe the cephalic phase.

Answer 65

The parasympathetic nervous system is triggered by stimuli. This releases Ach. Ach acts on parietal cells and on gastrin and histamine. HCl secretion increases.

Question 66

Briefly describe the gastric ON phase.

Answer 66

Gastrin is released in response to the stimuli. This acts on parietal cells and triggers release of histamine (histamine then acts on parietal cells too). HCl secretion increases.

Question 67

Briefly describe the gastric OFF phase.

Answer 67

Gastrin is inhibited in response to stimuli and histamine is therefore indirectly inhibited. Somatostatin is also released and this inhibits parietal cells. HCl secretion decreases.

Question 68

Briefly describe the intestinal phase.

Answer 68

The enterogastrones secretin and CCK are released in response to stimuli. Secretin inhibits gastrin and stimulates further somatostatin release. HCl secretion decreases.

Question 69

What neurotransmitter is involved in regulating gastric acid secretion?

Answer 69

Ach.

Question 70

What hormone is involved in regulating gastric acid secretion?

Answer 70

Gastrin.

Question 71

What paracrine factors are involved in regulating gastric acid secretion?

Answer 71

Histamine and Somatostatin.

Question 72

What enterogastrones are involved in regulating gastric acid secretion?

Answer 72

Secretin and CCK.

Question 73

Name the 4 main defence mechanisms against gastric acid secretion.

Answer 73

1. Alkaline mucous.
2. Tight junctions between epithelial cells.
3. Replacing damaged cells.
4. Feedback loops.

Question 74

Define ulcer.

Answer 74

A breach in a mucosal surface.

Question 75

Name 3 things that can cause peptic ulcers.

Answer 75

1. Helicobacter pylori.
2. NSAIDS.
3. Chemical irritants.

Question 76

Why do NSAIDS cause peptic ulcers?

Answer 76

They inhibit cycle-oxygenase 1.
Cycle-oxygenase 1 is needed for prostaglandin synthesis, prostaglandins stimulate mucus secretion. Without cycle-oxygenase 1 there is less mucus and so the mucosal defence is reduced.

Question 77

Why does helicobacter pylori cause peptic ulcers?

Answer 77

Helicobacter pylori lives in gastric mucus. It secretes urease. Urease breaks into CO2 and NH3. The NH3 combines with H+ to form NH4+. NH4+ damages the gastric epithelium, an inflammatory response is triggered and mucosal defence is reduced.

Question 78

Name 2 drugs that can be used to reduce gastric acid secretion.

Answer 78

1. Proton pump inhibitors.

2. H2 receptor antagonists.

Question 79

If water input is 9L, how much is reabsorbed and how much is excreted in the faeces?

Answer 79

8.8L is reabsorbed and 0.2L is excreted in the faeces.

Question 80

How does water move across the small intestine?

Answer 80

It moves freely by osmosis and also via aquaporins.

Question 81

How does Na+ move across the small intestine?

Answer 81

Na+ is actively transported from the lumen by pumps located in the cell membranes in the ileum and jejunum.

Question 82

How does K+ move across the small intestine?

Answer 82

Via passive diffusion. Movement is determined by the potential difference between lumen and capillaries.

Question 83

Where does Cl- and HCO3- reabsorption mainly take place?

Answer 83

In the ileum and colon.

Question 84

What is the mechanism for Cl- and HCO3- reabsorption?

Answer 84

Cl- is actively reabsorbed in exchage for HCO3-. The intestinal contents therefore become more alkaline.

Question 85

What enzyme digests starch in the small intestine?

Answer 85

Pancreatic amylase.

Question 86

What bonds does pancreatic amylase break?

Answer 86

alpha 1-4 linkages.

Question 87

What are the end products of starch digestion?

Answer 87

Maltose!

Also maltotriose, glucose polymers and alpha-dextrins.

Question 88

Where in the small intestine are bile salts absorbed?

Answer 88

Jejunum.

Question 89

What enzyme(s) hydrolyse peptide bonds in the stomach?

Answer 89

Pepsins.

Question 90

What is the optimum pH for pepsins?

Answer 90

1.6-3.2

Question 91

Why is pepsin action terminated in the small intestine?

Answer 91

The pH in the small intestine is too alkaline and so it denatures.

Question 92

What enzyme(s) further break down peptides in the small intestine?

Answer 92

Pancreatic proteases.

Question 93

What is the precursor molecule for pepsin?

Answer 93

Pepsinogen.

Question 94

What activates pepsinogen?

Answer 94

Low pH.

Question 95

What 2 groups can pancreatic proteases be divided into?

Answer 95

1. Endopeptidases e.g. trypsin.

2. Exopeptidases e.g. carboxy dipeptidases.

Question 96

How do amino acids get absorbed into the blood?

Answer 96

Passive diffusion.

Question 97

What enzyme(s) hydrolyse cholesterol esters in the intestinal lumen?

Answer 97

Pancreatic esterases.

Question 98

What emulsifies lipids?

Answer 98

Bile salts.

Question 99

What is the advantage of emulsifying lipids?

Answer 99

It increases the SA for digestion and so digestion is more efficient.

Question 100

What digests lipids in the small intestine?

Answer 100

Pancreatic lipases.

Question 101

Are lipids hydrophobic or hydrophilic?

Answer 101

Hydrophobic.

Question 102

What are the end products of fat digestion?

Answer 102

Free fatty acids and monoglycerides.

Question 103

What triglyceride bonds is pancreatic lipase able to hydrolyse with ease?

Answer 103

1 and 3 bonds (the 2 bond is hydrolysed at a slower rate).

Question 104

What protein binds pancreatic lipase to the surface of the lipid?

Answer 104

Co-lipase. This is essential, pancreatic lipase can not work without it.

Question 105

The end products of fat digestion combine with bile salts and cholesterol to form what?

Answer 105

Mixed micelles.

Question 106

What is the function of mixed micelles?

Answer 106

Lipid transport systems.

Question 107

How are chylomicrons formed?

Answer 107

Triglycerides, phospholipids and cholesterol combine with proteins inside the epithelial cell forming chylomicrons.

Question 108

Is vitamin A fat or water soluble?

Answer 108

Fat soluble.

Question 109

What are the functions of vitamin A?

Answer 109

Vitamin A is needed for cellular growth and differentiation. It is also important for eyesight and lymphocyte production.

Question 110

Name 3 sources of vitamin A.

Answer 110

1. Oily fish.
2. Dairy.
3. Liver

Question 111

What is the recommended daily intake of vitamin A for men and women?

Answer 111

Women - 600µg. Men - 700µg.

Question 112

What are the consequences of vitamin A deficiency?

Answer 112

Night blindness, growth retardation, increased susceptibility to infection.

Question 113

What are the consequences of vitamin A toxicity?

Answer 113

Anorexia, vomiting, headache, reduced bone density, conjunctivitis.

Question 114

Is vitamin C fat or water soluble?

Answer 114

Water soluble (easily lost when boiled).

Question 115

What are the functions of vitamin C?

Answer 115

Synthesis of collagen, neurotransmitters and carnitine. It has an antioxidant ability and can absorb non-haem iron.

Question 116

Name 4 sources of vitamin C.

Answer 116

1. Citrus fruits.
2. Green leafy veg.
3. Potatoes.
4. Kidney.

Question 117

What is the recommended daily intake of vitamin C?

Answer 117

40mg.

Question 118

What are the consequences of vitamin C deficiency?

Answer 118

Weakness, shortness of breath, aching, bleeding gums, thickening of skin.

Question 119

What are the consequences of vitamin C toxicity?

Answer 119

Diarrhoea, nausea, renal stone formation.

Question 120

Are B vitamins fat or water soluble?

Answer 120

Water soluble.

Question 121

How many B vitamins are there?

Answer 121

8.

Question 122

What are B vitamins important for?

Answer 122

Cell metabolism and energy production.

Question 123

How long do glycogen stores in a 70Kg adult last?

Answer 123

About 12 hours.

Question 124

How long do lipid stores in a 70Kg adult last?

Answer 124

3 months.

Question 125

What percentage of BMR do these organs use?

a) Brain.
b) Liver.
c) Muscle.

Answer 125

a) 20%.
b) 21%.
c) 22%.

Question 126

What fuels does the brain use?

Answer 126

Glucose and ketone bodies.

Question 127

What fuels does the liver use?

Answer 127

Glucose, amino acids, fatty acids.

Question 128

What fuels does muscle use?

Answer 128

Glucose, ketone bodies, amino acids and triacylglycerol.

Question 129

What are free sugars and starch associated with effecting?

Answer 129

They can cause shifts in blood glucose and insulin due to their rapid absorption. This can strain the pancreas.

Question 130

What type of starch is the most desirable and why?

Answer 130

Slowly digestible starch. It is slowly digested and absorbed and so has little influence on blood glucose and insulin.

Question 131

What is the cause of lactose intolerance?

Answer 131

A deficiency in lactase.

Question 132

Give 3 symptoms of lactose intolerance.

Answer 132

1. Bloating.
2. Diarrhoea.
3. Pain.

Question 133

Explain the mechanism that produces the symptoms of lactose intolerance.

Answer 133

Lactose intolerance has an osmotic effect. H2O and fermentable sugars enter the the large intestine lumen and cause diarrhoea, bloating and pain.

Question 134

Why might someone with enterocyte loss be unable to break down lactose?

Answer 134

Enterocytes at villi contain lactase. If the enterocytes are lost they may have lactase deficiency.

Question 135

Define BMR.

Answer 135

The energy needed to stay alive at rest, usually 24kcal/kg/day.

Question 136

Where does the foregut begin and end?

Answer 136

Mouth to the major duodenal papilla. (In the embryo - oropharyngeal membrane to the liver bud).

Question 137

Where does the midgut begin and end?

Answer 137

Major duodenal papilla to 2/3 along the TC. (In embryo - liver bud to 2/3 along TC).

Question 138

Where does the hindgut begin and end?

Answer 138

Distal 1/3 of TC to anal canal. (In embryo - distal 1/3 of TC to cloacal membrane).

Question 139

Why are the foregut, midgut and hindgut divisions different in the adult compared to in the embryo?

Answer 139

It changes due to the formation of the ampulla of vater.

Question 140

Are the pharyngeal clefts formed in the endoderm or ectoderm?

Answer 140

Ectoderm.

Question 141

Are the pharyngeal pouches formed in the endoderm or ectoderm?

Answer 141

Endoderm.

Question 142

How many pharyngeal arches are there?

Answer 142

5 (4 pharyngeal clefts and pouches).

Question 143

What does the first pharyngeal arch form?

Answer 143

Muscles for mastication. Innervation: Cn 5.

Question 144

What does the second pharyngeal arch form?

Answer 144

Muscles for facial expression. Innervation: Cn 7.

Question 145

What does the third pharyngeal arch form?

Answer 145

Stylopharyngeus muscle. Innervation: Cn 9.

Question 146

What does the fourth pharyngeal arch form?

Answer 146

Cricothyroid muscle. Innervation: External branch of superior laryngeal nerve (Cn 10).

Question 147

What does the sixth pharyngeal arch form?

Answer 147

Intrinsic muscles of the Larynx. Innervation: Recurrent laryngeal nerve (Cn 10).

Question 148

Why is the stomach the shape it is?

Answer 148

Due to differences in growth rates. The greater curvature grows faster than the lesser curvature.

Question 149

Why does the left vagus nerve become the anterior vagal trunk and the right vagus become the posterior vagal trunk?

Answer 149

Due to the 90 degrees clockwise rotation of the stomach in its longitudinal axis.

Question 150

What are the axis of stomach rotation?

Answer 150

Longitudinal and anteroposterior.

Question 151

What does the dorsal mesentery become?

Answer 151

The greater omentum.

Question 152

What does the ventral mesentery become?

Answer 152

The lesser omentum.

Question 153

What are the 5 stages of midgut development?

Answer 153

1. Elongation.
2. Herniation.
3. Rotation.
4. Retraction.
5. Fixation.

Question 154

What connects the midgut to the yolk sac?

Answer 154

The Vitelline duct.

Question 155

What happens in the elongation stage of midgut development?

Answer 155

Rapid elongation forms the primary intestinal loop. The proximal part of the loop forms the small intestine and the distal part forms the large intestine up to 2/3 TC.

Question 156

What happens in the herniation stage of midgut development?

Answer 156

The rapid growth of the intestinal loop means it is pushed into the extra embryonic cavity in the umbilical cord.

Question 157

What happens in the rotation stage of midgut development?

Answer 157

The elongated intestinal loop rotates 270 degrees anticlockwise.

Question 158

What happens in the retraction stage of midgut development?

Answer 158

In the 10th week the herniated midgut returns into the expanded abdominal cavity. Th jejunum is first to return.

Question 159

What happens in fixation of midgut organs?

Answer 159

This is when some regions of the gut lose their dorsal mesentery. These regions become retroperitoneal.

Question 160

What are the 4 layers of the GI tract?

Answer 160

1. An innermost mucosa.
2. A sub-mucosa.
3. An external muscle coat (muscularis externa)
4. A serosa.

Question 161

What is the innermost mucosa layer composed of?

Answer 161

• A folded epithelium.
• Lamina propria (connective tissue).
• Muscularis mucosa (ring of smooth muscle).

Question 162

What is the submucosa layer composed of?

Answer 162

Loose connective tissue containing glands and lymph tissue. Many blood vessels and a rich plexus of nerves that is part of the enteric nervous system (Meissner’s plexus) are also found in the submucosa.

Question 163

What is the muscular externa composed of? What is its function?

Answer 163

Composed of 2 layers of smooth muscle: circular and longitudinal. Nerves that are part of the enteric nerve plexus are also present here (Aurebach’s plexus). Contraction of the muscle helps to break down and food and propel it along the GI tract.

Question 164

What is the serous layer composed of?

Answer 164

Composed of a simple squamous epithelium that covers the outside surface of the gut tube facing the peritoneal cavity.

Question 165

What enzyme are parietal cells abundant in?

Answer 165

Carbonic anhydrase.

Question 166

Give 5 functions of hepatocytes.

Answer 166

1. Creation and storage of energy in the form of glycogen.
2. Synthesise and secrete plasma proteins.
3. Remove amino groups from amino acids for the production of urea. (Deamination).
4. Uptake, synthesis and excretion of bilirubin and bile acids.
5. Detoxification and inactivation of drugs and toxins.

Question 167

What are the 2 key stages for fat digestion?

Answer 167

1. Emulsification.

2. Triglyceride hydrolysis.

Question 168

What clinical feature would you see in a patient with fat malabsorption?

Answer 168

Pale and smelly faeces.

Question 169

What clinical feature would you see in a patient with vitamin K malabsorption?

Answer 169

Bruising.

Question 170

What clinical feature would you see in a patient with protein malabsorption?

Answer 170

Swollen ankles.

Question 171

Where in the layers of the GI tract would Meissner’s plexus be found?

Answer 171

In the submucosa.

Question 172

Where in the layers of the GI tract would Auerbach’s plexus be found?

Answer 172

In the muscularis externa between the circular and longitudinal layers of muscle.

Question 173

Name the abdominal retroperitoneal organs.

Answer 173

Supradrenal glands, Aorta, IVC, Duodenum (except cap), Pancreas (except tail), Ureters, Colon (ascending and descending), Kidneys, Oesophagus, Rectum.

Question 174

Name the abdominal intraperitoneal organs.

Answer 174

Spleen, Small intestine, Appendix, Liver, Transverse colon, Stomach, Sigmoid colon.

Question 175

What is the arcuate line?

Answer 175

The lower limit of the posterior rectus sheath.

Question 176

What happens to the posterior rectus sheath below the arcuate line?

Answer 176

It is absent. The rectus abdominis is in direct contact with the transversalis fascia.

Question 177

What envelopes the rectus abdominis above the arcuate line?

Answer 177

It is enveloped by the internal oblique aponeurosis.

Question 178

What is the anterior layer of rectus sheath formed from?

Answer 178

External oblique aponeurosis and the anterior lamina of the internal oblique aponeurosis.

Question 179

What is the posterior layer of the rectus sheath formed from?

Answer 179

The posterior lamina of the internal oblique aponeurosis and the transversus abdominis aponeurosis.

Question 180

What forms the anterior rectus sheath below the rectus abdominis?

Answer 180

The external oblique, internal oblique and transversus abdominis aponeurosis’ all form the anterior rectus sheath. There is no posterior rectus sheath.

Question 181

What vertebral level does the umbilicus mark when lying down?

Answer 181

L3.

Question 182

What abdominal plane would you refer to when carrying out a lumbar puncture?

Answer 182

The intercristal plane. It joins the highest points of the pelvis posteriorly and marks the space between L4 and L5.

Question 183

Describe 2 ways in which the transpyloric plane can be drawn.

Answer 183

1. The midpoint between the suprasternal notch and the pubic symphysis.
2. Connects the two points marked by the insertion of the rectus sheath into the costal margin.

Question 184

Name 3 structures that cross the transpyloric plane.

Answer 184

1. The pylorus of the stomach.
2. The gall bladder.
3. The pancreas.

Question 185

At what vertebral level is the transpyloric plane?

Answer 185

L1.

Question 186

What is the intercristal plane?

Answer 186

It connects the highest points of the pelvis at the lower back.

Question 187

At what vertebral level is the intercristal plane?

Answer 187

L4/5.

Question 188

What is the intertubercular plane?

Answer 188

A line that joins the tubercles of the iliac crests.

Question 189

At what vertebral level is the intertubercular plane?

Answer 189

L4.

Question 190

What is the subcostal plane?

Answer 190

A plane parallel to the lowest points of the costal margins.

Question 191

At what vertebral level is the subcostal plane?

Answer 191

L2.

Question 192

Where is the swallowing centre found?

Answer 192

Medulla oblongata.

Question 193

What molecule is responsible for the activation of pepsinogen into pepsin?

Answer 193

HCl.

Question 194

Give 3 functions of HCl in the stomach.

Answer 194

1. Solubilisation of food particles.
2. Kills microbes.
3. Activates pepsinogen forming pepsin.

Question 195

Histamine is secreted by enterchromaffin like cells. What are enterochromaffin cells?

Answer 195

Enterchromaffin cells are located in the intestine and secrete serotonin, not histamine.

Question 196

What type of cells are secretin and CCK?

Answer 196

Enterogastrones.

Question 197

Chief cells secrete pepsinogen and and an enzyme. What is the enzyme?

Answer 197

Gastric lipase.

Question 198

Name 3 monosaccharides.

Answer 198

1. Glucose.
2. Fructose.
3. Galactose.

Question 199

Name 3 disaccharides.

Answer 199

1. Sucrose (glucose and fructose).
2. Lactose (glucose and galactose).
3. Maltose (glucose and glucose).

Question 200

Name 3 polysaccharides.

Answer 200

1. Starch.
2. Cellulose.
3. Glycogen.

Question 201

Where does the majority of complex polysaccharide digestion occur?

Answer 201

In the large intestine via gut bacteria.

Question 202

Where is the first site of starch digestion?

Answer 202

In the mouth via salivary amylase.

Question 203

Briefly describe starch digestion.

Answer 203

Begins in the mouth via salivary amylase. In the small intestine pancreatic amylases catalyse alpha 1-4 linkages forming maltose. The end products are further broken down by enzymes e.g. maltase on the luminal membrane; this forms monosaccharides. The products diffuse into the blood.

Question 204

What are proteins digested into?

Answer 204

Dipeptides, tripeptides and amino acids.

Question 205

What enzyme is responsible for protein digestion in the stomach?

Answer 205

Pepsin.

Question 206

What is the optimum pH for pepsin action?

Answer 206

1.6 - 3.2

Question 207

What does pepsin break proteins into?

Answer 207

Peptide fragments.

Question 208

What enzymes are responsible for protein digestion in the small intestine?

Answer 208

Pancreatic proteases.

Question 209

What are the 2 types of pancreatic proteases?

Answer 209

1. Endopeptidases.

2. Exopeptidases.

Question 210

Give 2 examples of an endopeptidase.

Answer 210

1. Trypsin.

2. Chymotrypsin.

Question 211

Give 2 examples of an exopeptidase.

Answer 211

1. Carboxypeptidases.

2. Aminopeptidases.

Question 212

What is the function of endopeptidases?

Answer 212

They break peptide bonds between non-terminal amino acids.

Question 213

What is the function of exopeptidases?

Answer 213

They break peptide bonds between terminal amino acids and so form monomers.

Question 214

Which type of pancreatic protease can form monomers?

Answer 214

Exopeptidases.

Question 215

By what process are the products of protein digestion absorbed into the intestinal epithelial cells?

Answer 215

Secondary active transport coupled to H+ or Na+.

Question 216

What molecules make up phospholipids?

Answer 216

1 glycerol backbone, 2 fatty acids and 1 phosphate group.

Question 217

What are triglycerides broken down into?

Answer 217

Monoglycerides and 3 fatty acids.

Question 218

What enzyme is needed for fat digestion?

Answer 218

Pancreatic lipase.

Question 219

What mechanism speeds up the digestion of fats?

Answer 219

Emulsification - the surface area for lipase action is increased.

Question 220

What substances emulsify lipids?

Answer 220

Bile salts and phospholipids.

Question 221

What enzyme anchors lipase to the surface of an emulsified lipid droplet?

Answer 221

Colipase.

Question 222

Name 4 molecules to make up micelles.

Answer 222

1. Fatty acids.
2. Monoglycerides.
3. Bile salts.
4. Phospholipids.

Question 223

What molecule is produced that aids absorption?

Answer 223

Micelles.

Question 224

What is the function of micelles?

Answer 224

They are lipid transport systems. They move to the epithelial brush border and release the fatty acids and monoglycerides for absorption.

Question 225

What happens to the fatty acids and monoglycerides inside the intestinal epithelial cells?

Answer 225

They are re-synthesised into triglycerides in the smooth ER.

Question 226

Why are fatty acids and monoglycerides re-synthesised into triglycerides inside the intestinal epithelial cells?

Answer 226

To maintain the concentration gradient for further absorption of fatty acids and monoglycerides.

Question 227

Inside the intestinal epithelial cell, triglycerides combine with other lipids e.g. cholesterol to form what molecules?

Answer 227

Chylomicrons.

Question 228

What are the functions of chylomicrons?

Answer 228

Chylomicrons move through the lymphatics and the blood stream to tissues.

Question 229

How is vitamin B12 absorbed?

Answer 229

It binds to a protein, intrinsic factor. It is then absorbed in the terminal ileum via endocytosis.

Question 230

What can cause pernicious anaemia?

Answer 230

If you have low levels of intrinsic factor you will have B12 deficiency. This will mean fewer RBC’s will be formed leading to pernicious anaemia.

Question 231

What can cause Barrett’s oesophagus?

Answer 231

GORD.

Question 232

Describe Barrett’s oesophagus.

Answer 232

When the stratified squamous oesophageal epithelium changes to a simple columnar one at the lower end of the oesophagus. This can be caused by prolonged acid reflux from the stomach.

Question 233

What is the function of the Vagus nerve in regards to parietal cells?

Answer 233

The vagus nerve stimulates the release of Ach which then acts on the parietal cells to increase HCl production.

Question 234

Give 4 risk factors for GORD.

Answer 234

1. Obesity.
2. Pregnancy.
3. Hiatal hernia.
4. Smoking.
   (Sedentary lifestyle is not a risk factor).

Question 235

Where in the stomach are G cells most numerous?

Answer 235

In the antrum.

Question 236

Name 2 areas of the body with a low pH to combat bacteria.

Answer 236

Stomach and vagina.

Question 237

Name 3 organs that secrete digestive enzymes.

Answer 237

1. Stomach.
2. Pancreas.
3. Salivary glands.

Question 238

What structure, visible microscopically, is primarily responsible for absorption?

Answer 238

Villi.

Question 239

Name 3 physical mechanisms of absorption.

Answer 239

1. Endocytosis.
2. Diffusion/facilitated diffusion.
3. Active transport.

Question 240

Name 2 diseases that can cause malabsorption.

Answer 240

1. Crohn’s disease - loss of plicae circulares.

2. Coeliac disease - vili atrophy.

Question 241

Define malnutrition.

Answer 241

A lack of nutrition due to not eating enough, being unable to absorb nutrients, eating the wrong things.

Question 242

Why might an elderly person be at risk of malnutrition?

Answer 242

1. Immobility - unable to cook and eat.
2. Dental problems meaning its difficult to chew foods.
3. Decreased appetite.
4. Not eating the right things.

Question 243

Name 3 physical tests for malnutrition.

Answer 243

1. BMI.
2. Amount of body fat.
3. Height.

Question 244

Give 4 complications of malnutrition.

Answer 244

1. Apathy.
2. Depression.
3. Increased risk of infection.
4. Anaemia.

Question 245

Why is endoscopy preferred to a barium meal?

Answer 245

Produces a better image and is more accurate. Also prevents exposure to radiation as a barium meal requires an X-ray.

Question 246

What muscles contributes to the upper oesophageal sphincter?

Answer 246

Cricopharyngeus.

Question 247

Where are the stem cells that replace the epithelium located?

Answer 247

The base of crypts.

Question 248

What are the pacemaker cells of the small intestine called?

Answer 248

Interstitial cells of Cajal.

Question 249

Name 2 endocrine secretions from the duodenum?

Answer 249

1. Secretin.

2. CCK.

Question 250

Why are fatty acids and monoglycerides re-synthesised into triglycerides inside the epithelial cell?

Answer 250

To maintain a diffusion gradient allowing for further reabsorption.

Question 251

Which papillae do not bear taste buds?

Answer 251

Filiform papillae.

Question 252

Does the oesophagus have a serosa layer?

Answer 252

No!

Question 253

What is refeeding syndrome?

Answer 253

Metabolic disturbances (hypokalemia, hypomagnesemia etc) that occur due to reinstitution of nutrition to patients who are starved/severley malnourished.