AS Lecture 1/2 - Burden of GI disease & Oesophagus and Stomach

Question 1

<p><p>What is digestion?</p></p>

Answer 1

<p><p>Process of breaking down macromolecules to allow absorption</p></p>

Question 2

<p><p>What is absorption?</p></p>

Answer 2

<p><p>Process of moving nutrients and water across a membrane</p></p>

Question 3

<p><p>How can digestion take place?</p></p>

Answer 3

<p><p>Mechanically: Chewing, gastric churning, peristalsis OR enzymatically</p></p>

Question 4

<p><p>What happens after ingestion?</p></p>

Answer 4

<p><p>Either direct excretion/absorption OR digestion</p></p>

Question 5

<p><p>What are the components of the GIS?</p></p>

Answer 5

<p><p>Parotid gland, sublingual gland, submandibular gland, oesophagus, liver, stomach, gall bladder, pancreas, duodenum, jejenum, ileum, appendix, ascending colon, descending colon, sigmoid colon, rectum, anus</p></p>

Question 6

<p><p>What are some diseases specific to each part of the GI system?</p>
</p>

Answer 6

<p><p>Main: LIVER - hence hepatology</p>
</p>

Question 7

<p><p>What is disease burden - the checklist?</p>
</p>

Answer 7

<p><p>Burden to the patient, economy, population, society</p>
</p>

Question 8

<p><p>What are the different classes of symptoms that can be caused by GIT diseases?</p>
</p>

Answer 8

<p><p>General, Upper GI, hepatobiliary, mid GI, lower GI</p>
</p>

Question 9

<p>What are some general symptoms of GIT diseases?</p>

Answer 9

<p>Anorexia, weight loss, anaemia</p>

Question 10

<p>What are some UGI symptoms?</p>

Answer 10

<p>Haematemesis, melaena, N and V, Dysphagia, odynophagia, heartburn, Acid regurgitation, belching, chest pain, epigastric pain</p>

Question 11

<p>What are some hepatobiliary symptoms?</p>

Answer 11

<p>RUQ pain, Biliary colic, Jaundice, Dark urine, pale stool, abdominal distention</p>

Question 12

<p>What are some mid GI symptoms?</p>

Answer 12

<p>Abdominal pain, steatorrhea, diarrhoea, abdominal distention</p>

Question 13

<p>What are some lower GI symptoms?</p>

Answer 13

<p>Abdominal pain, bleeding, constipation, diarrhoea, incontinence</p>

Question 14

<p>Why is incontinence important?</p>

Answer 14

<p>A patient won't want to share that they are incontinent - embarrassing</p>

Question 15

<p>What are the 4 places that show signs due to GIS disease?</p>

Answer 15

<p>General, hands, abdomen, anus and rectum</p>

Question 16

<p>What signs are generally visible?</p>

Answer 16

<p>Cachexia, obesity, lymphadenopathy, anaemia, jaundice</p>

Question 17

<p>What are some signs on the hands?</p>

Answer 17

<p>Koilinychia, leuconychia, clubbing, dupytrens contracture, tachycardia, tremor</p>

Question 18

<p>What are some signs of the abdomen?</p>

Answer 18

<p>Organ enlargement, mass, tenderness, distension</p>

Question 19

<p>What are some signs of the anus and rectum?</p>

Answer 19

<p>Haemorrhoids, fistula, fissure, rectal masses or proctitis</p>

Question 20

<p>What investigations can be used for the GI systems?</p>

Answer 20

<p>History, Basic physical examination, Haematology/biochem/microbio (blood test, tumour markers, urea, etc), procedures (x-ray, mri, colonoscopy)</p>

Question 21

<p>What is the biggest specific killer of people in UK, wrt GID?</p>

Answer 21

<p>Liver cirrhosis</p>

Question 22

<p>What is the biggest portion of systemic cancers in the UK?</p>

Answer 22

<p>Gastrointestinal</p>

Question 23

<p>What position is GI most likely to cause problems and lead to death?</p>

Answer 23

<p>4th (don't need to know but to appreciate)</p>

Question 24

<p>What is happening to the trend of alcoholic liver disease vs. liver cancer?</p>

Answer 24

<p>Alcoholic liver disease is high among younger populations, and decreases with age BUT liver cancer increases with age, affecting the older generations</p>

Question 25

<p>In which sex, is alcoholic liver disease and liver cancer more common?</p>

Answer 25

<p>Males</p>

Question 26

<p>Which GI cancers are common?</p>

Answer 26

<p>Colorectal (2nd), Prostate(3rd), Oesophagus, pancreas, stomach (6th), liver (13th) [oral cancer commonish]</p>

Question 27

<p>What are some prevalent inflammatory conditions that are burden?</p>

Answer 27

<p>Ulcerative colitis (1/500)
Crohn's disease (1/1000)
Coeliac disease (1/87)
Gastro-oesophageal reflux disease</p>

Question 28

<p>How is ulcerative colitis treated and what causes it?</p>

Answer 28

<p>Treated: colectomy, Cause: thought to be autoimmune</p>

Question 29

<p>What causes coeliac disease?</p>

Answer 29

<p>Gluten sensitivity</p>

Question 30

<p>What are some pancreatic conditions?</p>

Answer 30

<p>Acute/chronic pancreatitis</p>

Question 31

<p>What is acute pancreatitis?</p>

Answer 31

<p>Blockage of the pancreatic duct causes back up of pancreatic enzymes, causing severe inflammation - mild->life-threatening</p>

Question 32

<p>What is chronic pancreatitis?</p>

Answer 32

<p>Permanent damage to pancreas, alcohol excess is the main cause and can greatly impair quality of life</p>

Question 33

<p>What kind of infections can occur in the GIS?</p>

Answer 33

<p>Bacterial - Helicobacter pylori (nausea, bloating, weight loss), E. coli (Nausea, diarrhoea, cramps)
Virus - Norovirus (N, V, D)</p>

Question 34

<p>How does H. pylori affect people globally?</p>

Answer 34

<p>Infects around 60% of people - 85% have no problems, 14% peptic ulcers, 1% gastric adenocarcinoma/lymphoma</p>

Question 35

<p>What are GI disease risks based on?</p>

Answer 35

<p>Mainly on environment - energy intake, staple foods</p>

Question 36

<p>What are the different effects on the economy from GID?</p>

Answer 36

<p>Mortality and lost years, absence from work, morbidity, NHS prescription costs, QALY, DALY</p>

Question 37

<p>What do QALY and DALY mean?</p>

Answer 37

<p>Quality and Disability adjusted life years</p>

Question 38

<p>What kind of healthcare costs are there (GI burden)?</p>

Answer 38

<p>In-patients, out-patients, primary care, community health and social care</p>

Question 39

<p>What kind of other costs are there (GI burden)?</p>

Answer 39

<p>NHS costs and non-working costs</p>

Question 40

<p>What are the costs of dyspepsia?</p>

Answer 40

<p>Only 2% consult GPs and 40% of adults suffer from it - OTC drugs</p>

Question 41

<p>What is a cost effective screening programme in the UK - to do with GID?</p>

Answer 41

<p>Bowel cancer screening</p>

Question 42

<p>What are the 4 detrimental social aspects of GID?</p>

Answer 42

<p>Dietary limitation (intolerances), flatulence (sound and smell), treatment (smell/slight), incontinence (soiling)</p>

Question 43

<p>Which GI cancer has the poorest survival rate?</p>

Answer 43

<p>Pancreatic</p>

Question 44

<p>What is the most common cause of GI-related death in a 75 year old man?</p>

Answer 44

<p>Cancer</p>

Question 45

<p>What is the layer plan of the gut wall?</p>

Answer 45

<p>Mucosa (epithelium, lamina propria, muscularis mucosae), Submucosa (connective tissue w/nerve plexus), Muscularis (smooth muscle w/nerve plexus), serosa/adventitia (connective tissue +/- epithelium)</p>

Question 46

<p>What is the structure of the oesophagus?</p>

Answer 46

<p>Starts at C5, passes through the thorax into the abdomen, close to the heart, laryngeal nerves</p>

Question 47

<p>What is the purpose of the oesophagus?</p>

Answer 47

<p>Conduit for food, drink and swallowed secretions from pharynx to stomach</p>

Question 48

<p>What are some complications of the place where the oesophagus is placed?</p>

Answer 48

<p>Close to the pericardium, so a rupture could lead to acidic contents/bacteria entering into the thorax and causing infections; also close to the recurrent laryngeal nerves, which could be damaged during surgery</p>

Question 49

<p>What is the structure/function relationship of the oesophagus' epithelium?</p>

Answer 49

<p>It is non-keratinising, stratified squamous - very robust, as needs to protect underlying structures and deal with wear and tear - secrete mucous to help with bolus lubrication</p>

Question 50

<p>What is the structure/function relationship of the oesophageal sphincters?</p>

Answer 50

<p>Upper/lower oesophageal sphincters - tonically active (need swallowing to open)
LOS needed to stop negative pressure drawing up the acid from stomach and UOS needed to close so breathing can occur</p>

Question 51

<p>What is the structure of the oesophagus muscles?</p>

Answer 51

<p>Skeletal, transition between skeletal/smooth and then smooth - there is NO VOLUNTARY CONTROL</p>

Question 52

<p>What is the process of swallowing and how is it controlled?</p>

Answer 52

<p>The swallowing centre in the brain sends a signal to open both sphincters, and when the bolus passes the UOS, it closes. The LOS stays open until the bolus has entered the stomach</p>

Question 53

<p>How does peristalsis occur?</p>

Answer 53

<p>Smooth muscle - particularly circular muscle - immediately above bolus is contracted, below bolus is relaxed - longitudinal helps, but mainly circular</p>

Question 54

<p>What are secondary peristaltic waves?</p>

Answer 54

<p>If the bolus hasn't reached the stomach and it is detected by the oesophagus, another wave of contraction is sent down the oesophagus, so the bolus can reach the stomach</p>

Question 55

<p>What is the gastro-oesophageal junction?</p>

Answer 55

<p>Joining of oesophagus with stomach - where the LOS is to prevent reflux (prevented by diaphragm)</p>

Question 56

<p>What is the LOS?</p>

Answer 56

<p>It is the diaphragm, assisting circular muscle at lower end of oesophagus</p>

Question 57

<p>How does the level of the GOJ help to prevent reflux?</p>

Answer 57

<p>Negative pressure in thorax vs positive pressure in stomach would lead to acid being drawn up the oesophagus</p>

Question 58

<p>What is a histological feature that can be seen at the GOJ?</p>

Answer 58

<p>Epithelial transition from stratified squamous to simple columnar AND gastric folds (rugae) are present in the stomach</p>

Question 59

<p>What is the purpose of the epithelial transition in the GOJ?</p>

Answer 59

<p>Change in function as in stomach it has to be more secretory rather than protective</p>

Question 60

<p>Why are the gastric folds present in the stomach?</p>

Answer 60

<p>Allows for huge changes of surface area - to expand and contract as required</p>

Question 61

<p>How does belching work?</p>

Answer 61

<p>The OS are both opened and the pressure in the oesophagus causes the air to be pushed out - not pushing out by the stomach</p>

Question 62

<p>What is the function of the stomach?</p>

Answer 62

<p>Break down food into smaller particles; holds food and releases at steady rate into duodenum; kills parasites and certain bacteria</p>

Question 63

<p>What are the types of cell in the stomach lining?</p>

Answer 63

<p>Simple columnar, which invaginate into mucosa - tubular glands</p>

Question 64

<p>What are the regions in the stomach and what do they produce?</p>

Answer 64

<p>Cardia and Pyloric regions - Mucus</p>

<p>Body and fundus - Mucus, HCl, pepsinogen</p>

<p>Antrum - Gastrin</p>

Question 65

What are the different cell types in the stomach?

Answer 65

Mucus secreting cells - secrete mucus high in carbonates, acting as a protective barrier for the lining of the stomach from the acid
Chief cells - secrete pepsinogen
Parietal cell - secrete H+ into the stomach

Question 66

How much acid does the stomach produce in a day? (+some other facts)

Answer 66

2L/day

150mM H+ - very acidic!!

Question 67

How do the mucus secreting cells protect the stomach lining?

Answer 67

They secrete mucins (gel coating) and pump out HCO3- which gets trapped in the mucus gel - this means that it can act as a buffer, neutralising the stomach acid

Question 68

What is the pH at the stomach lining compared to the centre?

Answer 68

Mucus lining/epithelial surface - 6-7

Lumen - 1-2

Question 69

How are chief cells adapted for their function in the stomach?

Answer 69

Protein secreting epithelial cell, abundant RER, golgi packaging and modifying for transport, masses of apical secretion granules

Question 70

How are parietal cells adapted for their function in the stomach?

Answer 70

Many mitochondria, cytoplasmic tubulovesicles (contain H+/K+ ATPase, merge with cannaliculi when cell activated), internal cannaliculi (reservoirs near the apical membrane)

Question 71

How is the acid produced in the parietal cell?

Answer 71

Carbonic anhydrase catalyses CO2 + H2O into H+ and HCO3-, then Na+/K+ pumps, bring K+ in which then diffuses into the cannaliculi. The HCO3- are moved out of the cell via pump which brings Cl- in which diffuse into the cannaliculi. The K+/H+ ATPase causes H+ to enter cannaliculi and K+ into the cell

Question 72

How would inhibition of carbonic anhydrase influence acid secretion in the stomach?

Answer 72

Decreases acid secretion

Question 73

How does pepsinogen work?

Answer 73

Produced by chief cell - is an acidic precursor which needs the acidic pH of the stomach (HCl) to enzymatically cleave each other, to produce pepsin (which is needed to break down proteins)

Question 74

What is gastrin?

Answer 74

Released in pyloric antrum - to stimulate acid secretion.

Question 75

What is the mechanism of gastrin release?

Answer 75

Ingested proteins increase the pH of the stomach contents, removing inhibition of gastrin, which causes more acid production to decrease the pH.

Question 76

What does gastrin act on?

Answer 76

Gastrin acts on parietal cells to increase acid secretions and can stimulate histamine release as well

Question 77

What are the 3 phases of gastric secretion?

Answer 77

Cephalic phase, gastric phase, intestinal phase

Question 78

What is the cephalic phase and where does it take place?

Answer 78

Occurs in brain - when thought/sight/smell of food occurs, brain activates vagus nerve to release ACh and react with parietal cells, or cause histamine release to increase acid production

Question 79

What is the gastric phase and where does it take place?

Answer 79

Once food reaches stomach - stomach reacts to distension (stretch receptors), sends signal up to brain saying there is food present (reflex - to send signal to increase acid secretion)
Also chemoreceptors present to trigger gastrin secretion

Question 80

What does the enteric nervous system do?

Answer 80

It reacts to the distension as well, and increased acid secretion

Question 81

What is the intestinal phase and where does it take place?

Answer 81

Mainly inhibition phase - as stomach contents pass to intestine, sends signal to brain if pH is low, to switch off gastrin secretion OR low pH in chyme causes 3 hormones to be secreted, so they can be reabsorbed into stomach to reduce gastrin/acid/other stomach secretions

Question 82

What are the 3 hormones (enterogastrones) secreted in response to low pH in the chyme (enterogastric reflex)?

Answer 82

Gastric inhibitory peptide, cholecystokinin, secretin

Question 83

What is the counter intestinal cycle - the excitatory version?

Answer 83

If the protein concentration in the duodenum is too high, gastrin secretion is stimulated, and acid is increased

Question 84

What part of acid secretion would you inhibit to reduce acid secretion?

Answer 84

Histamine receptor antagonist (Ranitidine)

K+/H+ ATPase inhibitor (Omeprazole)

Question 85

Which of the following stimuli would be most likely to
decrease acid secretion in the stomach?
A. Chyme fatty acid content
B. Increased acetylcholine secretion
C. Increased gastrin secretion
D. Protein content of the meal
E. Stomach distension

Answer 85

Chyme fatty acid content

Question 86

Which of the following structures within the
parietal cell contains the most H+/K+ ATPase?
A. Canaliculi
B. Carbonic anhydrase
C. Golgi body
D. Mitochondria
E. Tubulovesicles

Answer 86

Tubulovesicles