Pharmacological basis of treatment of the GI disorders

Question 1

What are the areas of pharmacological importance in treating GI tract disorders?

Answer 1

Gastric acid secretion → 2.5L of gastric juice secreted/day
Vomiting
Gut motility
Bile formation & excretion

Question 2

What is the main clinical use of H2 receptor agonists?

Give some examples of H2 receptor agonists

Answer 2

Peptic ulcer Reflex oesophagitis

ranitidine, cimetidine, famotidine, nizartidine

Question 3

Describe the mechanism of action of H2 receptor agonists

What are the consequences?

Answer 3

Inhibit histamine-, ACh- and gastrin-stimulated acid secretion on parietal cells

Reduce gastric acid secretion and as a consequence reduce pepsin secretion – do you know how it does that?

Can decrease basal and food-stimulated acid secretion by 90%. Does food stimulate acid secretion – what is the mechanism?

Promote the healing of duodenal ulcers
But if you stop treatment, you get relapse

Question 4

What are the unwanted effects of H2 receptor agonists?

Answer 4

Generally rare but there may be diarrhoea, muscle cramps, transient rashes, hypergastrinaemia

Cimetidine → gynecomastia in men (↓ sexual function, but this is rare)

Cimetidine also inhibits P450 enzymes → ↓ metabolism of a number of drugs metabolised by P450 enzymes, e.g. anticoagulants, tricyclic antidepressants (e.g. imipramine, dosulepin, amytriptyline, etc.)

Question 5

Which is more effective: ranitidine and cimetidine on inhibition of acid secretion?

Answer 5

Ranitidine

Question 6

Give some examples of anti-secretory agents: proton pump inhibitors in the treatment of gastric ulcers

Answer 6

Examples: omeprazole, lanzoprazole, pantoprazole, rabeprazole

Question 7

What are the clinical uses of proton pump inhibitors?

Answer 7

Clinical uses of proton pump inhibitors

1. Peptic ulcer, reflux oesophagitis; as a component of therapy for H. pylori
2. Can also be used in the treatment of Zollinger-Ellison syndrome
3. Drugs of choice, especially if hyper-secretion occurs, e.g. Zollinger-Ellison syndrome

Question 8

Describe the mechanism of action of Proton pump inhibitors in the treatment of gastric ulcers

What are the adverse side effects (unwanted effects)?

Answer 8

Mechanism of action of proton pump inhibitors

1. Weak bases; inactive at neutral pH and irreversibly inhibit the H+/K+-ATPase pump
2. Decreases basal and food-stimulated gastric acid secretion

Headache, diarrhoea, mental confusion, rashes, somnolence, impotence, gynaecomastia; dizziness

Question 9

What drugs protect the gastric mucosa?

Answer 9

Prostaglandins (PGE2 and PGI2) are gastroprotective

Question 10

How are prostaglandins (PGE2 and PGI2) gastroprotective?

Using Misoprostol as an example

Answer 10

Misoprostol (a stable analogue of PGE1)

Mode of action of misoprostol

1. Inhibits basal- and food-stimulated gastric acid secretion
2. Inhibits histamine-, and caffeine-induced gastric acid secretion
3. Inhibits the activity of parietal cells
4. Increases mucosal blood flow and can augment the secretion of HCO3- and mucus

Question 11

Describe the effects of metoclopramide on gastric motility and emptying

Answer 11

1. Metoclopromide inhibits pre- and post-synaptic dopamine (D2) receptors as well as 5-HT3 receptors (CNS) – inhibits vomiting
2. Stimulates 5-HT4 (ENS) - prokinetic

Question 12

What effect does dopamine (metoclopramide) have on gastric motility and emptying?

Answer 12

1. Dopamine inhibits the release of ACh
2. Dopamine inhibits the release of ACh from intrinsic myenteric cholinergic neurons by activating prejunctional D2 receptors
3. Dopamine has relaxant effects on the gut by activating D2 receptors in the lower oesophageal sphincter and stomach (fundus and antrum)

Dopamine acts on different dopamine receptors

4. Overall, dopamine has mixed effects on the gut – may induce contraction in the proximal, but relaxation in the distal small intestine

Question 13

Describe the effects of inhibition of dopamine at D2 receptors

Answer 13

1. ↑ release of ACh (↑ peristalsis of duodenum, jejunum and ileum)
2. ↑ ACh →↑intragastric pressure (due ↑ LOS tone and ↑ tone of gastric contractions)
3. These improve antroduodenal coordination which accelerates gastric emptying; relaxes pyloric sphincter

Through additional prokinetic effects…
It stimulates presynaptic excitatory 5-HT receptors and inhibitory nitregeric neurons → coordinated gastric motility

Question 14

What are the overall effects of Metoclopramide?

Answer 14

1. Useful for gastrointestinal reflux [but useless in paralytic ileus (as it causes moderate to diffuse abdominal discomfort e.g. → abdominal distension, nausea/vomiting especially after meals, lack of bowel movement/flatulence]
2. Stimulates gastric motility
3. Accelerates gastric emptying

Question 15

Describe the clinical utility of metoclopromide

Answer 15

Symptoms of gastroparesis

Promotes gastric emptying

Anti-emetic effects via central pathways

GORD; nausea due to surgery or cancer

Question 16

Have a read of the summary of the effects of metoclopramide

Answer 16

Metoclopromide promotes gut motility by the following mechanisms:

1. Inhibits presynaptic and postsynaptic D2 receptors,
2. Stimulates the release of ACh / SP from enteric neurons
3. Elicits mixed 5-HT agonist and antagonist effects, e.g., stimulates excitatory 5-HT4 receptors (ENS), but inhibits 5-HT3 receptors (CNS);
4. Stimulates inhibitory nitregic neurons – mediate NO release
5. Increases intragastric pressure -↑ LOS and gastric tones
6. Motility stimulant - improves antro-duodenal coordination and accelerated gastric emptying

GORD; nausea due to surgery or cancer; symptoms of gastroparesis

1. There is some evidence that metoclopramide leads to increased gastric emptying by enhancing antral contractions as well as decreasing postprandial fundus relaxation
2. However, its prokinetic effects may be limited to the proximal gut

Question 17

Give some examples of Antispasmodic agents

Answer 17

Examples: propantheline, dicloxerine (dicyclomine), mebeverine

Question 18

What do Antispasmodic agents do?

What do they treat?

What type of agonists are they, what nervous system do they inhibit?

What does this cause?

Answer 18

1. ↓ spasm in bowel. They have relaxant action on GIT (relax smooth muscle in GIT)

May be useful in irritable bowel syndrome and diverticular disease – a congenital lesion, may be a source of bacterial overgrowth.

Muscarinic receptor antagonists: inhibit parasympathetic activity. This reduces spasm in the bowel

Question 19

What are the goals of pharmacological intervention in gastric ulcer?

Answer 19

Reduce acid secretion with H2 receptor antagonists

Neutralise secreted acid with antacids

Attempt to eradicate H. pylori

Question 20

How is the removal of acid beneficial to ulcers?

Answer 20

Removes the constant irritation and allows the ulcer to heal

Question 21

Drugs can be used to inhibit or neutralise gastric acid secretion for the following conditions:

What do these drugs treat?

Answer 21

Peptic ulcer
Reflux oesophagitis: gastric acid secretion can damage oesophagus
Zollinger-Ellison syndrome: gastrin-producing tumour

Question 22

But H. pylori infection is a risk factor, to do with gastric ulcers

Why is this?

Answer 22

H. pylori: a Gram negative bacillus→ chronic gastritis → duodenal ulcer

Question 23

Describe the general mechanism of action of antacids

What effect does this have on gastric ulcers?

Answer 23

1. Neutralise gastric acid
2. ↑ the pH of gastric acid (peptic activity stops at pH 5)
3. Prolonged dosing can lead to healing of duodenal ulcers; less effective for gastric ulcers.

Question 24

What does Bismuth chelate (an antacid) do?

What effect does it have on H. pylori?

What are the side effects?

Answer 24

1. Protects gastric mucosa
2. Forms a base over crater of the ulcer
3. Adsorbs pepsin
4. ↑ HCO3- and PG secretion

Toxic against H. pylori – used as part of triple therapy to eradicate it

Blackens stool and tongue

Question 25

How do prostaglandins protect the stomach mucus from damage?

Answer 25

1. Stimulating bicarbonate secretion
2. Reducing H+ secretion
3. Promoting vasodilation

Question 26

PGs protect the stomach against damage

Why do NSAIDS (e.g. aspirin) cause gastric bleeding?

Answer 26

Q: Why do NSAIDS (e.g. aspirin) cause gastric bleeding?
A: Inhibit PG synthesis

Question 27

What are the cytoprotective effects of drugs that protect the gastric mucosa? e.g bismuth chelate

Answer 27

Provide a physical barrier (coat) over the surface/base of the ulcer

Enhances local synthesis of PGs

Promote bicarbonate secretion

Bismuth chelate has toxic effects on the bacillus: it
prevents the adherence of H. pylori to the mucosa or inhibit its proteolytic activity; stimulates bicarbonate secretion; ↑ PG synthesis; adsorbs pepsin

Question 28

What are the consequences of constipation as a result of rectal distension?

Why is holding faecal matter bad?

Answer 28

Headache

Loss of appetite

Nausea

Abdominal distension and stomach pain

Holding of faecal matter → ↑ water loss and dryer faeces (*painful and harder to defecate)

Question 29

What are the causes of constipation?

Answer 29

↓ motility of the large intestine
Old age
Damage to the enteric nervous system of colon

Question 30

What are the factors that can increase colonic motility (↑ distension of large intestine) and improve symptoms of constipation?

Answer 30

1. ↑ fibre, cellulose and complex polysaccharides
2. Bran, some fruits and vegetables with high fibre
3. Laxatives, but excessive use → ↓ responsiveness
4. Mineral oil – lubricates faeces
5. Castor oil – stimulates motility of colon

Question 31

What are the causes of constipation (elderly):

Answer 31

Diet
Inactivity
Drugs (polypharmacy)

Question 32

What are the alarm signs and symptoms of patients with chronic constipation?

Answer 32

1. Acute onset constipation in older individuals
2. Weight loss (10lb)
3. Blood in the stool
4. Anaemia
5. Family history of colon cancer or inflammatory bowel disease

Question 33

How can we manage constipation?

Answer 33

Lifestyle changes
Diet, fluid intake and exercise and their effects on constipation (appealing?)
↑ fibre intake → bloating and flatulence (not appealing)
↑ water intake??

Question 34

What are purgatives?

Answer 34

Purgatives: laxatives, faecal softeners & stimulant purgatives can modulate/hasten food transit in the intestine

Question 35

Bulk-forming and osmotic laxatives

Answer 35

Bulk laxatives: methylcellulose,

Plant gums (e.g. sterculia, agar, linseed, bran, ispaghula husk- are polysaccharide polymers)

They retain water in gut lumen → promotion of peristalsis, but take a few days to work

Increase the stool’s solid content

Bloating and flatulence

Question 36

What do Osmotic laxatives: lactulose do?

Answer 36

↑s and maintains volume of fluid in the lumen of bowel by osmosis
↑s transfer of gut contents into the intestine
Increases volume of gut content entering the colon → distension and purgation in 1hr

High doses → flatulence, cramps, diarrhoea, vomiting and tolerance

Question 37

Describe the Mode of action of lactulose

Answer 37

On image

Question 38

What do antidiarrhoeal agents do?

Answer 38

1. Maintain body fluids and electrolytes
2. Identify causal organism and if possible treat with antibiotics e.g. erythromycin for Campylobacter jejuni
3. Modify secretion/ absorption balance

Question 39

What are the effects of diarrhoea

Answer 39

Rough -> discomfort -> medical emergancy -> (liquid therapy)

Question 40

Describe Acute diarrhoeal diseases

Answer 40

Diarrhoea → ↑ motility of GIT, with ↑ secretion and ↓ absorption of fluid → ↓ electrolyte (Na+) and H2O

Cholera toxins → loss of gut contents

Question 41

Describe the therapeutic strategies for diarrhoea treatment

Answer 41

Maintain fluid and electrolyte balance: Oral rehydration therapy

•Use of anti-infectives: Bacterial infections may resolve with time
»Campylobacter sp: cause of gastroenteritis in the UK
»Use erythromycin or ciprofloxacin in severe infections
•If viral in nature, may not need to use anti-infectives
•Use of non-microbial anti-diarrhoeal agents
•Use of anti-motility drugs: adsorbents and agents that modify fluid and electrolyte transport

Question 42

What can the movement of substances in the gut be modulated by?

Answer 42

• Purgatives: ↑ passage of food through the intestine

Question 43

Describe agents that ↑ motility without → purgation:

Answer 43

Antidiarrhoeal drugs → ↓ movement

Antispasmodic drugs → ↓ movement; relax smooth muscles in GIT

Question 44

Describe the treatments for Traveller’s diarrhoea

Answer 44

Loperamide:Selective on GIT, decreases passage of faeces;
•Decreases duration of illness

Codeine & loperamide: Anti-secretory action;
•↓ intestinal motility

Question 45

Describe the mechanism of action of loperamide

Answer 45

An opioid receptor agonist

•Exerts effects on the -opioid receptor of the myenteric plexus* of the large intestine

• A spasmolytic agent which reduces smooth muscle activity in the GIT and thus reduces the passage of faeces
• Reduces force and speed of colonic movement
• Increases haustral mixing of the proximal colon
• Inhibits propulsive mass movement of the distal colon
• Does not cross the blood brain barrier, no CNS effects
• *Controls motility and secretion of GIT
• Stimulation of the -opioid receptor by loperamide inhibits gastric emptying, increases sphincter tone, induces stationary motor patterns and blocks peristalsis