1 Peptic Ulcer Disease
1 Peptic Ulcer Disease
1 Peptic Ulcer Disease
Peptic Ulcer
M.ASHOKKUMAR
DEPT OF PHARMACY PRACTICE
SRM COLLEGE OF PHARMACY
SRM UNIVERSITY
Contents
• Physiology of Gastric acid secretion
• An introduction to Peptic Ulcer Disease
• An outline on the Drugs used in such disorders
• Pharmacokinetics and Pharmacodynamics of
important groups of Drugs
• Clinical pharmacology of Peptic Ulcer Disease
Physiology of Gastric Secretion
Food
•H2 – cAMP
GC
Vagus
Phases of gastric secretion
Phase Stimuli Pathway
Cephalic (stimulate) Sight, smell, taste or 1) Vagus (M3 receptors)
thought of food 2) Histamine (H2 receptor)
3) Gastrin
Gastric (stimulate) Food in the stomach 1) Stretch: local reflex (M3
receptors)
2) Chemical substances in food
(gastrin)
3) Increase pH: Inhibition of
somatostatin (GHIH) release
Intestinal (inhibit) Chyme in the
duodenum
What is Peptic Ulcer ?
• A peptic ulcer disease or PUD is an ulcer (defined as
mucosal erosions equal to or greater than 0.5 cm) of
an area of the gastrointestinal tract exposed to the
acid and pepsin secretion
• Gastritis is the precursor to PUD and it is clinically
difficult to differentiate the two
– Stomach (called gastric ulcer)
– Duodenum (called duodenal ulcer)
– Esophagus (called Esophageal ulcer)
– Meckel's Diverticulum (called Meckel's Diverticulum ulcer)
Duodenal Vs Gastric Ulcers
Duodenal Gastric
• Age: 25‐75 years • Age: 55‐65 years
• Gnawing or burning upper • Relieved by food but pain may
abdomen pain relieved by food persist even after eating
but reappears 1‐3 hrs after meals • Anorexia, wt loss, vomiting
• Worse pain when stomach empty • Infrequent or absent remissions
• Bleeding occurs with deep • Small % become cancerous
erosion • Severe ulcers may erode through
– Hematemesis stomach wall
– Melena
Gastroesophageal Reflux Disease
(GERD)
• Common and GI motility disorder
• Acidity of Gastric contents – most common factor
• Acid contents reflux back into esophagus
• Intense burning, sometimes belching
• Can lead to esophagitis, esophageal ulcers, and
strictures
– Barrett’s esophagus
• Commonly associated with obesity
• Improves with lifestyle management
Why Ulceration Occurs?
• High [H+] in the gastric lumen
• Require defense mechanisms to protect oesophagus
and stomach
• Oesophagus – LES
• Stomach: a number of mechanisms
– Mucus secretion: slows ion diffusion
– Prostaglandins: I2 and E2 (alcohol, aspirin, and other drugs)
– Bicabonate ions
– High Blood Flow (nitric oxide)
Because of Imbalance
• Imbalance primarily between Aggressive factors
and Defensive factors:
What may contribute imbalance ?
• Helicobacter pylori
• NSAIDs
• Ethanol
• Tobacco
• Severe physiologic
stress (Burns, CNS trauma,
Surgery, Severe medical illness)
• Steroids
H. pylori
• Gram (‐) rod with flagella
• H pylori is most common cause of
PUD
• Transmission route fecal‐oral
• Secretes urease → convert urea to
ammonia
• Produces alkaline environment
enabling survival in stomach
• Almost all duodenal and 2/3 gastric
ulcer pt’s infected with HP
• Considered class 1 carcinogen →
gastric cancer
• Higher prevalence in Low SES
Who are they ?
Nobel Laureates
of Medicine –
2005
Discovery of
H. pylori & its
role in peptic
ulcer
• More often in stomach
• More often in • Often deep
duodenum • More severe GI
• Often superficial bleeding
• Less severe GI bleeding • Sometimes
asymptomatic
Drugs of Ulcer
treatment
Misoprostol Ranitidine
PGE2 Gastrin
Histamine
+ _ Proglumide
ACh _
M3 _ H2
Adenyl
PGE cyclase
+ Gastrin
+ receptor + receptor
Protein Kinase
(Activated)
K+ + H+
K
Parietal cell
Proton pump
_ Lumen of stomach
Omeprazole _
Gastric acid Antacid
Peptic Ulcers
Therapy Purpose
Therapy is directed at
enhancing host
defense or eliminating
aggressive factors; i.e.,
H. pylori
Classification
1. Acid Neutralizing agents: (ANTACIDS)
• Systemic: Sodium Bicarbonate and Sod. Citrate
• Nonsystemic: Magnesium hydroxide, Mag. Treisilicate, Aluminium
hydroxide gel, Magaldrate and calcium carbonate
2. Reduction in Gastric acid secretion:
• H2 antihistamines: Cimetidine, Ranitidine, Famotidine,
Nizatidine and Roxatidine
• Proton pump inhibitors: Omeprazole, Lansoprazole
Pantoprazole, Rabeprazole and Esomeprazole
• Anticholinergics: Pirenzepine, Propantheline and
Oxyphenonium
• Prostaglandin analogue: Misoprostol
Classification – contd.
3. Ulcer protectives: Sucralfate, Colloidal
Bismuth sudcitrate
4. Anti‐H. pylori Drugs: Amoxicillin,
Clarithromycin, metronidazole, tinidazole
and tetracycline
Antacids
• Weak bases that neutralize acid
• Also inhibit formation of pepsin
(As pepsinogen converted to pepsin at acidic pH)
• Acid Neutralizing Capacity:
– Potency of Antacids
– Expressed in terms of Number of mEq of 1N HCl
that are brought down to pH 3.5 in 15 minutes by
unit dose of a preparation (1 gm)
Antacids ‐ The Oldest Remedy
• Sodium Bicarbonate:
– Potent neutralizing capacity and acts instantly
– ANC: 1 gm = 12 mEq
• NOT USED ANYMORE FOR ITS DEMERITS:
– Systemic alkalosis
– Distension, discomfort and belching – CO2
– Rebound acidity
– Sodium overload
Antacids
• Present day antacids :
– Aluminium Hydroxide (ANC 1‐2.5mEq/g)
– Magnesium Hydroxide (ANC 30 mEq) – milk of magnesia
– Magnesium trisilicate (ANC 1mEq/g)
• Duration of action : 30 min when taken in empty stomach and
2 hrs when taken after a meal
• Side effects :
– Aluminium antacids – constipation (As they relax gastric smooth
muscle & delay gastric emptying) – also hypophosphatemia and
osteomalcia
– Mg2+ antacids – Osmotic diarrhoea
• In renal failure Al3+ antacid – Aluminium toxicity
& Encephalopathy
(Magaldrate – hydrated hydroxy magnesium aluminate)
Antacids – contd.
• Simethicone: Decrease surface tension
thereby reduce bubble formation ‐ added to
prevent reflux
• Alginates: Form a layer of foam on top of
gastric contents & reduce reflux
• Oxethazaine: Surface anaesthetic
Therapeutic Questions
• Is it rational to combine Aluminium hydroxide
and magnesium hydroxide in antacid
preparations ?
• How to avoid formation of insoluble
complexes of drugs by antacids, that are not
absorbed ?
Answers (!)
• Interactions can be avoided by taking antacids
2 hrs before or after ingestion of other drugs
• Combination provides a relatively fast and
sustained neutralizing capacity
– (Magnesium Hydroxide – Rapidly acting
– Aluminium Hydroxide ‐ Slowly acting )
• Combination preserves normal bowel function
– (Aluminium Hydroxide – constipation
– Magnesium hydroxide – diarrhoea )
The Reality
• Not part of Physician prescribed regimen –
frequency of dosing and rebound acidity
• Over the counter (OTC) drug for symptomatic
relief of dyspepsia
• May only be prescribed for very short term:
– Non‐ulcer dyspepsia and minor episodes of heart
burn
– As adjuvant in GERD – quick relieve
Sucralfate – ulcer protective
• Salt of sucrose complexed to sulfated aluminium hydroxide
(basic aluminium salt)
• MOA:
– In acidic pH polymerises to viscous gel that adheres to ulcer crater ‐
more on duodenal ulcer
– Precipitates protein on surface proteins and acts as physical barrier
– Dietary proteins get deposited on this layer forming another coat
– Delays gastric emptying and causes gastric PG synthesis – protective
action
Sucralfate – contd.
• Taken on empty stomach 1 hr. before meals
• Concurrent antacids, H2 antagonist avoided (as it
needs acid for activation)
• Uses:
– NSAID induced ulcers
– Patients with continued smoking
– ICU
– Topically – burn, bedsore ulcers, excoriated skins
• Dose: 1 gm 1 Hr before meals
• ADRs: Constipation, hypophosphatemia
Chemical reactions of antacids with
HCl in the stomach
Antacids
Capsules & Tablets:
• Powders
• Chewable tablets
• Suspensions
• Effervescent granules and tablets
H2 Antagonists
• Cimetidine, Ranitidine, Famotidine, Roxatidine, Nizatidine
and
• MOA:
– Reversible competitive inhibitors of H2 receptor
– Highly selective, no action on H1 or H3 receptors
– All phases of gastric acid secretion
– Very effective in inhibiting nocturnal acid secretion (as it depends
largely on Histamine )
– Modest impact on meal stimulated acid secretion (as it depends on
gastrin, acetylcholine and histamine)
– Volume of pepsin content and IF are also reduced
– Volume reduced by 60 – 70% ‐ anti ulcerogenic effect
– No effect on motility
H2 antagonists
• Kinetics:
– All drugs are absorbed orally adequately
– Bioavailability upto 80 %
– Absorption is not interfered by presence of food
– Can cross placental barrier and reaches milk
– Poor CNS penetration
– 2/3rd of the drugs are excreted unchanged in bile
and urine
• Preparations: available as tablets, injections
H2 antagonists ‐ ADRs
• Extremely safe drugs and well tolerated
• Main ADRs are related to Cimetidine:
– Antiandrogenic effects
– Increases prolactin secretion and inhibits degradation of estradiol by
liver
– Cytochrome P450 inhibition – theophylline, metronidazole, phenytoin,
imipramine etc.
– Antacids
• Others:
– Headache, dizziness, bowel upset, dry mouth
– Bolus IV – release histamine – bradycardia, arrhythmia, cardiac arrest
– Elderly ‐ precaution
Comparison of H2 antagonists
Bioavailability 80 50 40 >90
Relative Potency 1 5 -10 32 5 -10
Half life (hrs) 1.5 - 2.3 1.6 - 2.4 2.5 - 4 1.1 -1.6
Duration of 6 8 12 8
action (hrs)
Inhibition of 1 0.1 0 0
CYP 450
Dose mg (bd) 400 150 20 150
Ranitidine/Famotidine/Roxatidine/Tiznidine ?
H2 antagonists – contd.
• Answer :
Famotidine
• Explanation :
All H2 antagonist except famotidine inhibit
gastric first pass metabolism of ethanol and
increase its bioavailability
Proton Pump Inhibitors Omeprazole
• Most effective drugs in antiulcer therapy
• Prodrugs requiring activation in acid environment
• Block enzymes responsible for secreting HCl ‐ binds
irreversibly to H+K+ATPase
• Prototype: Omeprazole (Prilosec)
• Examples:
– Lansoprazole
– Pantoprazole
– Rabeprazole
– Esomeprazole
Omeprazole ‐ MOA
• Substituted Benzimidazole derivative
• Its a Prodrug
• Diffuses into G. canaliculi = accumulation
pH < 5 (proton catalyzed )= tetracyclic sulfenamide + sulphenic
acid
• Covalent binding with sulfhydryl cysteines of
H⁺K⁺ ATPase
• Irreversible inactivation of the pump molecule
(The charged forms cannot diffuse back across the canaliculi)
• Acid suppressants regardless of stimulating factors
• Also inhibits gastric mucosal carbonic anhydrase
Pharmacokinetics ‐ PPI
w Oral forms are prepared as acid resistant formulations that
release the drug in the intestine (because they are degraded
in acid media)
w After absorption, they are distributed by blood to parietal cell
canaliculi
w They irreversibly inactivate the proton pump molecule – but
half life is very short and only 1‐2 Hrs
w Still action persists for 24 Hrs to 48 hrs after a single dose –
irreversible inhibition of PPI and new PP synthesis takes time
(24 to 48 hour suppression of acid secretion, despite the
much shorter plasma half‐lives of the parent compounds)
w Platue state is attained after 4‐5 days of dosing
w Action lasts for 4‐5 days even after stoppage of the drug
Question
• Half life of proton pump inhibitors is 1.5 hours
only and these drugs are generally given once
daily. How this can be justified ?
• Answer :
– P.P.I ‐ Irreversible inhibitors of H+K+ATPase
(Hit and run drugs)
Pharmacokinetics ‐ PPI
w Given on an empty stomach because food affects absorption
w They should be given 30 minutes to 1 hour before food intake
because an acidic pH in the parietal cell acid canaliculi is
required for drug activation, and food stimulates acid
production
w Concomitant use of other antisecretory drugs ‐ H2 receptor
antagonists – reduces action
w Highly protein bound and rapidly Metabolized by the liver by
CYP2C19 and CYP3A4 – dose reduction necessary in severe
hepatic failure
w Excreted in Kidneys minimally (no dose reduction needed in
renal failure and elderly)
Adverse Effects
w The most common are GIT troubles in the form of
nausea, abdominal pain, constipation, flatulence,
and diarrhea
w Subacute myopathy, arthralgias, headaches, and skin
rashes
w Prolonged use:
w Gynaecomastia, erectile dysfunction
w Leucopenia and hepatic dysfunction
w Vitamin B12 deficiency
w Hypergastrinemia which may predispose to rebound hypersecretion
of gastric acid upon discontinuation of therapy and may promote the
growth of gastrointestinal tumors (carcinoid tumors )
PPI – contd.
• Drug Interaction:
– Inhibits metabolism of Warfarin, Diazepam
• Therapeutic uses:
1. Gastroesophageal reflux disease (GERD)
2. Peptic Ulcer ‐ Gastric and duodenal ulcers
3. Bleeding peptic Ulcer
4. Zollinger ellison Syndrome
5. Prevention of recurrence of nonsteroidal antiinflammatory drug
(NSAID) ‐ associated gastric ulcers in patients who continue NSAID
use.
6. Reducing the risk of duodenal ulcer recurrence associated with H.
pylori infections
7. Aspiration Pneumonia
PPI – Dosage schedule
• Omeprazole 20 mg o.d.
• Lansoprazole 30 mg o.d.
• Pantoprazole 40 mg o.d.
• Rabeprazole 20 mg o.d.
• Esomeprazole 20 ‐ 40 mg o.d.
Muscarinic antagonists
Atropine:
– Block the M1 class receptors
– Reduce acid production
– Abolish gastrointestinal spasm
Pirenzepine and Telenzepine
Mechanism of action:
• Reduce meal stimulated HCl secretion by reversible blockade of
muscarinic (M1) receptors on the cell bodies of the intramural
cholinergic ganglia
(receptors on parietal cells are M3).
• Unpopular as a first choice because of high incidence of
anticholinergic side effects (dry mouth and blurred vision)
Prostaglandin analogues
• Inhibit gastric acid secretion
• Exhibit ‘cytoprotective’ activity
• Enhance local production of mucus or bicarbonate
• Promote local cell regeneration
• Help to maintain mucosal blood
Prostaglandin analogues ‐
Misoprostol
y Actions:
y Inhibit histamine‐stimulated gastric acid secretion
y Stimulation of mucin and bicarbonate secretion
y Increase mucosal blood flow
(Reinforcing of mucous layer buffered by HCO3
secretion from epithelial cells)
y Therapeutic uses:
Prevent ion of NSAID‐induced mucosal injury
(rarely used because it needs frequent
administration – 4 times daily)
Misoprostol
• Doses: 200 mcg 4 times a day (Misoprost)
• ADRs:
– Diarrhoea and abdominal cramps
– Uterine bleeding
– Abortion
– Exacerbations of inflammatory bowel disease and
should be avoided in patients with this disorder
Contraindications:
1. Inflammatory bowel disease
2. Pregnancy (may cause abortion)
Question
A patient comes to your clinic at midnight
complaining of heart burn. You want to
relieve his pain immediately. What drug will
you choose?
Answer is
Antacids
• Explanation :
Antacids neutralize the already secreted
acid in the stomach. All other drugs act by
stopping acid secretion and so may not relieve
symptoms atleast for 45 min
Omeprazole
Amoxicillin
Clarithromycin
Metronidazole
Eradication of H.pylori
Triple Therapy
The BEST among all the Triple therapy regimen is:
Omeprazole / Lansoprazole - 20 / 30 mg bd
Clarithromycin - 500 mg bd
Amoxycillin / Metronidazole - 1gm / 500 mg bd
Explanation ;
H2 antagonists cross placenta and are also secreted
in breast milk. Safety of Proton pump inhibitors not
established in pregnancy. Misoprostol causes abortion
Additional
Drugs causing peptic ulcer:
• Non Steroidal Anti Inflammatory Drugs (NSAIDs)
• Glucocorticoids
• Cytotoxic agents
Stress induced ulceration after head trauma ‐
Cushing’s ulcer
Stress induced ulceration after severe burns ‐
Curling’s ulcer
H2 Receptor Antagonists
‐ in stomach at all stages decreases formation of HCl by
selective blocking of H2 receptors
‐ therapeutic effect after 4 weeks ‐ 60 ‐80% efficiency, after 8
weeks even 90%, 10‐15% resistance
Ranitidine, Famotidine /more effective/, Nizatidine: /1‐ 2x
daily/
‐ good pharmacokinetic /p.o. absorbtion, metabolism in
liver/ and safety profile, good tollerance
‐ long‐term maintenance therapy after uncomplicated peptic
ulcer healing and treatment of some forms of gastric
dyspepsias