Adverse Drug Reactions (ADRs) Lecture 13 - PDF

Summary

This lecture covers adverse drug reactions (ADRs). It includes definitions, classifications (like Type A and Type B), and case studies related to different types of reactions. The document also examines factors influencing ADRs and how to minimize them.

Full Transcript

Adverse drug reactions (ADRs) of
different medications
Lecture 13

1446 H Psychopharmacology (CPY 490)
Definitions
Adverse drug reaction (ADR)-Unwanted or harmful reaction following
administration of a medication or a combination of medications, and
suspected to be related to the drug.

Pharmacovigilance-Science and activities related to detection,
assessment and understanding and prevention of ADRs.

Adverse drug event-Unwanted medical occurrence that may present
during treatment with a medicine, but not necessarily have a causal
relationship with medicine.
Terms
Toxic effect >> limited to adverse effects at high dosage, ususlay in
form of exaggeration of therapeutic desired effects.

Side effect >> may be dose related or not, but includes both desirable
and undesirable effects of different mechanism from primary
pharmacological action.

Adverse reaction or adverse effect >> precise, all unwanted effects,
regardless of their mechanism or dosage.
Importance of ADRs
Reduced adherence
Reduced drug efficacy (prevent usage of fully effective dosage)
Reduced quality of life
Increased morbidity and mortality
Reduced drug choice
Diagnostic confusion
Reduced patient confidence
Factors influence ADRs
Drug factors-non-selective, narrow therapeutic window, teratogenic,..

Patient factors- age, sex, genetics,...

Clinical factors- duration of treatment, dose (up- and down-titration
of dose), drug interaction, drug choice such as in pregnancy,
comorbidity.
Classification of ADRs
Type A (Augmented) reactions
Type B (Bizarre) reactions
Type C (Chronic) reactions
Type D (Delayed) effects
Type E (End of treatment) effects
Type F (Failure of therapy) effects
Type A (Augmented) reactions
Related to a pharmacological action of the drug
Common ADRs (high incidence)
Usually not severe (low mortality)
Predictable
Dose dependent (can be alleviated by dose reduction)
Examples: sedation with barbiturates, bleeding with anticoagulants >>
primary mechanism of action.
Bronchoconstriction with propranolol (non-cardio-selective beta blocker),
sedation with diphenhydramine (non-selective antihistamine, blocks H1-
receptor) >> other sites of action.
May be beneficial side effects in some cases >> weight loss.
Sildenafil (Viagra®)
First oral treatment for erectile (sexual)
dysfunction.

Discovered based on side effects.
"Originally, we were testing sildenafil, the
active drug in Viagra, as a cardiovascular
drug and for its ability to lower blood
pressure''. "But one thing that was found
during those trials is that people didn't
want to give the medication back because
of the side effect of having erections that
were harder, firmer and lasted longer.'’ >>
Pfizer.
Type B (Bizarre) reactions
Not related to pharmacological reaction, related to patient’s susceptibility
(such as genetic)
Rare
May be very severe / fatal (high mortality)
Unpredictable, not dose related
Often well recognised ADRs but new drugs ADRs not well recognised (post-
marketing surveillance)
Idiosyncratic reactions >> Stevens-Johnson syndrome following lamotrigine
or carbamazepine.
Immunological reactions >> anaphylaxis with penicillin.
Immediately stop medication, avoid medication with similar profile.
Allergic reactions
Mild erythema, 90% (rash) >> >> anaphylaxis, 0.05%
Penicillin, sulfonamide.

Maculopapular rash with some antiepileptic drugs, 5-17%
(lamotrigine, carbamazepine, phenobarbital, phenytoin).
Skin rash

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Stevens-Johnson syndrome
Type C (Chronic treatment effects)
Related to prolonged treatment duration and cumulative dosage.
Common
Examples: dyskinesia with levodopa, weight gain and osteoporosis
with steroids
Type D (Delayed effects)
Irreversible
Examples: teratogenic (thalidomide) or carcinogenic (azathioprine)
Thalidomide
1958- thalidomide marketed for morning
sickness in pregnancy.
At least 8000 children (like this baby) in 46
countries were born without arms, legs,
ears, partially sighted or completely blind.
Many others died at birth.
This led to develop drug regulatory
authorities.
Type E (End of treatment effects)
Withdrawal syndrome especially when treatment is stopped abruptly.
Examples: headache, anxiety, dizziness sleep disturbances, gastro-
intestinal disturbances after stopping paroxetine. Benzodiazepine
withdrawal syndrome, adrenocortical insufficiency after steroid
treatment.
Type F (Failure of therapy)
Unexpected failure of therapy due to drug interaction
Pharmacokinetic or pharmacodynamic drug –drug interactions.
Examples: enzyme inducer drugs decrease warfarin effect.
High Risk Patient Groups
Elderly
Neonates
Renal or Hepatic impairment
Polypharmacy
Multiple Disease States
Asian Origin
Female
Atopic
Types of ADRs
Mild: A reaction that does not required treatment or hospital stay.
Moderate: A reaction that requires treatment and or prolongs
hospitalization by at least one day.
Severe: A reaction that is potentially life threatening or contributes to
the death of patient is permanently disabling requires intensive
medical care or results in a cancer.
Frequency of ADRs

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Assessing causality
Nature of the reaction
Timing
Relationship to dose
Other possible causes for the symptoms
Improvement when drug(s) stopped
Has reaction been reported before
ADRs are avoidable
Up to 70% are preventable
Incorrect dosing or administration
Obvious interactions
Use of contra-indicated drug
Use in an inappropriate clinical indication
How to Minimise ADRs
Avoid unnecessary drug use
Check Drug History before prescribing
Identify patients with co-existing disease
Avoid drug interactions with drugs and foods
Patient counselling
Identify drugs known to produce dose-related side effects
Case study
A 67 year old woman with an extensive rash is referred urgently to hospital. The rash started on
the backs of her hands and spread very quickly to the arms, trunk, neck, and face. The lesions
consist of concentric rings with frank blistering in some areas. Lesions have also started to appear
on her lips and inside her mouth.
Her medications include: ramipril 10mg once daily, simvastatin 40mg at night, aspirin 75mg once
daily, metformin 1g twice daily, gliclazide 40mg each morning. She was started on aspirin 5 years
ago following a stroke. At about the same time, she was diagnosed with type 2 diabetes and has
been taking metformin, ramipril, and simvastatin for over 4 years. She was prescribed gliclazide
during her annual diabetes review 2 months ago. The patient denies taking any over-the-counter
medicines or herbal remedies. She has not made any significant changes to her diet and there is
no history of recent infection.
On admission:
Blood pressure = 127/75 mmHg
Body Mass Index = 26kg/m2
HbA1c = 8.0% (64mmol/mol)
Her U + Es, renal and liver function are normal.
Case study
Which drug is most likely to be causing erythema multiforme?
Case study
Which drug is most likely to be causing erythema multiforme?
According to the side-effects under the prescribing notes for
sulphonylureas (BNF), hypersensitivity reactions can occur, usually in
the first 6–8 weeks of therapy. They consist mainly of allergic skin
reactions which progress rarely to erythema multiforme. The
monograph for ramipril, also includes erythema multiforme as a side-
effect. The time at which erythema mutiforme occurred in this
patient is closely related to the time from when gliclazide was started
and characteristic of hypersensitivity reactions with sulphonylureas.
Case study
Type of reaction, erythema multiforme, (A, B, …)
Case study
How should this adverse drug reaction (ADR) be managed?
Case study
How should this adverse drug reaction (ADR) be managed?
This patient has suffered a major manifestation of erythema
multiforme accompanied by mucosal involvement after starting
gliclazide. Gliclazide should be stopped and the reaction should be
clearly documented in the patient’s medical record and allergy history
to prevent recurrence. If the reaction does not subside after stopping
gliclazide, other causes for the reaction should be considered.
Treatment to ameliorate the symptoms of erythema multiforme can
be provided as necessary.
Case study
The patient’s gliclazide therapy is stopped and the erythema mutiforme resolves.
She is started on sitagliptin 100mg once daily.
She is readmitted 3 weeks later with nausea, vomiting, and severe, persistent
abdominal pain which radiates to the back. Symptoms started 6 hours ago.
Serum amylase = 610iu/litre (0–140)Serum lipase = 530iu/litre (0–160)Urea =
7.4mmol/litre (2.5–6.5)Calcium = 2.4mmol/litre (2.2–2.6)Blood glucose =
11mmol/litre (3.5–10)White blood cell count = 12 x 109/litre (4–11 x 109)Bilirubin
= 10micromol/litre (5–17)Serum aspartate aminotransferase = 45iu/litre (0–
35)eGFR = 105mL/minute/1.73m2Blood pressure = 120/70mmHg
X-ray of the abdomen shows no evidence of gallstones or pancreatic calcification.
Abdominal ultrasound shows no evidence of pancreatic necrosis or dilatation of
intrahepatic ducts. A diagnosis of acute pancreatitis is made but causality is not
known. The patient is nil by mouth and placed on supportive therapy including
parenteral analgesia, intravenous fluids, and intravenous insulin.
Case study
Which drug is most likely to be causing acute pancreatitis?
Case study
Which drug is most likely to be causing acute pancreatitis?
According to the prescribing notes for statins, pancreatitis can occur
very rarely. ACE inhibitors can also cause pancreatitis. The monograph
for sitagliptin, includes pancreatitis as a side-effect that is also
reported (BNF). This episode of pancreatitis seems to have coincided
with initiation of treatment with sitagliptin.
Case study
How frequently has pancreatitis been reported with sitagliptin?
The frequency of pancreatitis with sitagliptin is not known.
Pancreatitis was identified as a side-effect with sitagliptin from
spontaneous reports received post-marketing. It is not possible to
calculate the frequency of side-effects from spontaneous reporting
rates alone as neither the number of patients using the drug nor the
extent of under-reporting is known.

The ADR should be reported to National Pharmacovigilance Center
(NPC) in Saudi Arabia and BNF (British National Formulary).
Case study
Type of reaction acute pancreatitis?
Questions

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Thank you

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