Adverse Drug Reactions PDF

Summary

This document presents a lecture on adverse drug reactions (ADRs). It covers the definitions, classifications, causes, and examples of ADRs. The material explores patient- and drug-related factors influencing ADRs.

Full Transcript

ADVERSE DRUG REACTIONS
Prof. Kamal Matar
Pharmacology
1140-113
Learning Objectives of ADRs

By end of this lecture, you should be able to:

 define and classify adverse drug reactions

 assess the characteristics of each type of adverse drug reaction

 describe examples of adverse drug reactions

 appraise the stages of drug evaluation pre- and post-marketing.
Adverse Drug Reaction vs. Side Effect: How Are They Differ?

Adverse drug reactions (ADRs) and side effects are
both unintended responses to a medication. But ADRs
are harmful and more unexpected than side effects.
Side effects are more predictable than ADRs. Plus,
side effects can be beneficial or harmful.
Common causes of ADRS
Failing to take the correct dosage at the correct times.
Overdosing.
Allergies to chemical components of the medicine.
Combining medicine with alcohol.
Taking other drugs or preparations that interact with the medicine.
Taking a medicine that was prescribed for someone else.
Factors affecting ADRs
1/ Patient-related factors:
Age
Sex
Genetic influences
Concurrent diseases (renal, liver, cardiac)
Previous ADRs
Compliance with the dosing regimen
Total number of medications
Miscellaneous (diet, smoking, environmental exposure)
Age:
Children are often at risk because their capacity to metabolize drugs
is usually not fully developed.
Children may be at risk of developing Reye’s syndrome (Rare but
serious condition causes confusion, swelling of brain, liver damage) if
given aspirin while infected with chickenpox or influenza.
Elderly:
ADRs, including drug interactions, are a common cause of admission
to hospitals in the elderly.
Reasons for ADRs in the elderly:
Concomitant use of several medications
Decreased drug ADME activity due to age
Pregnancy:
Sulfonamides Jaundice and brain damage in the fetus.
Warfarin Birth defects, & risk of bleeding problems in
newborns & mothers.
Lithium Defects of the heart (Ebstein’s Anomaly), lethargy,
reduced muscle tone, & underactivity of the thyroid
gland.
Factors affecting ADRs (Cond.)
2/ Drug-related factors:
Dose
Duration
Inherent toxicity of the agent
PD properties
PK properties
FDA defines ADR as which:
Results in death
Life-threatening
Requires hospitalization
Causes disability
Causes congenital anomalies
Requires intervention to prevent permanent injury
What is an ADR?
ADR is a response to a medicinal product which is noxious &
unintended.
ADR is suspected to be due to a drug, occurs at doses normally used
in man, requires ttt or decrease in dose or indicates caution for in
future use of the same drug.
Some Serious Adverse Drug Reactions
Adverse Drug Reaction Types of Drugs Examples
Certain antibiotics Chloramphenicol
Anemia (resulting from decreased
Drugs used to treat malaria or Chloroquine
production or increased destruction of
red blood cells) tuberculosis in people with G6PD Isoniazid
enzyme deficiency Primaquine

Angioedema (swelling of the lips, Captopril
tongue, and throat causing difficulty in ACE inhibitors Enalapril
breathing) Lisinopril
Esomeprazole
Bone fractures Proton pump inhibitors Lansoprazole
Omeprazole

Birth control drugs (all forms Drospirenone/ethinyl estradiol
Blood clots
including patches and pills) Norelgestromin/ethinyl estradiol

Sedatives, including many
Confusion and drowsiness Diphenhydramine
antihistamines
Metronidazole with Mebendazole (Vermox) adverse rxs
Stevens-Johnson Syndrome (SJS) & Toxic
epidermal necrolysis.
Classifications of ADRs:
Type A (Augmented)
Type B (Bizarre)
Type C (Chemical)
Type D (Delayed)
Type E (Exit/End of ttt)
Type F (Familial)
Type A (Augmented)
Features:
Type A reactions result from an exaggeration of a drug’s normal pharmacological
actions when given at the usual therapeutic dose.
Type A reactions are normally dose-dependent.
Predictable.
Low mortality
Examples:
Respiratory depression with Opioids
Bleeding with Warfarin
Dry mouth with Tricyclic Antidepressants
Bradycardia with beta blockers
Headache with nitrates.
Management:
Reduce dose or withhold drug
Consider effects of concomitant therapy
Type B (Bizarre); (Non-Dose Related)

Features:
Less common
Not related to the pharmacological action of the drug
Unpredictable.
High mortality
Examples:
Immunological reactions: Anaphylaxis with penicillin
Idiosyncratic reactions: malignant hyperthermia with general anesthetics
Skin rashes with Antibiotics
Management:
Withhold & avoid in the future
Type C (Chemical); (Dose related & Time related)

Features
Uncommon
Persists for a relatively long time
Related to the cumulative dose

Examples Osteoporosis of jaw
with bisphosphonates
Nephrotoxicity by NSAIDs
Hepatotoxicity by paracetamol
Hypothalamic-pituitary-adrenal axis suppression by corticosteroids.
Osteonecrosis of the jaw with bisphosphonates
Management
Reduce dose or use an alternate day therapy
Withdrawal may have to be prolonged
Type D (Delayed); (Time Related)
Features
Uncommon
Usually dose-related
Occurs or becomes apparent sometime after use of the drug

Examples
Carcinogenesis
Teratogenesis
Tardive dyskinesia
Leucopenia with lomustine (after 6 weeks on medication)

Management Tardive dyskinesia
Often intractable
Type E (Exit/End of ttt)

Features
Uncommon
Occurs soon after the withdrawal of the medicine

Examples
Withdrawal syndrome with opiates or
Benzodiazepines (e.g., insomnia, anxiety)

Management
Reintroduce drug and withdraw slowly
Type F (Failure): (Unexpected Failure of Therapy)

Features
Common
Dose related
Often caused by drug interactions

Examples
Inadequate dosage of an oral contraceptive when used with an enzyme inducer.
Resistance to antimicrobial agents

Management
Increase dosage
Consider effects of concomitant therapy
Classification of ADRs…. Depending on
Severity
Minor ADRs: No therapy, antidote or prolongation of hospitalization
is required.
Moderate ADRs: Requires change in drug therapy, specific treatment
or prolongs hospital stay by at least 1 day.
Severe ADRs: Potentially life-threatening, causes permanent damage
or requires intensive medical treatment.
Lethal: Directly or indirectly contributes to death of the patient.
ADEs may be categorized into:
 Side effects
 Secondary effects
 Toxic effects
 Intolerance
 Idiosyncrasy
 Drug allergy
 Photosensitivity
 Drug dependence
 Drug withdrawal reactions
 Teratogenicity
 Mutagenicity and Carcinogenicity
 Drug-induced diseases (Iatrogenic disorders or Iatrogenicity)
 SIDE EFFECTS

Unwanted often unavoidable PD effects.
Occur at therapeutic doses.
Predictable

Examples
Benzodiazepines Drowsiness, dizziness, confusion
H1 Anti-histaminics Sedation

An effect may be therapeutic in one context but side effect in another context

 e.g., Constipation by codeine is a side effect but can be used as therapeutic
effect in patients with diarrhea.
 SECONDARY EFFECTS

Indirect consequences of a primary action of the drug.

Examples:
Corticosteroids weaken host defence:
Activation of latent tuberculosis.

Tetracyclines Bacterial flora Superinfection.
 TOXIC EFFECTS

Over-dose or prolonged use.
The effects are predictable and dose-related.

Examples:
High dose heparin Bleeding.
High dose of paracetamol Hepatic necrosis.
Prolonged use of gentamicin Ototoxicity, nephrotoxicity.
 INTOLERANCE

It is the appearance of characteristic toxic effects of a drug
in an individual at therapeutic doses.
It indicates a low threshold of the individual to the action
of a drug.
Sensitivity to low doses.
Examples
carbamazepine (few doses) cause ataxia in some
individuals.
Chloroquine (single tablet) Vomiting & abdominal
pain in some individuals.

Un-Predictable
 IDIOSYNCRASY
It is genetically determined abnormal reactivity to a chemical.
The drug interacts with some unique feature of the individual,
not found in majority of subjects, and produces the
uncharacteristic reaction.

Examples
Chloramphenicol Aplastic anaemia (non-dose-related) in
rare patients.
Barbiturates Excitement and mental confusion in some
patients.

Un-Predictable
 DRUG ALLERGY

It is also called drug hypersensitivity.

It is an immunologically mediated allergic reaction producing
stereotype symptoms which are unrelated to the PD profile of
the drug.

It generally occurs even with much smaller doses and has a
different time course of onset and duration.

Un-Predictable
 Allergic reactions occur only in a small proportion of the
population exposed to the drug.
History of prior sensitization may or may not be evident.
The drug or its metabolite acts as antigen (AG) or more
commonly hapten (incomplete antigen) and induces production
of antibody (AB)/sensitized lymphocytes.
 TYPES OF ALLERGIC REACTIONS
A) HUMORAL
1. Type I/ Anaphylactic reactions. It is due to IgE antibodies, min:
2 -3 h.
Examples: urticaria, angioedema, anaphylactic shock (Penicillins).
2. Type-II / Cytolytic reactions. (IgG, IgM). It is due to antigen
antibody complex, within 72 h.
Examples: Hemolytic anemia (Methyldopa), SLE.
3. Type-Ill / Retarded or Arthus reactions. (IgG, IgM). Immune
complex mediated rxs, 72 h 1 – 2 weeks.
Examples: Serum sickness (fever, arthralgia, lymphadenopathy),
Steven Johnson syndrome, procainamide induces SLE.
 TYPES OF ALLERGIC REACTIONS (Cond.)

B) CELL MEDIATED:
Type-IV (delayed hypersensitivity) reactions. (T cell).
Examples: Contact dermatitis by topically applied drugs.
 PHOTOSENSITIVITY
It is a cutaneous reaction resulting from drug-induced
sensitization of the skin to UV radiation.
The reactions are of two types:
a) Phototoxicity:
1. Drug or its metabolite Accumulates in the skin,
2. absorbs light and undergoes a Photochemical reaction followed by
3. Photobiological reaction resulting in:
4. Tissue damage (sunburn-like):
i.e. erythema, edema, blistering , hyperpigmentation, desquamation.

The shorter wavelengths (290-320 nm, UVB) are responsible.
More common: e.g., Tetracyclines (esp. Demeclocycline), Nalidixic acid,
Fluoroquinolones.
(b) Photoallergicity:

Drug or its metabolite induces a cell mediated immune
response which on exposure to Light of longer wavelengths
(320 - 400 nm) produces a papular or eczematous contact
dermatitis.
Less common e.g.,
Drugs involved are sulfonamides, sulfonylureas, griseofulvin,
chloroquine, chlorpromazine.
 DRUG DEPENDENCE

1. Psychological dependence: Individuals believe that
optimal state of well being is achieved only through the
actions of the drug.
Examples: Opioids, cocaine

2. Physical dependence: It is an altered physiological state
produced by repeated administration of a drug which
necessitates the continued presence of the drug to
maintain physiological equilibrium.
Discontinuation of the drug results in a characteristic withdrawal
(abstinence) syndrome.
Drugs producing physical dependence are: opioids, barbiturates,
alcohol and benzodiazepines.
 DRUG DEPENDENCE (Cond.)

Drug abuse :
Refers to use of a drug by self medication in a manner and
amount that deviates from the approved medical and social
patterns in a given culture at a given time.

Drug addiction:
It is a pattern of compulsive drug use characterized by
overwhelming involvement with the use of a drug. Procuring
the drug and using it takes precedence over other activities
 DRUG DEPENDENCE (Cond.)

Drug habituation (Psychological dependence)
It denotes less intensive involvement with the drug, so that
its withdrawal produces only mild discomfort.
Consumption of tea, coffee, tobacco, social drinking are
regarded habituating, physical dependence is absent.
 DRUG WITHDRAWAL REACTIONS

Sudden interruption of therapy with certain drugs results in
adverse consequences, mostly in the form of worsening of
the clinical condition for which the drug was being used

Examples:
Corticosteroids in asthma precipitates acute attacks,
myalgia, depression.
ß-blockers worsening of angina, precipitates myocardial
infarction.
Opiates Insomnia, irritability, depression, anxiety,
hallucinations.
 TERATOGENICITY
Capacity of a drug to cause fetal abnormalities when
administered to the pregnant mother.
Drugs can affect the fetus at 3 stages:
(i) Fertilization and implantation (conception to
17 days): failure of pregnancy which often goes unnoticed.
(ii) Organogenesis (18 to 55 days of gestation): most vulnerable
period, deformities are produced.
(iii) Growth and development (> 56 days):
developmental and functional abnormalities can occur.
Examples:
ACE inhibitors , Thalidomide (Phocomelia), Warfarin,
Barbiturates.
 MUTAGENICITY AND CARCINOGENICITY

Capacity of a drug to cause genetic defects and cancer,
respectively.
Reactive intermediates which affect genes and may cause
structural changes in the chromosomes
Even without interacting directly with DNA, certain
chemicals can promote malignant change in genetically
damaged cells, resulting in carcinogenesis.
Chemical carcinogenesis generally takes several (10 – 40) years
to develop.

Examples: anticancer drugs, radioisotopes, estrogens, tobacco.
 DRUG INDUCED DISEASES

These are also called iatrogenic (physician induced)
diseases.
They are functional disturbances (disease) caused by
drugs which persist even after the offending drug has
been withdrawn and largely eliminated.
Examples:
Isoniazid Hepatitis.
Salicylates, corticosteroids Peptic ulcer.
Chloroquine Retinal damage.
PREVENTION OF ADVERSE EFFECTS TO DRUGS

Avoid inappropriate use of drugs.
Appropriate drug administration (Rational Therapeutics)
Dose
Dosage form
Duration
Route
Frequency
Technique
Ask for previous history of drug reactions and allergies
Always suspect ADR when new symptom arises after
initiation of treatment. ( No new drug for new symptom).
Ask for laboratory findings such as serum creatinine etc.