A drug may be defined as a chemical substance, or combination of substances, administered for the investigation, prevention or treatment of diseases or symptoms, real or imagined. The distinction between drugs and 'other chemicals' is not always easily
Chemicals of very diverse structure are increasingly added to foods and beverages as dyes, flavours or preservatives.
Chemicals used in agriculture or in veterinary medicine may contaminate human
Advent of therapeutic agents that may be useful for improving the appearance, e.g minoxidil for androgenetic alopecia and tretinoin for photo-aged skin,
the distinction between drugs and cosmetics has become blurred
An adverse drug reaction - defined as an undesirable clinical manifestation resulting from administration of a particular drug at doses normally used for prophylaxix,diagnosis & threapy of diseases –WHO 1972
this includes reactions due to overdose, predictable side-effects and unanticipated adverse manifestations.
Adverse drug reactions are the inevitable price we pay for the benefits of modern drug therapy.
They are costly both in terms of - the human illness caused in economic terms, can undermine doctor-patient relationship.
Adverse drug reactions contribute to the need for hospitalization in 10-17% of elderly inpatients
Inappropriate medication is a major cause of adverse drug reactions in elderly patients;
27% of elderly patients on medication admitted to a teaching hospital experienced adverse drug reactions,
Adverse drug reactions occur in between 6 and 17% of children admitted to specialist paediatric hospitals
The incidence of adverse drug reactions varies from 6 to 30%, with at least 90 million courses of drug treatment given yearly
The reported percentage of patients who develop an adverse drug reaction during hospitalization varies markedly from 1.5 to 44%,
Although in most studies the incidence is about 10-20%
It has been estimated that about one in 40 consultations in general practice is the result of adverse drug reactions.
the percentage of consultations involving an adverse drug reaction increased from 0.6% for patients aged 0-20 years to 2.7% for patients aged over 50 years
The elderly persons have a significantly higher incidence of adverse drug reactions, related to decreased organ reserve capacity
Altered pharmacokinetics and pharmacodynamics,
polypharmacy
Non-immunological Predictable Overdosage Side-effects Cumulation Delayed toxicity Facultative effects Drug interactions Metabolic alterations Teratogenicity Non-immunological activation of effectors pathways Exacerbation of disease Drug-induced chromosomal damage Unpredictable Intolerance Idiosyncrasy
IgE-dependent drug reactions Immune complex-dependent drug reactions Cytotoxic drug-induced Cell-mediated reactions Miscellaneous Jarisch-Herxheimer reactions Infectious mononucleosis-ampicillin
reaction
IgE-dependent (type I) drug reactions: urticaria and anaphylaxis Antibody-mediated (type II) drug reactions Immune complex-dependent (type III) Vasculitis The Arthus reaction Cell-mediated reactions (type IV reactions) Erythema multiforme Stevens-Johnson syndrome“ Toxic epidermal necrolysis“ "Lichenoid drug eruptions Lupus erythematosus (LE)-like syndrome induced by
drugs Drug-induced pemphigus &Pemhigoid Fixed drug eruptions
Ampicillin and penicillin Cephalosporins Phenylbutazone and other pyrazolones Barbiturates Sulphonamides Thiazides Phenytoin Naproxen Carbamazepine Isoniazid Gold Phenothiazines Gentamicin
Drugs causing are Animal sera Dextrans Antibiotics Angiotensin converting enzyme inhibitors Vasopressin Radiographic contrast media Non-steroidal anti-inflammatory drugs opiates, codeine, amphetamine, polymyxin B,
tubocurarine, atropine, hydralazine, pentamidine, quinine and radiocontrast media - may release mast-cell mediators directly.
Cyclo-oxygenase inhibitors, such as aspirin and indomethacin,
Amiodarone Ampicillin Phenothiazines Antidepressants Chlorpromazine
Tetracyclines Griseofulvin Demeclocyclin
Drugs causing lichenoid eruptions. Antitubercular drugs Ethambutol Antimalarials Mepacrine (quinacrine, atebrin) Frusemide, diazoxide, tetracyclines,
Anti-epileptic drugs (phenytoin, barbiturates, carbamazepine and lamotrigine
Ampicillin and other lactam antibiotics Sulphonamides (sulphadiazine, trimethoprim-
sulphamethoxazole, sulphadoxine), phenobarbital, chlormezanone
Antimalarials Lithium salts Non-steroidal anti-inflammatory drugs Buprofen Indomethacin Meclofenamate sodium Pyrazolon derivatives (phenylbutazone,
oxyphenbutazone)
Lesions are papulopustular but comedones are usually absent.
Adrenocorticotrophic hormone (ACTH), corticosteroids
Dexamethasone in neurosurgical patients, Anabolic steroids for bodybuilding Isoniazid may induce acne Danazol
Fixed eruptions characteristically recur in the same site or sites each time the drug is administered
Cross-sensitivity to related drugs may occur, such as between phenylbutazone and oxyphenbutazone and between tetracycline type drugs.
Acute lesions usually develop 30 min to 8h after drug administration
sharply marginated, round or oval itchy plaques of erythema and oedema becoming dusky violaceous or brown, and sometimes vesicular or bullous
Lesions are solitary at first, but with repeated attacks new lesions usually appear and existing lesions may increase in size.
Bullous fixed drug eruption Co-trimoxazole (trimethoprim-sulphamethoxazole), Tetracycline Ampicilline
Hair changes Drug-induced alopecia Drug-induced hypertrichosis Drug-induced hair discoloration Nail changes Onycholysis Oral conditions Xerostomia
Diagnosis Drug history Drug elimination Skin testing Patch testing In vitro tests Tests for IgE antibody - RAST
Challenge tests Treatment Anaphylaxis Exfoliative
dermatitis/erythroderma