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Factors Modifying Drug Action
- 1. ANSUMAN SAHU FACTORS MODIFYING DRUG ACTION
- 2. Variation in response to the same dose of a drug between different patients and even in the same patient on different occasions. The factors modify drug action either: (a) Quantitatively : The plasma concentration and/or the action of the drug is increased or decreased. Most of the factors introduce this type of change and can be dealt with by adjustment of drug dosage. (b) Qualitatively : The type of response is altered, e.g. drug allergy or idiosyncrasy. This is less common but often precludes further use of that drug
- 3. Factors modify Drug Action : 1. Body Size 2. Age 3. Sex 4. Species and Race 5. Genetic Factors 6. Route of Administration 7. Environmental Factors 8. Psychological Sate 9. Pathological Factors 10. Other Drugs 11. Cumulation 12. Tolerance
- 4. 1. Body size : It influences the concentration of the drug attained at the site of action. For calculation of dose according to body size Individualdose = BW (kg) x average adult dose 70 Individualdose = BSA (m2) x averageadult dose 1.7 The BSA of an individual can be calculated from Dubois formula: BSA (m2) = BW (kg)0.425 × Height (cm)0.725 × 0.007184
- 5. 2. Age : The dose of a drug for children is often calculated from the adult dose Young`s formula Child dose = Age X Adult Dose Age + 12 Dilling`s formula Child dose = Age X Adult Dose 20
- 6. 3. Sex : Females have smaller body size and require doses that are on the lower side of the range. Subjective effects of drugs may differ in females because of their mental makeup. Ex - Maintenance treatment of heart failure with digoxin is reported to be associated with higher mortality among women than among men. - A number of antihypertensives (clonidine, methyldopa, β-blockers, diuretics) interfere with sexual function in males but not in females. - Gynaecomastia is a side effect (of ketoconazole, metoclopramide, chlorpromazine, digitalis) that can occur only in men.
- 7. 4. Species and race : There are many examples of differences in responsiveness to drugs among different species; rabbits are resistant to atropine, rats and mice are resistant to digitalis and rat is more sensitive to curare than cat. - Among human beings some racial differences have been observed, e.g. blacks require higher and mongols require lower concentrations of atropine - ephedrine to dilate their pupil. - β-blockers are less effective as antihypertensive in Afro- Caribbeans. - Indians tolerate thiacetazone better than whites.
- 8. 5. Genetics : The dose of a drug to produce the same effect may vary by 4–6 times among different individuals due to variation in transporters, metabolizing enzymes, ion channels, receptors with their couplers and effectors present in individual which are controlled genetically. Ex - G-6-PD deficiency is responsible for haemolysis with primaquine and other oxidizing drugs like sulfonamides, dapsone, quinine, nalidixic acid, nitrofurantoin and menadione, etc. - Severe 5-fluorouracil toxicity occurs in patients with dihydropyrimidine dehydrogenase (DPD) deficiency. - Malignant hyperthermia after halothane is due to abnormal Ca2+ release channel
- 9. 6. Route of administration : Route of administration governs the speed and intensity of drug response. - Parenteral administration is often resorted to for more rapid, more pronounced and more predictable drug action. - A drug may have entirely different uses through different routes, e.g. magnesium sulfate given orally causes purgation, applied on sprained joints— decreases swelling, while intravenously it produces CNS depression and hypotension.
- 10. 7. Environmental factors and time of administration : Several environmental factors affect drug responses. Exposure to insecticides, carcinogens, tobacco smoke and consumption of charcoal broiled meat are well known to induce drug metabolism. - Type of diet and temporal relation between drug ingestion and meals can alter drug absorption, e.g. food interferes with absorption of ampicillin, but a fatty meal enhances absorption of griseofulvin. - Hypnotics taken at night and in quiet, familiar surroundings may work more easily.
- 11. 8. Psychological factor : Efficacy of a drug can be affected by patient’s beliefs, attitudes and expectations. This is particularly applicable to centrally acting drugs, e.g. a nervous and anxious patient requires more general anaesthetic; Placebo : This is an inert substance which is given in the place of a medicine. It works by psychological rather than pharmacological means and often produces responses equivalent to the active drug. - Placebos are used in two situations: 1. As a control device in clinical trial of drugs (dummy medication). 2. To treat a patient who, in the opinion of the physician, does not require an active drug.
- 12. 9. Pathological states : Not only drugs modify disease processes, several diseases can influence drug disposition and drug action: Ex – Gastrointestinal diseases : These can alter absorption of orally administered drugs. e.g. in coeliac disease absorption of amoxicillin is decreased but that of cephalexin and cotrimoxazole is increased. Liver disease : Liver disease (especially cirrhosis) can influence drug disposition in several ways: (i) Bioavailability of drugs having high first pass metabolism is increased due to loss of hepatocellular function. (ii) Serum albumin is reduced—protein binding of acidic drugs (diclofenac, warfarin, etc.) is reduced and more drug is present in the free form.
- 13. Kidney Disease : - Tetracyclines have an anti-anabolic effect and accentuate uraemia. • NSAIDs cause more fluid retention. • Potentially nephrotoxic drugs, e.g. cephalothin, aminoglycosides, tetracyclines (except doxycycline), sulfonamides (crystalluria), vancomycin, cyclosporine, amphotericin B should be avoided. Other examples of modification of drug response by pathological states are: • Antipyretics lower body temperature only when it is raised (fever). • Thiazides induce more marked diuresis in edematous patients. • Myocardial infarction patients are more prone to
- 14. 10. Other drugs : Drugs can modify the response to each other by pharmacokinetic or pharmacodynamic interaction between them. Some drugs may increase the function of other ( Synergism) or decrease the function of other drug ( Antagonism ) if given simultaneously. Ex - Paracetamol & Diclofenac can increase their action if given simultanously. - Antacids and alkylating agents can neutralises their function. - Antacids not functioning if given with calcium.
- 15. 11. Cumulation : Any drug will cumulate in the body if rate of administration is more than the rate of elimination. However, slowly eliminated drugs are particularly liable to cause cumulative toxicity, e.g. prolonged use of chloroquine causes retinal damage. • Full loading dose of digoxin should not be given if patient has received it within the past week.
- 16. 12. Tolerance : It refers to the requirement of higher dose of a drug to produce a given response. Tolerance develops to sedative action of chlorpromazine but not to its antipsychotic action. • Tolerance occurs to the sedative action of phenobarbitone but not as much to its antiepileptic action. • Tolerance occurs to analgesic and euphoric action of morphine, but not as much to its constipating and miotic actions.
- 17. Tachyphylaxis (Tachy-fast, phylaxis-protection) is rapid development of tolerance when doses of a drug repeated in quick succession result in marked reduction in response. This is usually seen with indirectly acting drugs, such as ephedrine, tyramine, nicotine. Drug resistance : It refers to tolerance of microorganisms to inhibitory action of antimicrobials, e.g. Staphylococci to penicillin
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