Материал: MasterPass _ Pharmacology in 7 Days for Medical Students
THERAPEUTIC USES AND SIDE EFFECTS
‘CHIC to use thiazides’: CHF
Hypertension Insipidus Calcium calculi
Thiazide diuretics: side effects
1Due to abnormalities of fluid and electrolyte balance: a ECF volume depletion (→ hypotension).
b Hyponatremia. c Hypochloremia. d Hypokalemia.
e Hypomagnesemia.
f Hypophosphatemia.
g Hypercalcemia (thiazide diuretics → all ‘hypos’ except hypercalcemia!). h Decreased plasma level of halides.
2Metabolic effects:
a Metabolic alkalosis. b Hyperglycemia.
c Hyperuricemia.
dHyperlipidemia.
3 Miscellaneous:
a CNS: Drowsiness.
b GIT: NVD, constipation, acute pancreatitis and acute cholecystitis. c Allergic reactions: Photosensitivity and skin rashes.
dHaematological reactions: Thrombocytopenia, neutropenia and haemolytic anaemia.
e Sexual dysfunctions.
Loop diuretics: therapeutic uses
1 Oedema due to:
a Cardiac cause (CCF)
b Hepatic cause (cirrhosis)
c Renal cause (CRF, nephrotic syndrome, AGN).
2HTN (primary, secondary, pre-eclampsia, i.e. pregnancy-induced hypertension). Because of long duration of action, thiazide diuretics are the drugs of first choice in cases of HTN. If, however, response to thiazide diuretics is not adequate, loop diuretics can be used. Note: Short duration of action of loop diuretics is a disadvantage in this condition.
3Ascites (collection of free fluid in the peritoneal cavity).
4Hypercalcemia (e.g. secondary to malignancy). It is a potentially life-threatening condition. A combination of loop diuretics and intravenous fluids is required to correct this condition. Loop diuretics alone (without intravenous fluids) will cause haemoconcentration and may actually worsen hypercalcemia.
5Hyperkalemia.
6Anion poisoning (bromide, fluoride, iodide).
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PHARMACOLOGY IN 7 DAYS FOR MEDICAL STUDENTS
Loop diuretics: side effects
1Due to abnormalities of fluid and electrolyte balance: a ECF volume depletion (→ hypotension).
b Hyponatremia. c Hypochloremia. d Hypokalemia.
e Hypomagnesemia.
f Hypophosphatemia.
g Hypocalcemia (thiazide diuretics → hypercalcemia). h Decreased plasma level of halides.
2Metabolic effects:
a Metabolic alkalosis. b Hyperglycemia.
c Hyperuricemia.
dHyperlipidemia.
3 Miscellaneous:
a Ototoxicity: vertigo, dizziness, deafness, and changes in endolymph of ears. b Nephrotoxicity.
c Hepatotoxicity.
dGynecomastia.
eAllergic reactions (related to sulfonamide moiety): Photosensitivity, skin rashes and interstitial nephritis.
K+-sparing diuretics: therapeutic uses
1Primary and secondary aldosteronism.
2In order to prevent thiazide/loop diuretics-induced hypokalemia, K+-sparing diuretics are used concomitantly. Thiazide/loop diuretics → ↑ Na+ delivery to distal nephron → Na+ reabsorption in exchange of K+ → hypokalemia; K+-sparing diuretics block this Na+/K+ exchange → K+ retention.
3Long-term treatment for refractory oedema as in cirrhosis.
Osmotic diuretics: therapeutic uses
1As the name suggests they are used as diuretics (→ water excretion > Na+ excretion).
2Muscular injury such as in RTA → rhabdomyolysis → myoglobulinuria → acute renal failure. Osmotic diuretics by facilitating myoglobulin excretion help prevent ARF.
3Reduction of ICP and IOP.
Heparin: therapeutic uses
Because of its rapid onset of action, heparin is useful when an immediate anticoagulant effect is needed (e.g. when starting anticoagulant therapy). It is used to depress clotting during the first 36 hrs of anticoagulant therapy (with or without warfarin therapy). Important uses of heparin include the following:
1Prevention (especially during the peri-operative period) and treatment of DVT.
2Prevention and treatment of pulmonary embolism.
3CVS:
aAtrial fibrillation (to prevent thrombus formation in atria and possible embolism).
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THERAPEUTIC USES AND SIDE EFFECTS
b Acute MI (in combination with thrombolytics).
cCoronary angioplasty and placement of coronary stents (in combination with glycoprotein IIb/IIIa inhibitors).
4CNS:
•CVA.
5Renal:
•Haemodialysis/peritoneal dialysis.
6Anticoagulation during pregnancy: Since heparin does not cross the placenta, if anticoagulation is required during pregnancy due to any reason, heparin is the drug of choice. Warfarin, on the other hand, crosses placenta and is teratogenic and thus contraindicated during pregnancy.
7To preserve blood in vitro.
Heparin: side effects
1Commonest side effect is bleeding, especially with overdosage. Protamine Sulphate 1% I/V is the antidote for unfractionated heparin. However, it only partially reverses the effects of LMW heparins.
2Thrombocytopenia: The mechanism is production of antibodies that bind to a complex of heparin and platelet factor IV. This side effect is usually seen with unfractionated heparin; it is less likely with LMW heparins.
3Osteoporosis can occur with prolonged use. This in turn predisposes to spontaneous fractures.
4Transient alopecia.
5Allergic reactions: Asthma, urticaria and anaphylactic shock.
Warfarin: therapeutic uses
1Treatment of DVT and Pulmonary embolism.
2CVS:
•Acute MI.
•Atrial fibrillation.
•Artificial valve implantation.
3CNS:
•CVA.
Mnemonic:
Warfarin: action, monitoring
WePT:
Warfarin works on the extrinsic pathway and is monitored by PT.
Warfarin: side effects
1Commonest side effect is bleeding, especially with overdosage. Vit K I/V is the antidote.
2Teratogenicity: Warfarin is contraindicated in pregnancy because it can cause bone defects and haemorrhages in the developing fetus.
3Warfarin decreases the production of Protein C – an endogenous Vit K-dependent anticoagulant. Decreased production/deficiency of Protein C in turn may lead to the development of a period of hypercoagulability with subsequent dermal vascular necrosis early in the course of the therapy.
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PHARMACOLOGY IN 7 DAYS FOR MEDICAL STUDENTS
4Cytochrome P450-inducers (e.g. barbiturates, carbamazapine, phenytoin) increase warfarin clearance and reduce its anticoagulant effect.
5Cytochrome P450-inhibitors (e.g. amiodarone, SSRIs, cimetidine) reduce warfarin clearance and increase its anticoagulant effect.
Radioactive iodine I131 therapy: therapeutic uses
Thyrotoxicosis due to:
1Graves’ disease.
2Toxic multi-nodular goitre.
3Toxic nodule.
I131 is the only isotope used for the treatment of thyrotoxicosis; others are used for diagnosis. It is the drug of choice for the treatment of Graves’ disease in patients <35 yrs of age (except in pregnant/lactating women, in whom it is contraindicated).
Hormonal contraceptives: therapeutic uses
1Oral/parenteral/postcoital contraception.
2Menstrual problems:
a Severe dysmenorrhea (→ ↓ menstrual cramps). b Heavy menstrual bleeding.
c Irregular periods (→ regulates menstrual periods).
3Hypogonadism and infertility (used both in females and males).
4Hirsutism.
5Acne.
6Abortifacient.
7Endometriosis.
8Decreases the risk of breast CA, benign breast disease, endometrial CA, ovarian CA, ovarian cyst, pelvic inflammatory disease, ectopic pregnancy, iron-deficiency anaemia and rheumatoid arthritis.
9Prostate: benign prostatic hypertrophy; CA prostate.
10Osteoporosis in postmenopausal women.
11For anabolic protein synthesis (used by athletes).
Hormonal contraceptives: side effects
1Severe:
•Vascular disorders: Thromboembolic diseases, e.g. MI, stroke, DVT, pulmonary embolism. It is primarily caused by oestrogen.
•Cancer (breast CA; endometrial CA): This side effect is also primarily caused by oestrogen. Combined use of progesterone decreases the probability of development of malignancy.
•GIT:
a Cholestatic jaundice in patients taking progestin-containing drugs. b Hepatic adenomas.
c Ischaemic bowel disease secondary to thrombosis of celiac and superior and inferior mesenteric arteries and veins.
•Depression.
•Skin: Alopecia, erythema multiforme (EM) and erythema nodosum (EN).
2Moderate:
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THERAPEUTIC USES AND SIDE EFFECTS
•Break-through bleeding: This side effect is seen both with combined and progestin-only pills especially during the first few months of the therapy.
•Preparations containing androgenic progestins can cause acne, increased skin pigmentation (especially in dark-skinned women), hirsutism, weight gain, ureteral dilation (similar to that observed during pregnancy), bacteriuria,
vaginal infections and amenorrhea.
3Mild:
•Mild and often transient headache.
•Worsening of migraine. It is often associated with an increased frequency of cerebrovascular accidents.
•Nausea, mastalgia, breakthrough bleeding and oedema. These side effects are related to the amount of oestrogen in the preparation (higher the amount, more chances of these side effects).
•Withdrawal bleeding sometimes fails to occur (most often with combination preparations) and may cause confusion with regards to pregnancy.
•Coadministration with potent inducers of hepatic microsomal metabolising enzymes (cytochrome P450) such as rifampicin may increase liver catabolism of oestrogens and progestins, thus diminishing the efficacy of oral contraceptives.
Hormonal contraceptives: contraindications
1These drugs are contraindicated in patients with thrombophlebitis, thromboembolic phenomenon, cardiovascular and cerebrovascular disorders or a past history of these conditions.
2They should not be used to treat vaginal bleeding when the cause is not known.
3They should be avoided in patients with known or suspected tumours of breast or other oestrogen-dependent neoplasms.
4Since these preparations cause aggravation of pre-existing disorders, they should be avoided or used with caution in patients with liver disease, diabetes, hypertension, asthma, eczema, optic neuritis, retrobulbar neuritis, migraine or convulsive disorders.
5Since oral contraceptives can produce oedema, they should be used with caution in patients with heart failure or in whom oedema is otherwise undesirable or dangerous.
6Since oestrogens may cause increase in the rate of growth of fibrinoids, drugs containing smallest amounts of oestrogen and mostly androgenic progestins should be selected in such cases.
7They are contraindicated in adolescents in whom epiphyseal closure has not yet been completed.
Glucocorticoids: therapeutic uses
1 Adrenal disorders:
aReplacement therapy for primary (Addison’s disease)/secondary/tertiaryadrenocortical insufficiency: Glucocorticoids are life saving in these
conditions.
bCertain types of congenital adrenal hyperplasia (CAH) in which synthesis of some abnormal forms of glucocorticoids is stimulated by ACTH. In these conditions, exogenous administration of glucocorticoids suppresses the
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