1. Pitfalls in Diuretic Use �Metabolic Adverse Reactions Iwan Darmansjah, MD
2. Some commonly used diuretics Thiazides and Thiazide analogs
Bendroflumethiazide, hydrochlorothiazide, indapamide
Loop diuretics
Furosemide, bumetanide, torasemide (long half-life)
Potassium-sparing diuretics
Amiloride, spironolactone, triamterene
Carbonic anhydrase inhibitors
Acetazolamide (specific use)
3. Adverse reactions to diuretics well known
Elderly people most affected
Mainly prescribed for hypertension and cardiac insufficiency
Thiazide as antihypertensive should not be called diuretic, because of the small doses used, and is not diuretic.
4. URINARY ELECTROLYTE COMPOSITION DURING DIURESIS
5. Loop-diuretic as Fluid-mover
Furosemide increases urine vol 8 x Normal
Thiazide (diuretic dose) 3 x N
Potassium-sparing diuretic 2 x N
6. Main Indications of furosemide Removing edema fluid from:
Feet and legs, ascites, pulmonary interstitial and alveoli, whole body tissue edema
Acute and chronic Heart Failure
Forced diuresis
7. HCT dose As diuretic: 50-100 mg
As antihypertensive dose much smaller:
6.25 mg (as in Lodoz) 12.5 mg/day
No problem of hyponatremia, nor hypokalemia
No need of routine K supplementation
Most metabolic adverse reactions of thiazide was reported from the 70s late 80s, when the doses used were large (50-100 mg/day or more).
9. Hyponatremia Hyponatremia is the most frequent electrolyte abnormality among diuretic (all diuretics) users. It may be fatal.
Furosemide has the strongest natriuretic effect, and therefore the most frequent adverse reaction.
Factors: age, female, malnutrition, renal failure, combination with NSAID, ACE-inhib.
When severe renal failure: hyperkalemia, hyperphosphatemia, hyperuricemia. .
10. Hypokalemia Hypokalemia is the most feared among furosemide, and even low-dose thiazide users.
This fear is unfounded and results in overuse of K salts as a preventive in all patients receiving long term furosemide, which may result in hyperkalemia.
11. Nature of Adverse Reactions Hyponatremia: (when mild, asymptomatic)
Postural hypotension
Weakness, vomiting, mental confusion, coma, convulsion
Neurological complication when < 120 mmol/L
Hypokalemia:
Cardiac arrhytmia (QRS widening)
Excessive water loss (dehydration)
12. Drugs that may alter K levels Hypokalemia
Thiazide as a diuretic (not if used as antihypertensive)
Loop diuretic
Mineralocorticoids (fludrocortisone)
Cathartics
Adrenergics, theophylline (high dose)
Hyperkalemia
KCL tablets
Potassium sparing diuretics
ACE-inhibitors
NSAID (especially when renal impairment)
13. Some Mechanisms (1) ACE-inhib may increase serum K by:
Reducing angiotensin-II mediated release of aldosterone, which reduces K excretion in the distal tubules.
Fludrocortisone produces hypokalemia by
increasing K renal excretion with Na absorption in the distal tubule.
14. Some Mechanisms (2) Adrenergics: stimulate K uptake by muscles redistribution of K (usually mild)
Furosemide depends on renal excretion;
Bumetanide does not, because metabolized
15. Treatment of Hyponatremia Slow infusion of isotonic or hypertonic NaCl solution.
Restriction of water intake.
Precaution: when checking K level, one should include Na.
16. Treatment of Hypo- and Hyper-kalemia Severe hypo- or hyper-kalemia must be treated fast with cardiac monitoring.
Hypo: Slow infusion of KCL solution.
Hyper: Infusion of glucose and insulin (stimulates K uptake in the cell)
Also: anion exchange resin to bind K ion.
17. Conclusion Diuretics are beneficial for many diseases
It may also cause fatal adverse reactions (elderly!)
Monitoring of electrolyte levels are needed
Judicious use is warranted
18. E-mail: <puko98@indosat.net.id>�Homepage: <http://www.iwandarmansjah.web.id>
Thank you !
