Congestive heart failure diuretics: Difference between revisions
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==Overview== | ==Overview== | ||
* | Diuretics reduce circulating volume, improve symptoms and are a mainstay of therapy for congestive heart failure. | ||
* | |||
* | ==Mechanism of Benefit== | ||
*Reduce intravascular volume | |||
*Lasix reduces preload | |||
*Reduce wall stress | |||
*Improve left ventricual remodeling | |||
*Improve symptoms but not improve survival | |||
==Complications== | |||
*[[Azotemia]] | |||
*[[Hypokalemia]] | |||
*Contraction or [[metabolic alkalosis]] | |||
*Elevate neurohormones | |||
*[[Thiazide]] diuretics are associated with [[hyponatremia]] | |||
==Thiazide Diuretics== | |||
* Although [[thiazide]] [[diuretics]] are effective in mild [[heart failure]] they are usually inadequate for the treatment of severe [[heart failure]]. | * Although [[thiazide]] [[diuretics]] are effective in mild [[heart failure]] they are usually inadequate for the treatment of severe [[heart failure]]. | ||
* [[Thiazide]] [[diuretics]] have also been associative with [[hyponatremia]]. | * [[Thiazide]] [[diuretics]] have also been associative with [[hyponatremia]]. | ||
* Fluid retention usually responds best to [[furosemide]] (Lasix) | |||
==Lasix or Furosemide== | |||
* Fluid retention usually responds best to [[furosemide]] (Lasix) | |||
* If there is no response to the initial dose then it can be increased by at least 50%. | |||
* The maintenance dose of the [[diuretics]] lower than that required to initiate diuresis, and for lasix is usually 10 to 20 mg per day. | |||
* The patient should be told to return to their physician in the next three to seven days after initiation for further assessment including assessment of their [[potassium]] concentration. | |||
* Weight loss should not exceed 1 to 2 pounds/day. | |||
* If the patient gains more than two pounds and they are instructed to double the dose of their loop diuretic. | * If the patient gains more than two pounds and they are instructed to double the dose of their loop diuretic. | ||
* Once the baseline weight has been re-established than they can resume their previous status. | * Once the baseline weight has been re-established than they can resume their previous status. | ||
* Higher lasix doses are associated with higher mortality, likely as a surrogate of disease severity rather than part of a causal pathway. | |||
* Intermittent use of [[metolazone]] into dose of 2.5 or 5 mg can be given if the patient is refractory to [[furosemide]] Lasix. [[Metolazone]] should be given in the inpatient setting. | * Intermittent use of [[metolazone]] into dose of 2.5 or 5 mg can be given if the patient is refractory to [[furosemide]] Lasix. [[Metolazone]] should be given in the inpatient setting. | ||
* The role of [[potassium]] sparing diuretics such as [[spironolactone]] (Aldactone), [[amiloride]], or [[triamterene]] remains the subject of controversy. Spironolactone is currently recommended as third line therapy for congestive heart failure. | * The role of [[potassium]] sparing diuretics such as [[spironolactone]] (Aldactone), [[amiloride]], or [[triamterene]] remains the subject of controversy. Spironolactone is currently recommended as third line therapy for congestive heart failure. | ||
Revision as of 23:48, 3 April 2012
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Congestive heart failure diuretics On the Web |
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Risk calculators and risk factors for Congestive heart failure diuretics |
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]
Overview
Diuretics reduce circulating volume, improve symptoms and are a mainstay of therapy for congestive heart failure.
Mechanism of Benefit
- Reduce intravascular volume
- Lasix reduces preload
- Reduce wall stress
- Improve left ventricual remodeling
- Improve symptoms but not improve survival
Complications
- Azotemia
- Hypokalemia
- Contraction or metabolic alkalosis
- Elevate neurohormones
- Thiazide diuretics are associated with hyponatremia
Thiazide Diuretics
- Although thiazide diuretics are effective in mild heart failure they are usually inadequate for the treatment of severe heart failure.
- Thiazide diuretics have also been associative with hyponatremia.
Lasix or Furosemide
- Fluid retention usually responds best to furosemide (Lasix)
- If there is no response to the initial dose then it can be increased by at least 50%.
- The maintenance dose of the diuretics lower than that required to initiate diuresis, and for lasix is usually 10 to 20 mg per day.
- The patient should be told to return to their physician in the next three to seven days after initiation for further assessment including assessment of their potassium concentration.
- Weight loss should not exceed 1 to 2 pounds/day.
- If the patient gains more than two pounds and they are instructed to double the dose of their loop diuretic.
- Once the baseline weight has been re-established than they can resume their previous status.
- Higher lasix doses are associated with higher mortality, likely as a surrogate of disease severity rather than part of a causal pathway.
- Intermittent use of metolazone into dose of 2.5 or 5 mg can be given if the patient is refractory to furosemide Lasix. Metolazone should be given in the inpatient setting.
- The role of potassium sparing diuretics such as spironolactone (Aldactone), amiloride, or triamterene remains the subject of controversy. Spironolactone is currently recommended as third line therapy for congestive heart failure.
- Extreme caution is necessary when adding a potassium sparing agent to the regiment that includes ACE inhibitors particularly when diabetes or renal disease is present because the patient can become hyperkalemic.
Loop Diuretics
- Agents in this class include Furosemide or lasix, bumetanide, ethacrynic acid and torsemide.
- Inhibit the Na+/K+/Cl- transporter.
- Furosemide IV reduces preload
- Relax pre-contracted pulmonary venules and thereby reduce the symptoms of pulmonary edema
Thiazide Diuretics
- Inhibit the Na+/Cl- co transporter in the distal convoluted tube.
- Recommended for management of mild chronic heart failure.
Potassium Sparing Diuretics
- Spironolactone, amiloride and triamterene.
- Inhibit principal cells in the distal convoluted tubule and cortical collecting duct.
- Inhibits Na reabsorbtion and Potassium secretion.
- Their significant side effect is hyperkalemia.