Lasix infusion protocol

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    Lasix infusion protocol


    The authors make no claims of the accuracy of the information contained herein; and these suggested doses and/or guidelines are not a substitute for clinical judgment. nor any other party involved in the preparation of this document shall be liable for any special, consequential, or exemplary damages resulting in whole or part from any user's use of or reliance upon this material. Recommended routes: IM, IV-push, Continuous infusion. Doses up to 6 grams/day have been used in patients with renal failure. Increase by 20 mg increments q1 to 2 hours until response. IV bolus: Usual doses (eg Adults - Parenteral therapy with furosemide injection should be used only in patients unable to take oral medication or in emergency situations and should be replaced with oral therapy as soon as practical. Edema The usual initial dose of furosemide is 20 mg to 40 mg given as a single dose, injected intramuscularly or intravenously. The intravenous dose should be given slowly (1 to 2 minutes). If needed, another dose may be administered in the same manner 2 hours later or the dose may be increased. The dose may be raised by 20 mg and given not sooner than 2 hours after the previous dose until the desired diuretic effect has been obtained. This individually determined single dose should then be given once or twice daily. Therapy should be individualized according to patient response to gain maximal therapeutic response and to determine the minimal dose needed to maintain that response. If the physician elects to use high dose parenteral therapy, add the furosemide to either Sodium Chloride Injection, USP, 0.9%, Lactated Ringer’s Injection, USP, or Dextrose (5%) Injection, USP, after p H has been adjusted to above 5.5, and administer as a controlled intravenous infusion at a rate not greater than 4 mg/min. Furosemide injection is a buffered alkaline solution with a p H of about 9 and drug may precipitate at p H values below 7. Intravenous loop diuretics are a cornerstone of therapy in acutely decompensated heart failure (ADHF). We sought to determine if there are any differences in clinical outcomes between intravenous bolus and continuous infusion of loop diuretics. Subjects with ADHF within 12 hours of hospital admission were randomly assigned to continuous infusion or twice daily bolus therapy with furosemide. There were three co-primary endpoints assessed from admission to discharge: the mean paired changes in serum creatinine, estimated glomerular filtration rate (e GFR), and reduction in B-type natriuretic peptide (BNP). Secondary endpoints included the rate of acute kidney injury (AKI), change in body weight and six months follow-up evaluation after discharge. = 0.001) and this mode of treatment independently associated with this outcome after adjusting for baseline and intermediate variables (adjusted hazard ratio = 2.57, 95% confidence interval, 1.01 to 6.58 In the setting of ADHF, continuous infusion of loop diuretics resulted in greater reductions in BNP from admission to discharge. However, this appeared to occur at the consequence of worsened renal filtration function, use of additional treatment, and higher rates of rehospitalization or death at six months.

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    Furosemide Injection official prescribing information for healthcare professionals. Includes indications, dosage, adverse reactions, pharmacology and more. FUROSEMIDE. Class Diuretic, Loop. -I. M. I. V. Initial 20-40 mg/dose; if response is not adequate, may repeat the same dose or increase dose in increments. Medscape - Hypertension-specific dosing for Lasix furosemide. 0.5-1 mg/kg or 40 mg IV over 1-2 minutes; may be increased to 80 mg if there is no.

    Edema associated with congestive heart failure (CHF), liver cirrhosis, and renal disease, including nephrotic syndrome 20-80 mg PO once daily; may be increased by 20-40 mg q6-8hr; not to exceed 600 mg/day Alternative: 20-40 mg IV/IM once; may be increased by 20 mg q2hr; individual dose not to exceed 200 mg/dose Refractory CHF may necessitate larger doses Excessive diuresis may cause dehydration and electrolyte loss in elderly; lower initial dosages and more gradual adjustments are recommended (eg, 10 mg/day PO)Increase in blood urea nitrogen (BUN) and loss of sodium may cause confusion in elderly; monitor renal function and electrolytes Anaphylaxis Anemia Anorexia Diarrhea Dizziness Glucose intolerance Glycosuria Headache Hearing impairment Hyperuricemia Hypocalcemia Hypokalemia Hypomagnesemia Hypotension Increased patent ductus arteriosus during neonatal period Muscle cramps Nausea Photosensitivity Rash Restlessness Tinnitus Urinary frequency Urticaria Vertigo Weakness Toxic epidermal necrolysis, Stevens-Johnson Syndrome, erythema multiforme, drug rash with eosinophila and systemic symptoms, acute generalized exanthematous pustulosis, exfoliative dermatitis, bullous pemphigoid purpura, pruritus Agent is potent diuretic that, if given in excessive amounts, may lead to profound diuresis with water and electrolyte depletion Careful medical supervision is required; dosing must be adjusted to patient's needs Use caution in systemic lupus erythematosus, liver disease, renal impairment Concomitant ethacrynic acid therapy (increases risk of ototoxicity) Risks of fluid or electrolyte imbalance (including causing hyperglycemia, hyperuricemia, gout), hypotension, metabolic alkalosis, severe hyponatremia, severe hypokalemia, hepatic coma and precoma, hypovolemia (with or without hypotension) Do not commence therapy in hepatic coma and in electrolyte depletion until improvement is noted IV route twice as potent as PO Food delays absorption but not diuretic response May exacerbate lupus Possibility of skin sensitivity to sunlight Prolonged use in premature neonates may cause nephrocalcinosis Efficacy is diminished and risk of ototoxicity increased in patients with hypoproteinemia (associated with nephrotic syndrome); ototoxicity is associated with rapid injection, severe renal impairment, use of higher than recommended doses, concomitant therapy with aminoglycoside antibiotics, ethacrynic acid, or other ototoxic drugs To prevent oliguria, reversible increases in BUN and creatinine, and azotemia, monitor fluid status and renal function; discontinue therapy if azotemia and oliguria occur during treatment of severe progressive renal disease FDA-approved product labeling for many medications have included a broad contraindication in patients with a prior allregic reaction to sulfonamides; however, recent studies have suggested that crossreactivity between antibiotic sulfonamides and nonantibiotic sulfonamides is unlikely to occur In cirrhosis, electrolyte and acid/base imbalances may lead to hepatic encephalopathy; prior to initiation of therapy, correct electrolyte and acid/base imbalances, when hepatic coma is present High doses ( 80 mg) of furosemide may inhibit binding of thyroid hormones to carrier proteins and result in transient increase in free thyroid hormones, followed by overall decrease in total thyroid hormone levels In patients at high risk for radiocontrast nephropathy furosemide can lead to higher incidence of deterioration in renal function after receiving radiocontrast compared to high-risk patients who received only intravenous hydration prior to receiving radiocontrast Observe patients regularly for possible occurrence of blood dyscrasias, liver or kidney damage, or other idiosyncratic reactions Cases of tinnitus and reversible or irreversible hearing impairment and deafness reported Hearing loss in neonates has been associated with use of furosemide injection; in premature neonates with respiratory distress syndrome, diuretic treatment with furosemide in the first few weeks of life may increase risk of persistent patent ductus arteriosus (PDA), possibly through a prostaglandin-E-mediated process Excessive diuresis may cause dehydration and blood volume reduction with circulatory collapse and possibly vascular thrombosis and embolism, particularly in elderly patients Increases in blood glucose and alterations in glucose tolerance tests (with abnormalities of fasting and 2 hour postprandial sugar) have been observed, and rarely, precipitation of diabetes mellitus reported Patients with severe symptoms of urinary retention (because of bladder emptying disorders, prostatic hyperplasia, urethral narrowing), the administration of furosemide can cause acute urinary retention related to increased production and retention of urine; these patients require careful monitoring, especially during initial stages of treatment Hypokalemia may develop with furosemide, especially with brisk diuresis, inadequate oral electrolyte intake, when cirrhosis is present, or during concomitant use of corticosteroids, ACTH, licorice in large amounts, or prolonged use of laxatives Pregnancy category: C; treatment during pregnancy necessitates monitoring of fetal growth because of risk for higher fetal birth weights Lactation: Drug excreted into breast milk; use with caution; may inhibit lactation Loop diuretic; inhibits reabsorption of sodium and chloride ions at proximal and distal renal tubules and loop of Henle; by interfering with chloride-binding cotransport system, causes increases in water, calcium, magnesium, sodium, and chloride Solution: Fructose10W, invert sugar 10% in multiple electrolyte #2 Additive: Amiodarone (at high concentrations of both drugs), buprenorphine, chlorpromazine, diazepam, dobutamine, eptifibatide, erythromycin lactobionate, gentamicin(? ), isoproterenol, meperidine, metoclopramide, netilmicin, papaveretum, prochlorperazine, promethazine Syringe: Caffeine, doxapram, doxorubicin, eptifibatide, metoclopramide, milrinone, droperidol, vinblastine, vincristine Y-site: Alatrofloxacin, amiodarone (incompatible at furosemide 10 mg/m L; possibly compatible at 1 mg/m L), chlorpromazine, ciprofloxacin, cisatracurium (incompatible at cisatracurium 2 mg/m L; possibly compatible at 0.1 mg/m L), clarithromycin, diltiazem, diphenhydramine, dobutamine, dopamine, doxorubicin (incompatible at furosemide 10 mg/m L and doxorubicin 2 mg/m L; possibly compatible at furosemide 3 mg/m L and doxorubicin 0.2 mg/m L), droperidol, eptifibatide, esmolol, famotidine(? ), fenoldopam, gatifloxacin, gemcitabine, gentamicin(? ), hydralazine, idarubicin, labetalol, levofloxacin, meperidine, metoclopramide, midazolam, milrinone, morphine, netilmicin, nicardipine, ondansetron, quinidine, thiopental, vecuronium, vinblastine, vincristine, vinorelbine Not specified: Tetracycline Additive: Cimetidine, epinephrine, heparin, nitroglycerin, potassium chloride, verapamil Syringe: Heparin Y-site: Epinephrine, fentanyl, heparin, norepinephrine, nitroglycerin, potassium chloride, verapamil(? ), vitamins B and C Injection: Inject directly or into tubing of actively running IV over 1-2 minutes Administer undiluted IV injections at rate of 20-40 mg/min; not to exceed 4 mg/min for short-term intermittent infusion; in children, give 0.5 mg/kg/min, titrated to effect Use infusion solution within 24 hours The above information is provided for general informational and educational purposes only. Individual plans may vary and formulary information changes. Contact the applicable plan provider for the most current information. Furosemide is a potent loop diuretic with rapid action. The drug inhibits chloride reabsorption in the ascending limb of the Loop of Henle and inhibits tubular sodium transport, causing major loss of sodium and chloride. Furosemide is rapidly absorbed from the gastrointestinal tract (bioavailability 60-70%). Increased urinary losses of potassium, calcium and phosphate (large doses only) also occur. The half life in adults is 2 hours, but this is approximately 8 times greater in neonates. It is approximately 99% bound to plasma proteins, and excreted mainly unchanged by the kidneys.

    Lasix infusion protocol

    Continuous infusion versus bolus injection of furosemide in critically., FUROSEMIDE Class Diuretic, Loop Indications Management of.

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  6. Oct 31, 2011. Applying a protocol to drive furosemide therapy could be more. Studies comparing continuous infusion and bolus injection have been.

    • Continuous infusion versus bolus injection of furosemide in critically ill..
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    • Continuous Furosemide Infusion - Patient Safety.

    LASIX ® furosemide. controlled intravenous infusion is advisable for adults, an infusion rate not exceeding 4 mg LASIX per minute has been used. Lasix continuous infusion protocol keyword after analyzing the system lists the list of keywords related and the list of websites with related content, in addition. Furosemide, like other loop diuretics, is bound to nephrotic patients six. any of the infusion protocols, but effective renal plasma flow mechanisms. In view of.

     
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    Cross-Reactivity Between Sulfonamides and Loop or Thiazide. Cross-Reactivity Between Sulfonamides and Loop or Thiazide Diuretics Is it a Theoretical or Actual Risk. about the question of hypersensitivity to loop or thiazide diuretics in patients with a history of sulfonamide allergy because it is thought that there is a risk of cross-reactivity from common sulfonamide constituents of these.

    Allergy to sulfonamides - Journal of Allergy and Clinical Immunology