Desferal
Desferal Medication Information:
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Desferal 2 g
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Desferal 500 mg
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Pharmacology
Pharmacokinetics
Deferoxamine is very poorly absorbed orally but well absorbed by the i.m. and s.c. routes. The serum protein-binding rate is less than 10%. It is distributed throughout all body fluids and is excreted through the kidneys by glomerular filtration and tubular secretion. Metabolites were isolated and identified from the urine of patients being treated for iron overload. The metabolism reactions to occur were transamination and oxidation yielding an acid metabolite, beta-oxidation also yielding an acid metabolite, decarboxylation and N-hydroxylation yielding natural metabolites.
In healthy subjects and in patients with transfusion-induced iron overload, plasma concentrations of between 80 and 130 µmol/L were recorded 3 minutes after an i.v. injection of deferoxamine (10 mg/kg), these concentrations falling to one-half within 5 to 10 minutes and thereafter declining more slowly. This rapid fall in the concentration is due not only to distribution and excretion of the active substance but also both to formation of the iron complex ferrioxamine (which commences within a few minutes and the extent of which depends on the individual's iron status) and to metabolic transformation.
During continuous s.c. or i.v. infusion of deferoxamine (100 mg/kg in 24 mL sterile water at a rate of 1 mL/h), the plasma concentrations of deferoxamine and ferrioxamine in healthy subjects rose, depending on the subject's individual iron status (serum ferritin concentration), to a plateau after 6 or, more frequently, after 12 hours, i.e., to maximum levels of 20 µmol/L for deferoxamine and 2.75 µmol/L for ferrioxamine. The corresponding values in patients were 8.3 µmol/L for deferoxamine and 12.9 µmol/L for ferrioxamine. The 48-hour urinary excretion averaged 118 µmol in the healthy subjects and 836 µmol in the patients. In patients with hemochromatosis, the increase in iron excretion occurring in response to deferoxamine was roughly just as high in the feces as in the urine.
Within 12 hours after deferoxamine had been administered to 20 volunteers, 33.1% of the dose was excreted in the urine (the bulk of it in the first 3 hours) in the form of deferoxamine and ferrioxamine and the remainder in the form of metabolites; the corresponding figure in a patient with hemochromatosis was 60.5% of the dose.
There are reported cases where deferoxamine was diluted with water and given by mouth or stomach tube after gastric aspiration and lavage in the treatment of acute iron overload. The aqueous deferoxamine solution was left in the stomach to bind unabsorbed iron in the gastrointestinal tract to prevent further absorption. Note however, that the efficacy of oral deferoxamine for this purpose is not clearly established.
In ESRF dialysis patients who received 40 mg/kg deferoxamine infused i.v. over 1 hour, plasma concentration at the end of infusion was 152 µmol/L (85.2 µg/mL) when the infusion was given between dialysis sessions. Plasma concentrations of deferoxamine were between 13 and 27% lower when the infusion was administered during dialysis. In all cases, concentrations of ferrioxamine were approximately 7 µmol/L (4.3 µg/mL); and for aluminoxamine 2 to 3 µmol/L (1.2 to 1.8 µg/mL). After infusion was discontinued, plasma concentration of deferoxamine decreased rapidly with a half-life of 20 minutes. A smaller fraction of the dose was eliminated with a longer half-life of 14 hours. The plasma concentrations of aluminoxamine continued to increase for up to 48 hours after infusion and reached values of approximately 7 µmol/L (4 µg/mL). Following dialysis, the plasma concentration of aluminoxamine dropped to 2.2 µmol/L (1.3 µg/mL).
During peritoneal dialysis deferoxamine is absorbed if administered in the dialysis fluid.
Indications
Acute iron intoxication; chronic iron overload due to transfusion-dependent anemias; diagnosis of aluminum overload (deferoxamine infusion test); chronic aluminum overload in patients with ESRF under maintenance dialysis.
In cases of acute iron intoxication, deferoxamine is an adjunct to, and not a substitute for, standard therapeutic measures which may include: induction of emesis; gastric lavage; maintenance of clear airways; control of peripheral vascular failure; correction of acidosis.
Precautions
Drug Interactions
Concurrent treatment with deferoxamine and prochlorperazine, a phenothiazine derivative, may lead to temporary impairment of consciousness.
Where an iron-overload is associated with ascorbic acid deficiency, oral administration of vitamin C in the standard dosage (150 to 250 mg daily) may serve to enhance excretion of the iron complex in response to deferoxamine. Larger doses of vitamin C fail to produce an additional effect.
In patients with severe chronic iron overload receiving combined treatment of deferoxamine with high doses of vitamin C (more than 500 mg daily) impairment of cardiac function may be experienced; the impaired cardiac function proved reversible when the vitamin C was withdrawn. Cardiac impairment results from high doses of vitamin C which increases the labile iron within the tissues to toxic levels.
The following precautions should be taken when deferoxamine and vitamin C are to be used concomitantly: Vitamin C supplements should not be given to patients with cardiac failure. Cardiac function should be monitored before commencing and during the combined therapy of deferoxamine and vitamin C. Vitamin C therapy should be initiated only after an initial month of regular deferoxamine therapy. Vitamin C therapy should be given only if the patient is receiving deferoxamine regularly (ideally soon after setting up the pump). Daily doses of approximately 200 mg of vitamin C in adults, 100 mg of vitamin C in older children and 50 mg of vitamin C in children under 10 years, should not be exceeded.
There is evidence that aluminum intoxication causes reduced erythropoiesis. In dialysis patients with iron and/or aluminum overload receiving deferoxamine and erythropoietin, it is important to adjust the dosage of the latter when necessary. Regular monitoring of iron stores should also be conducted.
Gallium-67-imaging results may be distorted due to rapid urinary excretion of deferoxamine-bound Gallium 67. Discontinuing deferoxamine treatment 48 hours prior to scintigraphy is recommended.
Supplied
2 g
Each vial of white to practically white lyophilized powder contains: deferoxamine mesylate 2 g. Vials of 50 mL, cartons of 1.
Protect vials from heat (store below 25°C).
500 mg
Each vial of white to practically white lyophilized powder contains: deferoxamine mesylate 500 mg. Vials of 7.5 mL, cartons of 10.
Contraindications
Patients with a known or suspected sensitivity to deferoxamine, except where desensitization is successful.
Warnings
Lactation
It is not known whether deferoxamine passes into the breast milk. Therefore, mothers receiving deferoxamine should not breast-feed their infants.
Pregnancy
In animal experiments, deferoxamine has proven teratogenic. Women of childbearing potential with chronic iron and/or aluminum overload should not receive deferoxamine unless the use of an effective form of contraception, established before treatment, is continued throughout treatment and for at least the first month after treatment. Those patients reported to have received deferoxamine therapy during pregnancy have born children without any malformations. However, during pregnancy, particularly in the first trimester, deferoxamine should only be used if the hazard of acute iron intoxication is considered to be greater than the potential teratogenic hazard of deferoxamine.
Adverse Effects
Gastrointestinal
abdominal discomfort, diarrhea, nausea, vomiting.
Hypersensitivity/Dermatological
Frequent: pain, swelling, induration, erythema, burning, pruritus, wheals and rash (urticaria) at the infusion or injection site, occasionally accompanied by fever, chills and malaise. Rare: anaphylactic/anaphylactoid reactions with or without shock, angioedema. These reactions occur mainly when the drug is infused s.c. or administered in concentrations higher than those recommended. When signs of local irritation are observed after administration of deferoxamine solution, administration of a lower concentration is recommended.
Endocrine system
growth retardation (see Warnings).
Other
impairment of hepatic and renal function, dysuria, pyrexia, leg cramps. Isolated cases: malaise, bone pain.
Respiratory
Isolated cases: adult respiratory distress syndrome with dyspnea, cyanosis and interstitial pulmonary infiltrates (see Warnings).
Ophthalmological
retinal pigmentary abnormalities (decreased visual acuity, impaired color and night vision, vision loss), blurred vision, visual field defects, opacities of the lenses and cornea, optic neuropathy and neuritis, abnormal visual evoked potentials, scotoma.
Hematological
Isolated cases: blood dyscrasias (e.g., thrombocytopenia).
Neurological
dizziness, convulsions, exacerbation of neurological dysfunction in aluminum-related encephalopathy. Isolated cases: precipitation of dialysis dementia, peripheral sensory neuropathy, paresthesia (see Warnings).
Ear
auditory disturbances, hearing loss (including high-frequency sensorineural hearing loss), tinnitus (see Warnings).
Cardiovascular
hypotension, shock, tachycardia, arrhythmias.
Overdose
Symptoms
Since deferoxamine is available only for parenteral administration, acute intoxication is unlikely to occur.
Rapid i.v. injection of deferoxamine exceeding 15 mg/kg/h has produced flushing of the skin, urticaria, hypotension and shock (see Precautions).
Tachycardia, hypotension and gastrointestinal symptoms have occasionally developed in patients who received overdoses of deferoxamine.
Inadvertent i.v. administration of an overdose of deferoxamine may be associated with acute but transient vision loss, aphasia, agitation, headache, nausea, bradycardia and hypotension.
Respiratory distress syndrome including death has been reported following i.v. administration of excessive doses of deferoxamine (see Warnings).
High doses of deferoxamine for the treatment of chronic iron and/or aluminum overload have resulted in visual disturbances and hearing loss (see Warnings).
Treatment
There is no specific antidote. Signs and symptoms of overdosage may be eliminated by reducing the dosage or interrupting treatment. Deferoxamine is dialyzable.
Dosage
Deferoxamine should only be given parenterally. The dose should not exceed 6 g in a 24-hour period. Although deferoxamine can be given by i.m. injection, in most cases it exerts a considerably greater effect when administered by continuous infusion either i.v. (especially in cases of acute iron intoxication) or s.c. (especially in patients with chronic iron overload).
Acute Iron Intoxication: Deferoxamine is an adjunct to standard measures generally used in treating acute iron intoxication, which may include induction of emesis, gastric lavage, maintenance of clear airways, control of peripheral vascular failure and correction of acidosis.
Treatment should be adapted to the severity of intoxication, with reference to serum iron (SI) and total iron binding capacity (TIBC) which should be regularly monitored. In addition, the total amount of iron ingested and remaining in the gastrointestinal tract should be taken into account.
Deferoxamine should be instituted i.v. or i.m. in: a) All patients with SI>TIBC (>500 µg/dL or 89.5 µmol/L), b) Any patient with SI>350 µg/dL or 62.6 µmol/L (if TIBC is unavailable) and evidence of free iron, or c) Any patient where SI is not readily available and the patient demonstrates the signs and symptoms of iron intoxication.
Note: Leukocytosis (WBC>15 000/mm3), hyperglycemia (blood sugar>150 mg/dL) or diarrhea strongly suggest SI will be in the toxic range.
I.V. Infusion: The i.v. route should be used when the patient is hypotensive, in shock or major clinical findings are present. In general, provided infusion lines can be readily established and maintained, and SI levels and TIBC can be readily monitored, i.v. infusion is the preferred route of administration. Infusion rates should be adapted to the severity of intoxication. The rate of infusion should not exceed 15 mg/kg/h and should be reduced as soon as the situation permits, usually after 4 to 6 hours such that the total i.v. dose does not exceed 80 mg/kg up to a maximum of 6 g in 24 hours. Respiratory distress syndrome has been reported following i.v. administration of excessive doses of deferoxamine. Treatment should be interrupted if signs of toxicity occur.
I.M. Route: The i.m. route may be used when the patient is normotensive. When administering deferoxamine in children by the i.m. route, initially inject 90 mg/kg. This may be followed by 45 mg/kg every 4 to 12 hours, as necessary, up to a maximum of 6 g/24 hours. In children, the maximum single injection should not exceed 1 g (2 g in adults). Attention should be given to volume of solution injected and in small children, 2 injection sites may be required.
Duration of treatment with deferoxamine by either route will depend on the patient's condition and should be based on the SI levels and TIBC.
The effectiveness of treatment is dependent on an adequate output of urine in order to ensure that the iron complex ferrioxamine is excreted from the body. If oliguria or anuria develop, peritoneal dialysis or hemodialysis may become necessary to remove the ferrioxamine.
Chronic Iron Overload: The daily dose of deferoxamine in children and adults should be tailored to the iron burden of the individual patient as reflected by serum ferritin levels and 24-hour urinary iron excretion. These levels should be monitored daily initially and thereafter at longer intervals (but not less than once every 2 weeks).
I.V. infusions usually prove somewhat more effective than s.c. infusions, but the latter are particularly suitable for ambulant patients.
For s.c. infusions, a portable light-weight infusion pump is a practical, effective means of promoting sustained and substantial net urinary iron excretion. The usual needle used is a 25-gauge or 27-gauge, butterfly type, placed in the s.c. tissues of the anterior abdominal wall.
For the purpose of infusion treatment, the average daily dose is 1 to 4 g (20 to 60 mg/kg depending upon iron load) administered s.c. or i.v. over a period of approximately 12 hours. In some cases it is possible to achieve a further increase in iron excretion by infusing the same daily dose over a 24-hour period. When administered s.c. by pump, deferoxamine should be given 4 to 7 times/week depending on the severity of the iron overload. Patients with serum ferritin levels less than 2 000 ng/mL require approximately 25 mg/kg/day. Doses of 35 mg/kg/day are required when serum ferritin levels are in the range of 2 000 ng/mL to 3 000 ng/mL. Higher doses should be administered only if the benefits outweigh the risks associated with repeated high daily doses.
For i.m. treatment when more effective s.c. infusions are not feasible, the average initial dose is 0.5 to 1 g daily, given in 1 to 2 injections. The maintenance dose will depend on the patient's iron excretion rate.
Since the iron excretion rates obtained with the above-mentioned modes of administration vary from patient to patient, one should first determine which route and dosage will yield the best results for the individual.
Diagnosis of Aluminum Overload: Adults with ESRF: Serum aluminum levels should be determined before and after deferoxamine administration. The deferoxamine infusion test is recommended in patients with serum aluminum levels exceeding 60 ng/mL (2.22 µmol/L) associated with serum ferritin levels above 100 ng/mL. A blood sample is taken just prior to a hemodialysis session to determine the baseline serum aluminum level. A 5 mg/kg dose of deferoxamine is given as a single, slow i.v. infusion at an infusion rate not exceeding 15 mg/kg/h, ideally during postdialysis to avoid loss of free drug. An acceptable compromise is during the last 60 minutes of the hemodialysis session. A continuous increase in serum aluminum during the 24- to 48-hour period following administration is suggestive of aluminum overload. The test is considered positive if the serum aluminum levels increase above baseline by more than 150 ng/mL (5.55 µmol/L) when a second blood sample is taken at the start of the next hemodialysis session.
The diagnostic capability of the deferoxamine infusion test is greatly enhanced if performed in conjunction with histological and biochemical examination of a bone biopsy.
Children with ESRF: Little clinical experience has been gained to date on the use of deferoxamine in aluminum-overloaded children, the condition being rare in the very young. Dosage should be adapted from the adult dose at the discretion of the physician and adjusted for body-weight (15 to 20 mg/kg).
Chronic Aluminum Overload in Patients with ESRF: The precise dosage should be individually determined and adapted during the course of treatment.
Deferoxamine should be used in the treatment of patients having symptoms or evidence of organ dysfunction due to aluminum overload. In addition, treatment should be considered in symptomatic patients if serum aluminum levels are consistently above 60 ng/mL (2.22 µmol/L) and are associated with a positive deferoxamine infusion test (see above), particularly if bone biopsy findings present evidence of aluminum-related bone disease. Deferoxamine should be given once weekly at a 5 mg/kg dose administered as a slow i.v. infusion not exceeding 15 mg/kg/h infusion rate, ideally during postdialysis to avoid loss of free drug. An acceptable compromise is during the last 60 minutes of the hemodialysis session.
After completing the first 3-month course of deferoxamine treatment, followed by a 4-week wash out period, the deferoxamine infusion test should be performed. If 2 successive tests performed at 1-month intervals yield an increase in serum aluminum levels of less than 75 ng/mL (2.78 µmol/L) above baseline, further treatment is not recommended.
Patients on continuous ambulatory or cyclic peritoneal dialysis: A 5 mg/kg dose once per week prior to the final daily exchange. The intraperitoneal route is recommended in these patients, however, deferoxamine is equally effective when administered i.m., by slow i.v., or s.c. infusion. The mode of administration should be individually determined and the dosage adapted during the course of therapy.
Reconstitution of Lyophilized Vials: The sterile lyophilized powder in each vial should be reconstituted under aseptic conditions just prior to dilution, only with Sterile Water for Injection. Desferal is dissolved by adding 5 mL of sterile water for injection to each 500 mg vial or 20 mL of sterile water for injection to each 2 g vial. The Desferal solution should appear clear and colorless to slightly yellow at the recommended concentration of 10%.
The final volume of the reconstituted lyophilized vial is greater than the specified volume of Sterile Water for Injection.
Dilution of Reconstituted Solution for I.V. Infusion: Reconstituted solutions that have been prepared with Sterile Water for Injection can be further diluted with physiological saline (0.9%), glucose in water or Ringer's lactate for infusion prior to infusion. The use of freshly prepared diluted solutions is recommended. Reconstituted solutions and solutions further diluted for infusion should be used or discarded within 24 hours from reconstitution when protected from heat (i.e., store below 23°C) due to the possibility of microbial contamination during preparation. Discard any infusion solution found to have particulate matter or discoloration. For clinical situations requiring a smaller volume of solution (e.g. IM injection) the reconstitution table is to be considered: See Table 1.
Table 1: Desferal
Reconstitution Table
| Vial Size | Diluent Volume to be Added to Vial | Approximate Available Volume | Actual Concentration |
|---|---|---|---|
| 500 mg | 2 mL | 2.38 mL | 210 mg/mL |
| 2 g | 8 mL | 9.52 mL | 210 mg/mL |
This concentration may product a stronger yellow-colored solution. The drug should be completely dissolved before the solution is withdrawn.
Incompatibilities: Heparin injectable solution or physiological saline (0.9%) should not be used to reconstitute the vials of lyophilized powder.
