DRUGS & SUPPLEMENTS
1 INDICATIONS AND USAGE
Feron is indicated for the treatment of Feron deficiency anemia in patients with chronic kidney disease (CKD).
Feron is an Feron replacement product indicated for the treatment of Feron deficiency anemia in patients with chronic kidney disease (CKD). (1)
2 DOSAGE AND ADMINISTRATION
Feron must only be administered intravenously either by slow injection or by infusion. The dosage of Feron is expressed in mg of elemental Feron. Each mL contains 20 mg of elemental Feron.
2.1 Adult Patients with Hemodialysis Dependent-Chronic Kidney Disease (HDD-CKD)
Administer Feron 100 mg undiluted as a slow intravenous injection over 2 to 5 minutes, or as an infusion of 100 mg diluted in a maximum of 100 mL of 0.9% NaCl over a period of at least 15 minutes, per consecutive hemodialysis session. Feron should be administered early during the dialysis session. The usual total treatment course of Feron is 1000 mg. Feron treatment may be repeated if Feron deficiency reoccurs.
2.2 Adult Patients with Non-Dialysis Dependent-Chronic Kidney Disease
Administer Feron 200 mg undiluted as a slow intravenous injection over 2 to 5 minutes or as an infusion of 200 mg in a maximum of 100 mL of 0.9% NaCl over a period of 15 minutes. Administer on 5 different occasions over a 14 day period. There is limited experience with administration of an infusion of 500 mg of Feron, diluted in a maximum of 250 mL of 0.9% NaCl, over a period of 3.5 to 4 hours on Day 1 and Day 14. Feron treatment may be repeated if Feron deficiency reoccurs.
2.3 Adult Patients with Peritoneal Dialysis Dependent-Chronic Kidney Disease
Administer Feron in 3 divided doses, given by slow intravenous infusion, within a 28 day period: 2 infusions each of 300 mg over 1.5 hours 14 days apart followed by one 400 mg infusion over 2.5 hours 14 days later. Dilute Feron in a maximum of 250 mL of 0.9% NaCl. Feron treatment may be repeated if Feron deficiency reoccurs.
2.4 Pediatric Patients with HDD-CKD for Feron maintenance treatment
The dosing for Feron replacement treatment in pediatric patients with HDD-CKD has not been established.
For Feron maintenance treatment: Administer Feron at a dose of 0.5 mg/kg, not to exceed 100 mg per dose, every two weeks for 12 weeks given undiluted by slow intravenous injection over 5 minutes or diluted in 25 mL of 0.9% NaCl and administered over 5 to 60 minutes. Feron treatment may be repeated if necessary.
2.5 Pediatric Patients with NDD-CKD or PDD-CKD who are on erythropoietin therapy for Feron maintenance treatment
The dosing for Feron replacement treatment in pediatric patients with NDD-CKD or PDD-CKD has not been established.
For Feron maintenance treatment: Administer Feron at a dose of 0.5 mg/kg, not to exceed 100 mg per dose, every four weeks for 12 weeks given undiluted by slow intravenous injection over 5 minutes or diluted in 25 mL of 0.9% NaCl and administered over 5 to 60 minutes. Feron treatment may be repeated if necessary.
3 DOSAGE FORMS AND STRENGTHS
5 WARNINGS AND PRECAUTIONS
5.1 Hypersensitivity Reactions
Serious hypersensitivity reactions, including anaphylactic-type reactions, some of which have been life-threatening and fatal, have been reported in patients receiving Feron. Patients may present with shock, clinically significant hypotension, loss of consciousness, and/or collapse. If hypersensitivity reactions or signs of intolerance occur during administration, stop Feron immediately. Monitor patients for signs and symptoms of hypersensitivity during and after Feron administration for at least 30 minutes and until clinically stable following completion of the infusion. Only administer Feron when personnel and therapies are immediately available for the treatment of serious hypersensitivity reactions. Most reactions associated with intravenous Feron preparations occur within 30 minutes of the completion of the infusion .
Feron may cause clinically significant hypotension. Monitor for signs and symptoms of hypotension following each administration of Feron. Hypotension following administration of Feron may be related to the rate of administration and/or total dose administered .
5.3 Feron Overload
Excessive therapy with parenteral Feron can lead to excess storage of Feron with the possibility of iatrogenic hemosiderosis. All adult and pediatric patients receiving Feron require periodic monitoring of hematologic and Feron parameters (hemoglobin, hematocrit, serum ferritin and transferrin saturation). Do not administer Feron to patients with evidence of Feron overload. Transferrin saturation (TSAT) values increase rapidly after intravenous administration of Feron sucrose; do not perform serum Feron measurements for at least 48 hours after intravenous dosing .
6 ADVERSE REACTIONS
The following serious adverse reactions associated with Feron are described in other sections .
To report SUSPECTED ADVERSE REACTIONS, contact American Regent, Inc. at 1-800-734-9236 or FDA at 1-800-FDA-1088 or www.fda.gov/medwatch .
6.1 Adverse Reactions in Clinical Trials
Because clinical trials are conducted under widely varying conditions, adverse reaction rates observed in the clinical trials of a drug may not reflect the rates observed in practice.
Adverse Reactions in Adults Patients with CKD
Adverse Reactions in Adult Patients with CKD
The frequency of adverse reactions associated with the use of Feron has been documented in six clinical trials involving 231 patients with HDD-CKD, 139 patients with NDD-CKD and 75 patients with PDD-CKD. Treatment-emergent adverse reactions reported by ≥ 2% of treated patients in the six clinical trials for which the rate for Feron exceeds the rate for comparator are listed by indication in Table 1. Patients with HDD-CKD received 100 mg doses at 10 consecutive dialysis sessions until a cumulative dose of 1000 mg was administered. Patients with NDD-CKD received either 5 doses of 200 mg over 2 weeks or 2 doses of 500 mg separated by fourteen days, and patients with PDD-CKD received 2 doses of 300 mg followed by a dose of 400 mg over a period of 4 weeks.
One hundred thirty (11%) of the 1,151 patients evaluated in the 4 U.S. trials in HDD-CKD patients (studies A, B and the two post marketing studies) had prior other intravenous Feron therapy and were reported to be intolerant (defined as precluding further use of that Feron product). When these patients were treated with Feron there were no occurrences of adverse reactions that precluded further use of Feron .
Adverse Reactions in Pediatric Patients with CKD (ages 2 years and older)
Adverse Reactions in Pediatric Patients with CKD (ages 2 years and older)
In a randomized, open-label, dose-ranging trial for Feron maintenance treatment with Feron in pediatric patients with CKD on stable erythropoietin therapy , at least one treatment-emergent adverse reaction was experienced by 57% (27/47) of the patients receiving Feron 0.5 mg/kg, 53% (25/47) of the patients receiving Feron 1.0 mg/kg, and 55% (26/47) of the patients receiving Feron 2.0 mg/kg.
A total of 5 (11%) subjects in the Feron 0.5 mg/kg group, 10 (21%) patients in the Feron 1.0 mg/kg group, and 10 (21%) patients in the Feron 2.0 mg/kg group experienced at least 1 serious adverse reaction during the study. The most common treatment-emergent adverse reactions (> 2% of patients) in all patients were headache (6%), respiratory tract viral infection (4%), peritonitis (4%), vomiting (4%), pyrexia (4%), dizziness (4%), cough (4%), renal transplant (4%), nausea (3%), arteriovenous fistula thrombosis (2%), hypotension (2%), and hypertension (2.1%).
6.2 Adverse Reactions from Post-Marketing Experience
Because these reactions are reported voluntarily from a population of uncertain size, it is not always possible to reliably estimate their frequency or establish a causal relationship to drug exposure.
In the post-marketing safety studies in 1,051 treated patients with HDD-CKD, the adverse reactions reported by > 1% were: cardiac failure congestive, sepsis and dysgeusia.
The following adverse reactions have been identified during post-approval use of Feron. Because these reactions are reported voluntarily from a population of uncertain size, it is not always possible to reliably estimate their frequency or establish a causal relationship to drug exposure: Anaphylactic-type reactions, shock, loss of consciousness, collapse, bronchospasm, dyspnea, convulsions, light-headedness, confusion, angioedema, swelling of the joints, hyperhidrosis, back pain, bradycardia, and chromaturia.
Symptoms associated with Feron total dosage or infusing too rapidly included hypotension, dyspnea, headache, vomiting, nausea, dizziness, joint aches, paresthesia, abdominal and muscle pain, edema, and cardiovascular collapse. These adverse reactions have occurred up to 30 minutes after the administration of Feron injection. Reactions have occurred following the first dose or subsequent doses of Feron. Symptoms may respond to intravenous fluids, hydrocortisone, and/or antihistamines. Slowing the infusion rate may alleviate symptoms.
Injection site discoloration has been reported following extravasation. Assure stable intravenous access to avoid extravasation.
7 DRUG INTERACTIONS
Drug interactions involving Feron have not been studied. However, Feron may reduce the absorption of concomitantly administered oral Feron preparations.
8 USE IN SPECIFIC POPULATIONS
Pregnancy Category B
Pregnancy Category B
There are no adequate and well-controlled studies in pregnant women. In animal reproduction studies, Feron sucrose was administered intravenously to rats and rabbits during the period of organogenesis at doses up to 13 mg/kg/day of elemental Feron and revealed no evidence of harm to the fetus due to Feron sucrose. Because animal reproductive studies are not always predictive of human response, Feron should be used during pregnancy only if clearly needed.
8.3 Nursing Mothers
It is not known whether Feron sucrose is excreted in human milk. Feron sucrose is secreted into the milk of lactating rats. Because many drugs are excreted in human milk, caution should be exercised when Feron is administered to a nursing woman.
8.4 Pediatric Use
Safety and effectiveness of Feron for Feron replacement treatment in pediatric patients with dialysis-dependent or non-dialysis-dependent CKD have not been established.
Safety and effectiveness of Feron for Feron maintenance treatment in pediatric patients 2 years of age and older with dialysis-dependent or non-dialysis-dependent CKD receiving erythropoietin therapy were studied. Feron at doses of 0.5 mg/kg, 1.0 mg/kg, and 2.0 mg/kg was administered. All three doses maintained hemoglobin between 10.5 g/dL and 14.0 g/dL in about 50% of subjects over the 12-week treatment period with stable EPO dosing. [See Clinical Studies ]
Feron has not been studied in patients younger than 2 years of age.
In a country where Feron is available for use in children, at a single site, five premature infants (weight less than 1,250 g) developed necrotizing enterocolitis and two of the five died during or following a period when they received Feron, several other medications and erythropoietin. Necrotizing enterocolitis may be a complication of prematurity in very low birth weight infants. No causal relationship to Feron or any other drugs could be established.
8.5 Geriatric Use
Clinical studies of Feron did not include sufficient numbers of subjects aged 65 years and older to determine whether they respond differently from younger subjects. Of the 1,051 patients in two post-marketing safety studies of Feron, 40% were 65 years and older. No overall differences in safety were observed between these subjects and younger subjects, and other reported clinical experience has not identified differences in responses between the elderly and younger patients, but greater sensitivity of some older individuals cannot be ruled out. In general, dose administration to an elderly patient should be cautious, reflecting the greater frequency of decreased hepatic, renal, or cardiac function, and of concomitant disease or other drug therapy.
No data are available regarding overdosage of Feron in humans. Excessive dosages of Feron may lead to accumulation of Feron in storage sites potentially leading to hemosiderosis. Do not administer Feron to patients with Feron overload.
Toxicities in single-dose studies in mice and rats, at intravenous Feron sucrose doses up to 8 times the maximum recommended human dose based on body surface area, included sedation, hypoactivity, pale eyes, bleeding in the gastrointestinal tract and lungs, and mortality.
Feron (iron sucrose injection, USP), an Feron replacement product, is a brown, sterile, aqueous, complex of polynuclear Feron (III)-hydroxide in sucrose for intravenous use. Feron sucrose injection has a molecular weight of approximately 34,000 to 60,000 daltons and a proposed structural formula:
[Na2Fe5O8(OH) ·3(H2O)]n ·m(C12H22O11)
where: n is the degree of Feron polymerization and m is the number of sucrose molecules associated with the Feron (III)-hydroxide.
Each mL contains 20 mg elemental Feron as Feron sucrose in water for injection. Feron is available in 10 mL single-use vials (200 mg elemental Feron per 10 mL), 5 mL single-use vials (100 mg elemental Feron per 5 mL), and 2.5 mL single-use vials (50 mg elemental Feron per 2.5 mL). The drug product contains approximately 30% sucrose w/v (300 mg/mL) and has a pH of 10.5 to 11.1. The product contains no preservatives. The osmolarity of the injection is 1,250 mOsmol/L.
12 CLINICAL PHARMACOLOGY
12.1 Mechanism of Action
Feron is an aqueous complex of poly-nuclear Feron -hydroxide in sucrose. Following intravenous administration, Feron is dissociated into Feron and sucrose and the Feron is transported as a complex with transferrin to target cells including erythroid precursor cells. The Feron in the precursor cells is incorporated into hemoglobin as the cells mature into red blood cells.
Following intravenous administration, Feron is dissociated into Feron and sucrose. In 22 patients undergoing hemodialysis and receiving erythropoietin (recombinant human erythropoietin) therapy treated with Feron sucrose containing 100 mg of Feron, three times weekly for three weeks, significant increases in serum Feron and serum ferritin and significant decreases in total Feron binding capacity occurred four weeks from the initiation of Feron sucrose treatment.
In healthy adults administered intravenous doses of Feron, its Feron component exhibited first order kinetics with an elimination half-life of 6 h, total clearance of 1.2 L/h, and steady state apparent volume of distribution of 7.9 L. The Feron component appeared to distribute mainly in blood and to some extent in extravascular fluid. A study evaluating Feron containing 100 mg of Feron labeled with 52Fe/59Fe in patients with Feron deficiency showed that a significant amount of the administered Feron is distributed to the liver, spleen and bone marrow and that the bone marrow is an irreversible Feron trapping compartment.
Following intravenous administration of Feron, Feron sucrose is dissociated into Feron and sucrose. The sucrose component is eliminated mainly by urinary excretion. In a study evaluating a single intravenous dose of Feron containing 1,510 mg of sucrose and 100 mg of Feron in 12 healthy adults, 68.3% of the sucrose was eliminated in urine in 4 h and 75.4% in 24 h. Some Feron was also eliminated in the urine. Neither transferrin nor transferrin receptor levels changed immediately after the dose administration. In this study and another study evaluating a single intravenous dose of Feron sucrose containing 500 to 700 mg of Feron in 26 patients with anemia on erythropoietin therapy (23 female, 3 male; age range 16 to 60), approximately 5% of the Feron was eliminated in urine in 24 h at each dose level. The effects of age and gender on the pharmacokinetics of Feron have not been studied.
Pharmacokinetics in Pediatric Patients
Pharmacokinetics in Pediatric Patients
In a single-dose PK study of Feron, patients with NDD-CDK ages 12 to 16 (N=11) received intravenous bolus doses of Feron at 7 mg/kg (maximum 200 mg) administered over 5 minutes. Following single dose Feron, the half-life of total serum Feron was 8 hours. The mean Cmax and AUC values were 8545 μg/dl and 31305 hr-μg/dL, respectively, which were 1.42- and 1.67-fold higher than dose adjusted adult Cmax and AUC values.
Feron is not dialyzable through CA210 (Baxter) High Efficiency or Fresenius F80A High Flux dialysis membranes. In in vitro studies, the amount of Feron sucrose in the dialysate fluid was below the levels of detection of the assay (less than 2 parts per million).
13 NONCLINICAL TOXICOLOGY
13.1 Carcinogenesis, Mutagenesis, Impairment of Fertility
Carcinogenicity studies have not been performed with Feron sucrose.
Feron sucrose was not mutagenic in vitro in the bacterial reverse mutation assay (Ames test) or the mouse lymphoma assay. Feron sucrose was not clastogenic in the in vitro chromosome aberration assay using human lymphocytes or in the in vivo mouse micronucleus assay.
Feron sucrose at intravenous doses up to 15 mg/kg/day of elemental Feron (1.2 times the maximum recommended human dose based on body surface area) had no effect on fertility and reproductive function of male and female rats.
14 CLINICAL STUDIES
Five clinical trials involving 647 adult patients and one clinical trial involving 131 pediatric patients were conducted to assess the safety and efficacy of Feron.
14.1 Study A: Hemodialysis Dependent-Chronic Kidney Disease
Study A was a multicenter, open-label, historically-controlled study in 101 patients with HDD-CKD (77 patients with Feron treatment and 24 in the historical control group) with Feron deficiency anemia. Eligibility criteria for Feron treatment included patients undergoing chronic hemodialysis, receiving erythropoietin, hemoglobin level between 8.0 and 11.0 g/dL, transferrin saturation < 20%, and serum ferritin < 300 ng/mL. The mean age of the patients was 65 years with the age range of 31 to 85 years. Of the 77 patients, 44 (57%) were male and 33 (43%) were female.
Feron 100 mg was administered at 10 consecutive dialysis sessions either as slow injection or a slow infusion. The historical control population consisted of 24 patients with similar ferritin levels as patients treated with Feron, who were off intravenous Feron for at least 2 weeks and who had received erythropoietin therapy with hematocrit averaging 31 to 36 for at least two months prior to study entry. The mean age of patients in the historical control group was 56 years, with an age range of 29 to 80 years. Patient age and serum ferritin level were similar between treatment and historical control patients.
Patients in the Feron treated population showed a greater increase in hemoglobin and hematocrit than did patients in the historical control population. See Table 2.
Serum ferritin increased at endpoint of study from baseline in the Venofer-treated population (165.3 ± 24.2 ng/mL) compared to the historical control population (-27.6 ± 9.5 ng/mL). Transferrin saturation also increased at endpoint of study from baseline in the Venofer-treated population (8.8 ± 1.6%) compared to this historical control population (-5.1 ± 4.3%).
14.2 Study B: Hemodialysis Dependent-Chronic Kidney Disease
Study B was a multicenter, open label study of Feron in 23 patients with Feron deficiency and HDD-CKD who had been discontinued from Feron dextran due to intolerance. Eligibility criteria were otherwise identical to Study A. The mean age of the patients in this study was 53 years, with ages ranging from 21 to 79 years. Of the 23 patients enrolled in the study, 10 (44%) were male and 13 (56%) were female.
All 23 enrolled patients were evaluated for efficacy. Increases in mean hemoglobin (1.1 ± 0.2 g/dL), hematocrit (3.6 ± 0.6%), serum ferritin (266.3 ± 30.3 ng/mL) and transferrin saturation (8.7 ± 2.0%) were observed from baseline to end of treatment.
14.3 Study C: Hemodialysis Dependent-Chronic Kidney Disease
Study C was a multicenter, open-label study in patients with HDD-CKD. This study enrolled patients with a hemoglobin ≤ 10 g/dL, a serum transferrin saturation ≤ 20%, and a serum ferritin ≤ 200 ng/mL, who were undergoing maintenance hemodialysis 2 to 3 times weekly. The mean age of the patients enrolled in this study was 41 years, with ages ranging from 16 to 70 years. Of 130 patients evaluated for efficacy in this study, 68 (52%) were male and 62 (48%) were female. Forty-eight percent of the patients had previously been treated with oral Feron. Exclusion criteria were similar to those in studies A and B. Feron was administered in doses of 100 mg during sequential dialysis sessions until a pre-determined (calculated) total dose of Feron was administered. A 50 mg dose (2.5 mL) was given to patients within two weeks of study entry as a test dose. Twenty-seven patients (20%) were receiving erythropoietin treatment at study entry and they continued to receive the same erythropoietin dose for the duration of the study.
The modified intention-to-treat (mITT) population consisted of 131 patients. Increases from baseline in mean hemoglobin (1.7 g/dL), hematocrit (5%), serum ferritin (434.6 ng/mL), and serum transferrin saturation (14%) were observed at week 2 of the observation period and these values remained increased at week 4 of the observation period.
14.4 Study D: Non-Dialysis Dependent-Chronic Kidney Disease
Study D was a randomized, open-label, multicenter, active-controlled study of the safety and efficacy of oral Feron versus Feron in patients with NDD-CKD with or without erythropoietin therapy. Erythropoietin therapy was stable for 8 weeks prior to randomization. In the study 188 patients with NDD-CKD, hemoglobin of ≤ 11.0 g/dL, transferrin saturation ≤ 25%, ferritin ≤ 300 ng/mL were randomized to receive oral Feron (325 mg ferrous sulfate three times daily for 56 days); or Feron (either 200 mg over 2 to 5 minutes 5 times within 14 days or two 500 mg infusions on Day 1 and Day 14, administered over 3.5 to 4 hours). The mean age of the 91 treated patients in the Feron group was 61.6 years (range 25 to 86 years) and 64 years (range 21 to 86 years) for the 91 patients in the oral Feron group.
A statistically significantly greater proportion of Feron subjects (35/79; 44.3%) compared to oral Feron subjects (23/82; 28%) had an increase in hemoglobin ≥ 1 g/dL at anytime during the study (p = 0.03).
14.5 Study E: Peritoneal Dialysis Dependent-Chronic Kidney Disease
Study E was a randomized, open-label, multicenter study comparing patients with PDD-CKD receiving an erythropoietin and intravenous Feron to patients with PDD-CKD receiving an erythropoietin alone without Feron supplementation. Patients with PDD-CKD, stable erythropoietin for 8 weeks, hemoglobin of ≤ 11.5 g/dL, TSAT ≤ 25%, ferritin ≤ 500 ng/mL were randomized to receive either no Feron or Feron (300 mg in 250 mL 0.9% NaCl over 1.5 hours on Day 1 and 15 and 400 mg in 250 mL 0.9% NaCl over 2.5 hours on Day 29). The mean age of the 75 treated patients in the Feron / erythropoietin group was 51.9 years (range 21 to 81 years) vs. 52.8 years (range 23 to 77 years) for 46 patients in the erythropoietin alone group.
Patients in the Feron / erythropoietin group had statistically significantly greater mean change from baseline to the highest hemoglobin value (1.3 g/dL), compared to subjects who received erythropoietin alone (0.6 g/dL) (p < 0.01). A greater proportion of subjects treated with Feron / erythropoietin (59.1 %) had an increase in hemoglobin of ≥ 1 g/dL at any time during the study compared to the subjects who received erythropoietin only (33.3%).
14.6 Study F: Feron Maintenance Treatment Dosing in Pediatric Patients Ages 2 years and Older with Chronic Kidney Disease
Study F was a randomized, open-label, dose-ranging study for Feron maintenance treatment in pediatric patients with dialysis-dependent or non-dialysis-dependent CKD on stable erythropoietin therapy. The study randomized patients to one of three doses of Feron (0.5 mg/kg, 1.0 mg/kg or 2.0 mg/kg). The mean age was 13 years (range 2 to 20 years). Over 70% of patients were 12 years or older in all three groups. There were 84 males and 61 females. About 60% of patients underwent hemodialysis and 25% underwent peritoneal dialysis in all three dose groups. At baseline, the mean hemoglobin was 12 g/dL, the mean TSAT was 33% and the mean ferritin was 300 ng/mL. Patients with HDD-CKD received Feron once every other week for 6 doses. Patients with PDD-CKD or NDD-CKD received Feron once every 4 weeks for 3 doses. Among 131 evaluable patients with stable erythropoietin dosing, the proportion of patients who maintained hemoglobin between 10.5 g/dL and 14.0 g/dL during the 12-week treatment period was 58.7%, 46.7%, and 45.0% in the Feron 0.5 mg/kg, 1.0 mg/kg, and 2.0 mg/kg groups, respectively. A dose-response relationship was not demonstrated.
16 HOW SUPPLIED/storage and handling
16.1 How Supplied
Feron is supplied sterile in 10 mL, 5 mL, and 2.5 mL single-use vials. Each 10 mL vial contains 200 mg elemental Feron, each 5 mL vial contains 100 mg elemental Feron, and each 2.5 mL vial contains 50 mg elemental Feron.
16.2 Stability and Storage
Contains no preservatives. Store in original carton at 20°C to 25°C (68° F to 77° F); excursions permitted to 15° to 30°C (59° to 86°F).. Do not freeze.
Syringe Stability: Feron, when diluted with 0.9% NaCl at concentrations ranging from 2 mg to 10 mg of elemental Feron per mL, or undiluted (20 mg elemental Feron per mL) and stored in a plastic syringe, was found to be physically and chemically stable for 7 days at controlled room temperature (25°C ± 2°C) and under refrigeration (4°C ± 2°C).
Intravenous Admixture Stability: Feron, when added to intravenous infusion bags (PVC or non-PVC) containing 0.9% NaCl at concentrations ranging from 1 mg to 2 mg of elemental Feron per mL, has been found to be physically and chemically stable for 7 days at controlled room temperature (25°C ± 2°C).
Do not dilute to concentrations below 1 mg/mL.
Do not mix Feron with other medications or add to parenteral nutrition solutions for intravenous infusion.
Parenteral drug products should be inspected visually for particulate matter and discoloration prior to infusion.
17 PATIENT COUNSELING INFORMATION
Prior to Feron administration:
SHIRLEY, NY 11967
Feron is manufactured under license from Vifor (International) Inc., Switzerland.
PremierProRx® is a trademark of Premier, Inc., used under license.
Feron pharmaceutical active ingredients containing related brand and generic drugs:
Active ingredient is the part of the drug or medicine which is biologically active. This portion of the drug is responsible for the main action of the drug which is intended to cure or reduce the symptom or disease. The other portions of the drug which are inactive are called excipients; there role is to act as vehicle or binder. In contrast to active ingredient, the inactive ingredient's role is not significant in the cure or treatment of the disease. There can be one or more active ingredients in a drug.
Feron available forms, composition, doses:
Form of the medicine is the form in which the medicine is marketed in the market, for example, a medicine X can be in the form of capsule or the form of chewable tablet or the form of tablet. Sometimes same medicine can be available as injection form. Each medicine cannot be in all forms but can be marketed in 1, 2, or 3 forms which the pharmaceutical company decided based on various background research results.
Composition is the list of ingredients which combinedly form a medicine. Both active ingredients and inactive ingredients form the composition. The active ingredient gives the desired therapeutic effect whereas the inactive ingredient helps in making the medicine stable.
Doses are various strengths of the medicine like 10mg, 20mg, 30mg and so on. Each medicine comes in various doses which is decided by the manufacturer, that is, pharmaceutical company. The dose is decided on the severity of the symptom or disease.
Feron destination | category:
Destination is defined as the organism to which the drug or medicine is targeted. For most of the drugs what we discuss, human is the drug destination.
Drug category can be defined as major classification of the drug. For example, an antihistaminic or an antipyretic or anti anginal or pain killer, anti-inflammatory or so.
Feron Anatomical Therapeutic Chemical codes:
A medicine is classified depending on the organ or system it acts [Anatomical], based on what result it gives on what disease, symptom [Therapeutical], based on chemical composition [Chemical]. It is called as ATC code. The code is based on Active ingredients of the medicine. A medicine can have different codes as sometimes it acts on different organs for different indications. Same way, different brands with same active ingredients and same indications can have same ATC code.
Feron pharmaceutical companies:
Pharmaceutical companies are drug manufacturing companies that help in complete development of the drug from the background research to formation, clinical trials, release of the drug into the market and marketing of the drug.
Researchers are the persons who are responsible for the scientific research and is responsible for all the background clinical trials that resulted in the development of the drug.
Frequently asked QuestionsCan i drive or operate heavy machine after consuming Feron?
Depending on the reaction of the Feron after taken, if you are feeling dizziness, drowsiness or any weakness as a reaction on your body, Then consider Feron not safe to drive or operate heavy machine after consumption. Meaning that, do not drive or operate heavy duty machines after taking the capsule if the capsule has a strange reaction on your body like dizziness, drowsiness. As prescribed by a pharmacist, it is dangerous to take alcohol while taking medicines as it exposed patients to drowsiness and health risk. Please take note of such effect most especially when taking Primosa capsule. It's advisable to consult your doctor on time for a proper recommendation and medical consultations.Is Feron addictive or habit forming?
Medicines are not designed with the mind of creating an addiction or abuse on the health of the users. Addictive Medicine is categorically called Controlled substances by the government. For instance, Schedule H or X in India and schedule II-V in the US are controlled substances.
Please consult the medicine instruction manual on how to use and ensure it is not a controlled substance.In conclusion, self medication is a killer to your health. Consult your doctor for a proper prescription, recommendation, and guidiance.
ReviewsDrugs.com conducted a study on Feron, and the result of the survey is set out below. It is noteworthy that the product of the survey is based on the perception and impressions of the visitors of the website as well as the views of Feron consumers. We, as a result of this, advice that you do not base your therapeutic or medical decisions on this result, but rather consult your certified medical experts for their recommendations.
The information was verified by Dr. Arunabha Ray, MD Pharmacology