Ferrous sulfate 650 mg

Ferrous sulfate 650 mg DEFAULT

Fatal overdose of iron tablets in adults

1. Henretig FM, Temple AR. Acute iron poisoning in children. Emerg Med Clin North Am. ;– [PubMed] [Google Scholar]

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Sours: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC/

Iron Deficiency Anemia: A Closer Look

US Pharm. ;32(8):HSHS

Iron deficiency anemia, a microcytic anemia, is the most prevalent deficiency condition in the world. It occurs when iron deficiency is so severe that it diminishes erythropoiesis (production of red blood cells), causing anemia. In healthy people, absorptive cells in the proximal small intestine, which changes iron absorption to match loss of iron in the body, carefully regulate iron concentration in the body.1

Iron deficiency anemia affects an individual's ability to perform physical activities and impairs growth and learning in children. In general, iron imbalance leads to either iron deficiency anemia or hemosiderosis; both are disorders with potential adverse consequences.

Diet and socioeconomic factors have an important role in iron deficiency, and, as a result, it is more commonly observed in people of various racial backgrounds living in poorer areas of the world.

Chronic iron deficiency anemia is rarely a direct cause of death; however, moderate or severe iron deficiency anemia can produce sufficient hypoxia to aggravate underlying pulmonary and cardiovascular disorders.1

Pharmacists have an important role in consulting with patients about different OTC iron products and can refer patients to a clinician to further diagnose the underlying causes if signs and symptoms of severe anemia are observed.

Iron deficiency develops in several stages. In the first stage, body iron requirement exceeds iron intake, causing progressive depletion of bone marrow iron stores. As iron reservoirs decrease, compensatory increases in absorption of dietary iron occur. During later stages, deficiency is severe enough to impair red blood cell biosynthesis, leading to anemia. Iron deficiency, if severe and prolonged, may cause dysfunction of iron-containing cellular enzymes, which may contribute to fatigue and loss of stamina via mechanisms independent of the anemia itself. 2

Iron deficiency anemia must be differentiated from other types of microcytic anemia, such as anemia caused by deficient erythropoiesis or decreased red blood cell production due to other underlying causes. If tests exclude iron deficiency in a patient with microcytic anemia, then anemia of chronic disease, structural hemoglobin abnormalities (e.g., hemoglobinopathies), and congenital red blood cell membrane abnormalities are considered. Clinical laboratory studies of hemoglobin electrophoresis and HbA 2, as well as genetic testing (e.g., alpha-thalassemia), may help distinguish these entities.2

When iron deficiency anemia is suspected in patients with chronic blood loss or microcytic anemia, complete blood count (CBC), serum iron, iron-binding capacity (transferrin), and serum ferritin are measured. Serum iron concentration is typically low in patients with iron deficiency or chronic diseases and elevated in patients with hemolytic disorders and iron-overload syndromes. Usually, serum iron and iron-binding capacity are both tested, because their relationship is important; iron-binding capacity increases in iron deficiency. Iron deficiency in the absence of anemia is asymptomatic.2

Among healthy individuals, serum iron levels are 75 to mcg/dL in men and 60 to mcg/dL in women; total iron-binding capacity is to mcg/dL. Patients taking oral iron may have normal serum iron despite a deficiency; in these cases, a valid test requires cessation of iron therapy for 24 to 48 hours. Serum ferritin concentrations closely correlate with total body iron stores. The normal range in most laboratories is 30 to ng/mL; the mean serum ferritin level is 88 ng/mL in men and 49 ng/mL in women. Low concentrations (<12 ng/mL) are specific for iron deficiency.

Iron deficiency anemia is primarily a laboratory diagnosis, and, therefore, a carefully obtained patient history will normally lead to its recognition. The history can be useful in establishing the etiology of the anemia and estimating its duration.

Vegetarians are more likely to develop iron deficiency, unless their diet is supplemented with iron. National programs of dietary iron supplementation are initiated in many areas of the world where meat is sparse and iron deficiency anemia is prevalent.

In addition to the usual manifestations of anemia, some uncommon symptoms occur in severe iron deficiency; a patient may have pica, a compulsive eating of or craving for nonnutritive substances (e.g., ice, dirt, paint). Clay eating, specifically, may help the diagnosis.3

Body Iron Requirement
Total body iron is about g in healthy men and g in healthy women; the difference between men and women relates to body size, lower androgen levels, and the dearth of stored iron in women due to menses- and pregnancy-associated iron loss. The distribution of body iron in an average man is 2, mg in hemoglobin, mg in myoglobin, mg in tissue (heme and nonheme) enzymes, and 3 mg in transport-iron compartment. Iron is stored in cells and plasma as ferritin ( mg) and hemosiderin ( mg).4

It is important to maintain equilibrium between iron absorption and iron loss in the body to ensure multiple metabolic processes, such as oxygen transport, DNA synthesis, and electron transport. On a day-to-day basis, the body absorbs more iron than it loses; therefore, loss of body iron is a more passive process than absorption. It is important to remember that consistent errors in maintaining this equilibrium lead to either iron deficiency or iron overload.

The average American diet, which contains 6 mg of elemental iron per kcal of food, is adequate for iron homeostasis. Of about 15 mg per day of dietary iron, adults absorb only 1 mg, which is the approximate amount lost daily by cell destruction. In iron depletion, absorption increases, although the exact signaling mechanism is unknown; however, absorption rarely increases to more than 6 mg per day unless supplemental iron is added. Children have a greater need for iron and appear to absorb more to meet this need.

Iron is absorbed in the proximal small intestine. Iron uptake occurs by three separate pathways: the heme pathway and two separate pathways for ferric and ferrous iron. Ferric iron utilizes a different pathway to enter cells than does ferrous iron. Which pathway transports the most nonheme iron in humans is unknown. Most nonheme dietary iron is ferric iron. Heme and nonheme iron uptake by intestinal absorptive cells is noncompetitive.

Iron from the intestinal mucosal cell is transferred to transferrin, an iron-transport protein synthesized in the liver; transferrin can transport iron from cells (intestinal, macrophages) to specific receptors on erythroblasts, placental cells, and liver cells. For heme synthesis, transferrin transports iron to the erythroblast mitochondria, which insert the iron into protoporphyrin for it to become heme. Transferrin (plasma half-life, eight days) is recycled for reutilization. Synthesis of transferrin increases with iron deficiency but decreases with any type of chronic disease.

Absorption of iron is determined by the type of iron molecule and by other substances that are ingested. Iron absorption is best when food contains heme iron (e.g., meat). Dietary nonheme iron must be reduced to the ferrous state and released from food binders by gastric secretions. Nonheme iron absorption is reduced by other food items (e.g., vegetable fiber phytates and polyphenols; tea tannates, including phosphoproteins; bran) and certain antibiotics (e.g., tetracycline). Table 1 lists common food sources of iron. Ascorbic acid is the only common food element known to increase nonheme iron absorption. Heme and nonheme iron are absorbed into the enterocyte noncompetitively.4,5

Because iron absorption is so limited, the body recycles and conserves iron. Transferrin grasps and recycles available iron from aging red blood cells undergoing phagocytosis by mononuclear phagocytes. This mechanism provides about 97% of the daily iron needed (~25 mg iron). Iron stores tend to increase as age increases, because iron elimination slows down.

Causes of Iron Deficiency
Two thirds of body iron is present in circulating red blood cells as hemoglobin. One gram of hemoglobin contains mg of iron; thus, 1 mL of blood lost from the body (hemoglobin, 15 g/dL) results in a loss of mg of iron. Bleeding is the most common cause of iron deficiency in the UnitedStates and Europe.6

Iron deficiency caused solely by diet is uncommon in adults in countries where meat is an important part of the diet. Depending upon the criteria used for the diagnosis of iron deficiency, approximately 4% to 8% of premenopausal women are iron deficient. In countries where little meat is consumed, iron deficiency anemia is six to eight times more prevalent than in the UnitedStates and Europe. This occurs despite consumption of a diet that contains an equivalent amount of total dietary iron, because heme iron is absorbed better from the diet than nonheme iron. In certain geographic areas, intestinal parasites, particularly hookworm, worsen iron deficiency due to blood loss in the gastrointestinal tract. Anemia is more profound among children and premenopausal women in these environs.1,6

Because the average woman eats less than the average man does, she must be more than twice as efficient in absorbing dietary iron in order to maintain equilibrium and avoid developing iron deficiency anemia. A woman loses about mg of iron with each pregnancy. Menstrual iron loss is highly variable, ranging from 10 to mL ( mg of iron) per period. Menstrual iron loss doubles the need for women to absorb iron, compared with men.

Healthy men lose body iron in sloughed epithelium, in secretions from the skin and gut lining, and from small, daily loss of blood from the gastrointestinal tract ( mL of blood daily); cumulatively, this amounts to 1 mg of iron. Men with severe siderosis from blood transfusions can lose a maximum of 4 mg daily via these routes without additional blood loss.

Healthy newborn infants have a total body iron level of mg (80 ppm), which is obtained from maternal sources. Infants consuming cow's milk have a greater incidence of iron deficiency, because bovine milk has a higher concentration of calcium, which competes with iron for absorption. Subsequently, growing children must obtain approximately mg more iron than is lost daily in order to maintain a normal body concentration of 60 ppm.

Prolonged achlorhydria may produce iron deficiency because acidic conditions are required to release ferric iron from food. Then, it can be chelated with mucins and other substances (e.g., sugars, amino acids, amides) to keep it soluble and available for absorption in the more alkaline duodenum.6,7

Laboratory Tests
The severity of the anemia can be documented by a CBC. In chronic iron deficiency anemia, the cellular indices show a microcytic and hypochromic erythropoiesis; both the mean corpuscular volume (MCV) and mean corpuscular hemoglobin concentration (MCHC) have values below the normal range for the laboratory performing the test. Reference range values for the MCV and MCHC are 83 g/dL to 97 g/dL and 32 g/dL to 36 g/dL, respectively. Often, the platelet count is elevated (>,/mcL); this normalizes following iron therapy. The white blood cell count is usually within reference ranges (4,,/mcL).8

If a CBC is obtained after blood loss, the cellular indices do not enter the abnormal range until most of the erythrocytes produced before the bleeding are destroyed at the end of their normal lifespan ( days).

Examination of the peripheral smear is an important part of the workup of patients with anemia. Examination of the erythrocytes shows microcytic and hypo­ chromic red blood cells in chronic iron deficiency anemia. The microcytosis is apparent in the smear long before the MCV is decreased following an event that produces iron deficiency. Platelets are usually increased in this disorder.

A bone marrow aspirate can be used to diagnose iron deficiency. The absence of stainable iron in a bone marrow aspirate that contains spicules and the presence of stainable iron in a simultaneous control specimen permit establishment of a diagnosis of iron deficiency without other laboratory tests.

Other laboratory tests are useful to establish the etiology of iron deficiency anemia and to exclude or establish a diagnosis of one of the other microcytic anemias.9

Iron therapy without pursuit of the cause of iron deficiency is a poor practice. The response to treatment is assessed by serial hemoglobin measurements until normal red blood cell values are achieved. Hemoglobin rises slightly for two weeks, then rises by to 1 g per week until near normal, at which time rate of increase tapers. The normal range is mcg/mL to mcg/mL. Normally, anemia should be corrected within two months. A subnormal response suggests continued hemorrhage, underlying infection or malignancy, insufficient intake of iron, or very rarely, malabsorption of oral iron. The most sensitive and specific criterion for iron-deficient erythropoiesis, however, is absent marrow stores of iron, although a bone marrow examination is rarely needed. During iron therapy, the anemia and iron panels need to be monitored.8

Iron supplements are used to provide adequate iron for hemoglobin synthesis and to replenish body stores of iron. Recommended dosages of iron are administered prophylactically during pregnancy due to anticipated requirements of the fetus and iron loss that occurs during delivery.10

Oral Iron Products
The most economical and effective medication in the treatment of iron deficiency anemia is oral ferrous iron salts. Among the various iron salts, ferrous sulfate is used most commonly. However, claims have been made that other iron salts are absorbed better and have less morbidity. Generally, the toxicity is proportional to the amount of iron available for absorp­ tion. If the quantity of iron in the test dose is decreased, the percentage of the test dose absorbed is increased, but the quantity of iron absorbed is diminished.

Iron can be provided by various iron salts (e.g., ferrous sulfate, gluconate, fumarate) or by saccharated iron given 30 minutes before meals (food or antacids may reduce absorption). A typical initial dosage is 60 mg of elemental iron (i.e., mg of ferrous sulfate) given one or two times per day. Larger doses are unabsorbed and increase the occurrence of adverse effects, especially dark stool, constipation, and nausea. Ascorbic acid, in the form of a pill ( mg) or orange juice, enhances iron absorption without increasing gastric distress when taken with iron.10 The elemental iron content of various iron salts is listed in Table 2.

For adults, the recommended daily dosage of oral iron products is 2 to 3 mg/kg of elemental iron (divided into three doses). For slow-release tablets, the recommended dosage is 50 to mg of elemental iron per day.

Recommended dosages in infants and children vary according to age. For premature infants, the recommended dosage is 2 to 4 mg/kg per day of elemental iron (one dose; if not tolerated, then divided into two doses), with a maximum dosage of 15 mg per day. For full-term infants and children, the recommended dosage is 3 to 6 mg/kg per day of elemental iron (one dose; if not tolerated, then divided into two or three doses). When it is used as prophylaxis, premature infants should receive 2 mg/kg elemental iron (one dose; if not tolerated, then divided into two or three doses), with a maximum dosage of 15 mg per day; full-term infants should receive 1 to 2 mg/kg of elemental iron per day (one dose; if not tolerated, then divided into two or three doses), with a maximum of 15 mg per day.

The recommended dietary allowance is 8 mg per day in men, 18 mg per day in women ages 19 to 50, 8 mg per day in women ages 51 and older, 27 mg/day in women who are pregnant, and 9 mg per day in women ages 18 and older who are lactating.

Parenteral Iron Products
Parenteral iron causes the same therapeutic response as oral iron but can cause adverse effects, such as anaphylactoid reactions, serum sickness, thrombo­ phle­ bitis, and pain. It is reserved for patients who cannot tolerate or will not take oral iron or for patients who steadily lose large amounts of blood because of capillary or vascular disorders. A hematologist can determine the proper dosage of parenteral iron. To replenish tissue stores, oral or parenteral iron therapy should continue for six months or longer after correcting hemoglobin levels. It is important to remember that parenteral iron therapy is expensive and has greater morbidity than oral preparations of iron.

Iron Dextran (Dexferrum, Infed; 50 mg/mL): The recommended daily dose of iron dextran for adults who weigh more than 50 kg is mg per day. The recommended daily dose of iron dextran for children between 5 to 15 kg is 50 mg per day and for those 15 to 50 kg is mg per day.11

A test dose of mL (25 mg) is required prior to the first therapeutic dose. At least one hour should elapse after the test dose before the therapeutic dose is given intravenously. The test dose must be administered slowly over at least five minutes. Hemoglobin, hematocrit, serum iron, total iron-binding capacity, saturation percentage of transferrin, reticulocyte count, and blood pressure should be carefully monitored. Iron dextran is a complex of ferric oxyhydroxide and a polyglucose that restores hemoglobin and depleted iron through the action of its iron component, which forms hemosiderin or ferritin and transferrin by binding to protein moieties.

Iron Sucrose (Venofer, 20 mg/mL): The dosage of iron sucrose for adults with chronic renal impairment who are receiving erythropoietin is mg per consecutive hemodialysis session. The bolus dose is given as an undiluted solution of to mg over two to five minutes. The infusion is given as mg diluted in % normal saline ( mL) over 15 minutes.10,11

Hemoglobin, hematocrit, serum ferritin, transferrin saturation, and blood pressure should be monitored. Iron sucrose dissociates to its iron and sucrose components where it increases iron and ferritin levels and decreases total iron-binding capacity. Transfusion of packed red blood cells should be reserved for patients with significant acute bleeding or for those in danger of hypoxia and/or coronary insufficiency.

Iron deficiency is the most common cause of anemia. Iron is needed by the human body to form hemoglobin.

Iron deficiency can usually be corrected with proper diet, iron supplementation, and pharmacotherapy. Oral iron ferrous salts and, in severe cases, parenteral iron complexes can be given to provide adequate iron for hemoglobin synthesis. Sometimes, additional treatments are necessary, especially if there are other reasons for iron deficiency anemia.

1. Centers for Disease Control and Prevention. Iron deficiency-United States, MMWR Morb Mortal Wkly Rep. ;
2. Cook JD. Diagnosis and management of iron-deficiency anaemia. Best Pract Res Clin Haematol . ;
3. Cook JD. Newer aspects of the diagnosis and treatment of iron deficiency. American Society of Hematology Educational Program Book.
4. Looker AC, Dallman PR, Carrol MD, et al. Prevalence of iron deficiency in the United States. JAMA. ;
5. Hallberg L, Brune M, Rossander L. Effect of ascorbic acid on iron absorption from different types of meals. Studies with ascorbic-acid-rich foods and synthetic ascorbic acid given in different amounts with different meals. Hum Nutr Appl Nutr. ;
6. Duffy T. Microcytic and hypochromic anemias. In: Cecil RL, Goldman L, Ausiello DA. Cecil Textbook of Medicine. 22nd ed. Philadelphia, Pa: Saunders;
7. Iron-deficiency anemia. In: Hillman RS, Ault KA. Hematology in Clinical Practice. 3rd ed. New York, NY: McGraw-Hill;
8. Conrad ME. Iron deficiency anemia. Availble at: www.emedicine.com/med/topichtm. Accessed June 10,
9. The Merck Manuals Online Medical Library. Iron Deficiency Anemia. Available at: www.merck.com/mmpe/sec11/ch/chb.html. Accessed May 27,
Micromedex Healthcare Series, Thomson Healthcare Inc.
Barton JC, Barton EH, Bertoli LF, et al. Intravenous iron dextran therapy in patients with iron deficiency and normal renal function who failed to respond to or did not tolerate oral iron supplementation. Am J Med. ;
Ohio State University Extension fact sheet: human nutrition. Available at: ohioline.osu.edu/hyg-fact//html. Accessed July 13,

To comment on this article, contact [email protected]


Sours: https://www.uspharmacist.com/article/iron-deficiency-anemia-a-closer-look
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Ferrous sulfate for iron-deficiency anaemia

This leaflet is about the use of ferrous sulfate (ferrous sulphate), which is a form of iron, for the prevention or treatment of iron-deficiency anaemia.

Information Standard quality markThis leaflet has been written specifically for parents and carers about the use of this medicine in children. The information may differ from that provided by the manufacturer. Please read this leaflet carefully. Keep it somewhere safe so that you can read it again.

Do not give ferrous sulfate to your child unless a doctor has told you to. If your child’s anaemia is not due to an iron deficiency, they could end up with too much iron, which can be dangerous.

Name of drug

Ferrous sulfate (ferrous sulphate)
Brand name: Ironorm® Drops

Why is it important for my child to take this medicine?

Anaemia is a blood condition where there is a lack of a protein called haemoglobin. Haemoglobin is needed to carry oxygen in the blood and transport it around the body.

Children with anaemia are often pale, feel tired, have little energy, and may not grow or develop properly.

Ferrous sulfate is a form of iron that can be taken by mouth. It helps the body to make more haemoglobin and so treat the anaemia. It can also be used to prevent anaemia in children who are at risk of it or, for example, before surgery.

What is ferrous sulfate available as?

  • Tablets: mg (65 mg of iron)
  • Oral drops: mg (25 mg of iron) in 1 mL

When should I give ferrous sulfate?

This depends on whether it is being used to prevent or treat anaemia. Your doctor will tell you how often to give ferrous sulfate.

If ferrous sulfate is being used to prevent anaemia, it is usually given once each day. This can be in the morning OR the evening.

If ferrous sulfate is being used to treat anaemia, it is usually given twice or three times each day.

  • Twice a day: this should be once in the morning and once in the evening. Ideally, these times are 10–12 hours apart, for example some time between 7 and 8 am, and between 7 and 8 pm.
  • Three times a day: this should be once in the morning, once in the early afternoon and once in the evening. Ideally, these times are at least 6 hours apart, for example 8 am, 2 pm and 8 pm.

Give the medicine at about the same time(s) each day so that this becomes part of your child’s daily routine, which will help you to remember.

How much should I give?

Your doctor will work out the amount of ferrous sulfate (the dose) that is right for your child. The dose will be shown on the medicine label. The dose may be given as a number of drops or as millilitres (mL).

It is important that you follow your doctor’s instructions about how much to give.

How should I give it?

TabletsTablets should be swallowed with a glass of water or juice, but not milk. Your child should not chew the tablet. Do not crush these tablets.

Medicine for oral dropsOral drops: Measure out the right amount (you will be told this in either drops or mL) from the dropper bottle or by using an oral syringe. You can get these from your pharmacist. Do not use a kitchen teaspoon as it will not give the right amount.

Ferrous sulfate works best when given on an empty stomach. Try to give it 30 minutes before or 2 hours after food. However, if this upsets your child’s stomach, you can give it with a little food.

When should the medicine start working?

Ferrous sulfate takes some time to work. If it is being used to treat anaemia, you might notice an improvement in your child when they have been taking the medicine for 3–4 weeks. They may be less pale, have more energy and have less shortness of breath. Your child will need to take ferrous sulfate regularly for at least 3 months for it to have its full benefits. If your child is taking ferrous sulfate to prevent anaemia, you will not see any difference in your child, but the medicine will still be working to improve your child’s levels of iron and stop them getting anaemia.

What if my child is sick (vomits)?

  • If your child is sick less than 30 minutes after having a dose of ferrous sulfate, give them the same dose again.
  • If your child is sick more than 30 minutes after having a dose of ferrous sulfate, you do not need to give them another dose. Wait until the next normal dose.

What if I forget to give it?

  • If you usually give it once a day: Give the missed dose when you remember, as long as this is at least 12 hours before the next dose is due. You do not need to wake up a sleeping child to give a missed dose.
  • If you usually give it twice a day: If you remember up to 4 hours after you should have given a dose, give your child the missed dose. For example, if you usually give a dose at about 7 am, you can give the missed dose at any time up to 11 am. If you remember after that time, do not give the missed dose. Give the next dose as usual.
  • If you usually give it three times a day: Do not give the missed dose. Just give the next dose as usual.

Never give a double dose of ferrous sulfate. If you are not sure whether to give a missed dose, don’t give it. Giving an extra dose of ferrous sulfate by mistake is more likely to do harm than missing a dose.

What if I give too much?

It may be dangerous to give too much ferrous sulfate. Never give your child more than the doctor has advised. 

If your child has one or more of the following symptoms, they may have had too much ferrous sulfate:

  • stomach pains
  • being repeatedly sick (vomiting)
  • diarrhoea
  • their vomit or stools (poo) are blood stained, or green or grey.

Children who have had too much ferrous sulfate might not show any symptoms or only have mild symptoms. If you think your child has had too much ferrous sulfate, contact your doctor or NHS Direct ( in England and Wales; 24 24 24 in Scotland) or take your child to hospital.

If your child appears very unwell or drowsy call for an ambulance straight away.

Take the medicine container or packaging with you, even if it is empty. This will be useful to the doctor. Have the medicine or packaging with you if you telephone for advice.

Are there any possible side-effects?

We use medicines to make our children better, but sometimes they have other effects that we don’t want (side-effects).

  • Your child may feel sick or be sick. It may help to give ferrous sulfate after some food.
  • Your child might get indigestion, constipation (difficulty doing a poo) or diarrhoea/loose stools (poo).
  • If these side-effects are a problem or do not wear off, contact your doctor or pharmacist, as they may suggest a different iron preparation or a lower dose. Do not reduce the dose without discussing with your doctor first.

There may, sometimes, be other side-effects that are not listed above. If you notice anything unusual and are concerned, contact your doctor.

Can other medicines be given at the same time as ferrous sulfate?

  • You can give your child medicines that contain paracetamol or ibuprofen, unless your doctor has told you not to.
  • Ferrous sulfate should not be taken with some medicines that you get on prescription. Tell your doctor and pharmacist about any other medicines your child is taking before giving ferrous sulfate.
  • If your child needs to take any medicines for indigestion, do not give these with ferrous sulfate. Give the two medicines at different times of the day.
  • Check with your doctor or pharmacist before giving any other medicines to your child, other products that contain iron, and any products that contain zinc or magnesium. This includes multivitamin preparations and herbal or complementary medicines.

Is there anything else I need to know about this medicine?

  • The packaging for ferrous sulfate may include the warning, ‘Important warning: Contains iron. Keep out of the reach and sight of children, as overdose may be fatal’. However, iron is not harmful when given in the amounts recommended by your doctor. You must not give your child more than this.

Keep ferrous sulfate out of the reach of young children.

  • Your child’s stool (poo) may appear darker than usual while taking ferrous sulfate. This is very common and you do not need to worry about it. However, if you are concerned, your pharmacist or doctor will be able to give you more advice.
  • Your doctor will do blood tests to measure how much iron is in your child’s blood and to make sure that the medicine is working.
  • Separate leaflets on other medicines containing iron for the treatment and prevention of anaemia are available on www.medicinesforchildren.org.uk

General advice about medicines

  • Try to give medicines at about the same times each day, to help you remember.
  • If you are not sure a medicine is working, contact your doctor but continue to give the medicine as usual in the meantime. Do not give extra doses, as you may do harm.
  • Only give this medicine to your child. Never give it to anyone else, even if their condition appears to be the same, as this could do harm.

If you think someone else may have taken the medicine by accident, contact your doctor straight away.

  • Make sure that you always have enough medicine. Order a new prescription at least 2 weeks before you will run out.
  • Make sure that the medicine you have at home has not reached the ‘best before’ or ‘use by’ date on the packaging. Give old medicines to your pharmacist to dispose of.

Where I should keep this medicine?

  • Keep the medicine in a cupboard, away from heat and direct sunlight. It does not need to be kept in the fridge.
  • Make sure that children cannot see or reach it.
  • Keep the medicine in the container it came in.

Who to contact for more information

Your doctor, pharmacist or nurse will be able to give you more information about ferrous sulfate and about other medicines used to treat iron-deficiency anaemia.

Sours: https://www.medicinesforchildren.org.uk/ferrous-sulfate-iron-deficiency-anaemia

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650 mg sulfate ferrous

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Iron Tablets - How To Take Iron Tablets - How To Reduce Iron Supplement Side Effects (2018)

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