# Iron Citrate Malate **Canonical URL:** https://ingredients.hermeticasuperfoods.com/ingredients/iron-citrate-malate **Data Source:** Hermetica Superfoods Ingredient Encyclopedia **Updated:** 2026-04-04 **Evidence Score:** 2 / 10 **Category:** Mineral **Also Known As:** ICM, Iron chelate citrate malate, Ferric citrate malate, Ferrous citrate malate, Iron citrate-malate complex, Chelated iron citrate malate, Iron(II) citrate malate, Iron(III) citrate malate ## Overview Iron citrate malate is a chelated iron compound combining ferric or ferrous iron with citric acid and malic acid ligands, designed to enhance solubility and bioavailability. The chelation prevents iron precipitation at neutral pH by coordinating iron ions through carboxylate and hydroxyl groups, potentially improving absorption in the small intestine compared to inorganic iron salts. ## Health Benefits • May support iron status as an anti-anemic agent (evidence: preclinical/biochemical only) • Potentially enhances iron bioavailability through chelation preventing precipitation at pH 7 (evidence: biochemical studies) • Could provide more soluble iron compared to basic iron salts (evidence: chemical characterization) • May offer better gastrointestinal tolerability than ferrous sulfate (evidence: theoretical based on chelation) • Possible phosphate-binding properties in kidney disease (evidence: ferric citrate RCT PMID 23615368, n=441) ## Mechanism of Action Iron citrate malate delivers iron via divalent metal transporter 1 (DMT1) in duodenal enterocytes, with the citrate and malate ligands maintaining iron solubility at intestinal pH 6–7.4 by forming stable coordination complexes that resist hydroxide-driven precipitation. The organic acid ligands may be cleaved by intestinal mucosal enzymes or low luminal pH, liberating free ferrous (Fe²⁺) or ferric (Fe³⁺) iron for reduction by duodenal cytochrome B (Dcytb) and subsequent DMT1-mediated uptake. Citrate additionally acts as a weak iron chelator in plasma, potentially facilitating transfer to transferrin for systemic distribution. ## Clinical Summary Evidence for iron citrate malate is currently limited to biochemical and preclinical studies, with no large-scale randomized controlled trials in humans published to date. In vitro solubility assays demonstrate superior iron retention in solution at pH 7 compared to ferrous sulfate and ferric oxide, suggesting a pharmacokinetic advantage. Animal models of iron-deficiency anemia have shown hemoglobin repletion comparable to ferrous sulfate at equivalent elemental iron doses, though interspecies extrapolation limits conclusions. Human bioavailability data remain absent from the peer-reviewed literature, meaning efficacy claims as an anti-anemic agent in clinical populations are not yet substantiated. ## Nutritional Profile Iron Citrate Malate is a chelated iron complex combining ferric iron (Fe³⁺) with citric acid and malic acid ligands, typically providing approximately 15–24% elemental iron by weight depending on the specific stoichiometric ratio of the complex. The chelation of iron with both citrate and malate anions maintains iron solubility across a wide pH range (including near-neutral pH ~7), which significantly enhances bioavailability compared to simple ferric salts like ferric pyrophosphate or ferric oxide. Estimated relative bioavailability is approximately 2–4× greater than ferric pyrophosphate, though somewhat lower than ferrous sulfate in direct absorption; however, the chelated form resists precipitation in the intestinal lumen, allowing more sustained absorption. Contains no significant macronutrients, vitamins, or fiber—it is purely a mineral delivery vehicle. The citrate and malate ligands themselves contribute negligible caloric value (<1 kcal per typical dose). Typical supplemental doses deliver 14–30 mg elemental iron per serving. The compound is generally classified as a food-grade iron fortificant and is used in both supplements and fortified foods (e.g., infant cereals, beverages). ## Dosage & Preparation No clinically studied dosage ranges are documented for Iron Citrate Malate. General iron chelates like ferric citrate use 1-2 g/day (providing ~210 mg elemental iron) in CKD contexts, but this lacks direct RCT support for citrate-malate combinations. Commercial forms typically contain 18-20% elemental iron. Consult a healthcare provider before starting any new supplement. ## Safety & Drug Interactions Iron citrate malate shares the general side effect profile of oral iron supplements, including constipation, nausea, epigastric discomfort, and dark stools, particularly at doses exceeding 45 mg elemental iron per day. It should not be co-administered with fluoroquinolone or tetracycline antibiotics, levothyroxine, or levodopa, as iron chelates these drugs and reduces their oral bioavailability by up to 50–90%. Patients with hemochromatosis, hemosiderosis, or other iron-overload conditions are contraindicated for supplementation without medical supervision. Pregnancy safety mirrors other iron supplements—supplemental iron is recommended during pregnancy for deficiency correction, but doses above the tolerable upper intake level of 45 mg/day elemental iron carry risk of [oxidative stress](/ingredients/condition/antioxidant) and should be physician-directed. ## Scientific Research No specific human clinical trials, RCTs, or meta-analyses were found for Iron Citrate Malate as a distinct supplement form. The only related clinical evidence comes from ferric citrate studies for hyperphosphatemia in dialysis patients (PMID 23615368, n=441), which showed reduced serum phosphate but was not studying iron supplementation or bioavailability. ## Historical & Cultural Context Iron Citrate Malate has no documented traditional medicine use as it is a modern synthetic chelate. The compound mimics natural iron-citrate complexes that aid soil iron solubilization by plant roots and microbes, a biochemical process studied since the mid-20th century but not part of traditional healing systems. ## Synergistic Combinations Pairs excellently with Vitamin C (ascorbic acid, 50–200 mg), which acts as a reducing agent converting Fe³⁺ to Fe²⁺ at the brush border membrane, dramatically enhancing duodenal iron absorption via DMT1 transporter by 2–6 fold. Lactoferrin (100–200 mg) synergizes by binding free iron in the gut, facilitating receptor-mediated uptake via lactoferrin receptors on enterocytes while simultaneously reducing [oxidative stress](/ingredients/condition/antioxidant) from free iron and improving gastrointestinal tolerability. Vitamin B12 (methylcobalamin, 500–1000 mcg) and Folate (5-MTHF, 400–800 mcg) are critical co-factors for erythropoiesis—iron provides the heme component while B12 and folate support DNA synthesis in rapidly dividing erythroid precursors, making this trio essential for resolving anemia. Vitamin A (retinol/beta-carotene, 700–900 mcg RAE) further enhances iron utilization by mobilizing iron from hepatic stores and supporting erythropoietin signaling, with studies showing combined iron–vitamin A supplementation improves hemoglobin status more than iron alone. ## Frequently Asked Questions ### What is iron citrate malate and how is it different from ferrous sulfate? Iron citrate malate is a chelated iron compound where iron ions are coordinated by citrate and malate organic acid ligands, forming a stable complex. Unlike ferrous sulfate, which precipitates as ferric hydroxide above pH 5, iron citrate malate remains soluble at neutral intestinal pH (6–7.4), theoretically improving the fraction of iron available for absorption through DMT1 transporters in the duodenum. ### Is iron citrate malate better absorbed than other forms of iron? Biochemical data suggest iron citrate malate maintains greater solubility at physiological pH than inorganic iron salts, which is a prerequisite for intestinal absorption. However, no published human clinical trials have directly compared its fractional absorption or hemoglobin response to ferrous sulfate or ferric pyrophosphate in iron-deficient subjects, so a definitive bioavailability ranking cannot be made from current evidence. ### What dose of iron citrate malate is typically used? No standardized clinical dosing protocol exists for iron citrate malate due to the absence of human trial data. General supplemental iron guidelines target 18–27 mg elemental iron daily for maintenance and 100–200 mg elemental iron daily for treating iron-deficiency anemia, doses that would be extrapolated to iron citrate malate based on its elemental iron content, which must be confirmed on the product label. ### Can iron citrate malate cause constipation or stomach upset? Like all oral iron preparations, iron citrate malate carries risk of gastrointestinal side effects including constipation, nausea, cramping, and dark stools, particularly at doses above 45 mg elemental iron per day. The chelated organic acid form may theoretically reduce GI irritation compared to ionic ferrous sulfate—a property observed with some other chelated iron forms—but this has not been confirmed in controlled human studies for iron citrate malate specifically. ### Does iron citrate malate interact with any medications? Yes, iron citrate malate can chelate and significantly reduce the absorption of fluoroquinolone antibiotics (e.g., ciprofloxacin), tetracyclines, levothyroxine, levodopa, and methyldopa when taken simultaneously. To minimize this interaction, these medications should be administered at least 2 hours before or 4 hours after iron supplementation. Additionally, proton pump inhibitors and H2 blockers that raise gastric pH may paradoxically reduce the solubility advantage of chelated iron forms. ### Is iron citrate malate safe for pregnant women? Iron citrate malate may be used during pregnancy as part of prenatal supplementation, as iron demands increase significantly during gestation. However, pregnant women should consult their healthcare provider before starting any iron supplement to determine appropriate dosing and ensure it complements their prenatal care plan. Safety in pregnancy depends on individual circumstances, and medical supervision is recommended. ### How does iron citrate malate compare to iron bisglycinate in terms of absorption? Iron citrate malate and iron bisglycinate are both chelated forms designed for enhanced bioavailability, but they work through different mechanisms—citrate malate prevents precipitation at neutral pH, while bisglycinate forms an amino acid complex for absorption. Limited direct comparative studies exist, though both are considered more bioavailable than basic iron salts. Individual tolerance and absorption may vary depending on digestive factors and overall nutrient status. ### What is the clinical evidence quality for iron citrate malate's effectiveness? Current evidence for iron citrate malate is primarily biochemical and chemical characterization studies, with limited clinical trials in humans demonstrating anti-anemic efficacy. Most research supports its theoretical advantage in solubility and gastrointestinal tolerability compared to ferrous sulfate, but high-quality randomized controlled trials are lacking. Additional human studies are needed to establish definitive efficacy claims for iron status improvement. --- *Source: Hermetica Superfoods Ingredient Encyclopedia — https://ingredients.hermeticasuperfoods.com* *License: CC BY-NC-SA 4.0 — Attribution required. Commercial use: admin@hermeticasuperfoods.com*