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Iron(III) citrate

CAS No.
3522-50-7
Chemical Name:
Iron(III) citrate
Synonyms
Fe(II)max5%;IRON CITRATE;Fe(II) max 5%;FERRIC CITRATE;EFRRIC CITRATE;Ferric Cltrate;Iron(Ⅲ) citrate;Citric acid iron;Einecs 222-536-6;ron(III) citrate
CBNumber:
CB1273092
Molecular Formula:
C6H8FeO7
Molecular Weight:
247.97
MDL Number:
MFCD00013098
MOL File:
3522-50-7.mol
Last updated:2024-11-05 19:05:58

Iron(III) citrate Properties

Melting point >300°C
storage temp. room temp
solubility soluble in H2O; insoluble in ethanol
form red-brown crystals
color Dark Orange to Very Dark Orange
Stability Stable. Incompatible with strong oxidizing agents.
InChIKey NPFOYSMITVOQOS-UHFFFAOYSA-K
CAS DataBase Reference 3522-50-7(CAS DataBase Reference)
FDA UNII 63G354M39Z

SAFETY

Risk and Safety Statements

Symbol(GHS)  GHS hazard pictograms
GHS07
Signal word  Warning
Hazard statements  H315-H335-H319
Precautionary statements  P264-P280-P305+P351+P338-P337+P313P-P264-P280-P302+P352-P321-P332+P313-P362
WGK Germany  3
8

Iron(III) citrate price More Price(16)

Manufacturer Product number Product description CAS number Packaging Price Updated Buy
Sigma-Aldrich F3388 Ferric citrate BioReagent, suitable for cell culture 3522-50-7 250g $78.3 2024-03-01 Buy
Sigma-Aldrich F3388 Ferric citrate BioReagent, suitable for cell culture 3522-50-7 1kg $265 2024-03-01 Buy
Sigma-Aldrich F6129 Iron(III) citrate technical grade 3522-50-7 250g $83.3 2024-03-01 Buy
Sigma-Aldrich F6129 Iron(III) citrate technical grade 3522-50-7 1kg $233 2024-03-01 Buy
TRC I775185 Iron(III)Citrate(TechnicalGrade) 3522-50-7 100g $95 2021-12-16 Buy
Product number Packaging Price Buy
F3388 250g $78.3 Buy
F3388 1kg $265 Buy
F6129 250g $83.3 Buy
F6129 1kg $233 Buy
I775185 100g $95 Buy

Iron(III) citrate Chemical Properties,Uses,Production

Phosphate binding agents

Each available phosphate-binding agent effectively binds phosphorus but each has its disadvantages. This has led to continued research seeking alternative agents that ideally would bind phosphorus only and have no negative systemic consequences. Ferric compounds were initially noted to cause hypophosphatemia in the 1940s[4,5]. During the course of observing several pregnant patients to characterize calcium, phosphate and vitamin D balance, the investigators treated one patient for anemia with ferric ammonium citrate. Her anemia did not respond to therapy, but the authors noted an adverse effect on calcium and phosphorus balance (hypophosphatemia) that subsequently resolved upon discontinuation of the ferric compound[4]. On the basis of this observation, ferric ammonium citrate was used successfully in the early 1940s by the same group to treat the hyperphosphatemia of CKD in two subjects for several months. At that time, the only side effect reported was occasional diarrhea[5]. Given the need for alternative agents, ferric compounds are now being revisited as potential phosphate-binding agents.

Chemistry and mechanism of action

Ferric citrate reduces intestinal phosphate absorption by precipitating phosphate in the intestine in a mechanism analogous to the currently used salts of aluminum, calcium and lanthanum. Ferric citrate is water-soluble and thus easily dissociates into ferric iron and citrate in the intestinal lumen. Dietary phosphorus is then precipitated as either ferric or ferrous phosphate and subsequently excreted in the feces. Soluble inorganic free-iron absorption (Fe2+ or Fe3+) is very tightly regulated in the intestine. Iron is actively transported across the mucosa of the small intestine primarily in the duodenum that serves as the primary site of iron absorption. Any ferric (Fe3+) iron in the duodenum must first be reduced to ferrous (Fe2+) iron by ferric reductase (duodenal cytochrome b) on the mucosal surface of the enterocyte to be absorbed by the mucosal cell. Much of the iron entering the mucosal cells is not transferred to the plasma but remains trapped in the cell and is ultimately excreted when the mucosal cell is shed into the intestinal lumen. The potential for iron overload via this route of absorption is extremely low due to tight regulation mediated by iron regulatory proteins intracellularly and hepcidin extracellularly[6]. The citrate moiety can also be absorbed systemically in the intestine. Once absorbed it is metabolized by the liver to bicarbonate and subsequently enters the bicarbonate buffer system that in part regulates systemic acid–base status.

Phase III Clinical efficacy

The Phase III clinical program has two trials, a 4-week dose-ranging and efficacy trial (ClinicalTrials.gov identifier: NCT01074125)[8] and a long-term efficacy and safety trial (ClinicalTrials.gov identifier: NCT01191255)[9]. The objective of the short-term trial was to determine the dose–response relationship and the efficacy of a fixed dose of 1, 6 and 8 g/day of ferric citrate[7]. The study was a multicenter, randomized, open-label trial with a 2-week washout period, immediately followed by a 4-week treatment period in 154 subjects. Preliminary results from this trial showed that serum phosphorus decreased by 23 and 27% from randomization in the 6 and 8 g/day groups, respectively. The primary efficacy variable was the change in serum phosphorus from baseline to the end of the treatment period. The dose–response relationship for the change in serum phosphorous from baseline was confirmed by regression analysis (p < 0.001). An increase of 0.1, 1.6 and 1.5 mEq/l of the serum bicarbonate level was noted in the 1, 6 and 8 g/day groups, respectively. A modest increase in the ferritin level was noted with no changes in serum iron or TSAT levels. Thus, ferric citrate appears to be an efficacious phosphate binder, in a dose-dependent manner.

Safety and tolerability

Ferric citrate has been generally well tolerated in clinical studies to date. Most patients experience a dark discoloration of their stool, which is expected, as iron in the gastrointestinal tract is known to darken stool color. Interestingly, not all subjects recognize this, although it is believed that all subjects experience it. In the first clinical trial performed in Taiwan, all of the adverse events were minor and primarily related to the gastrointestinal system (e.g., diarrhea, bloating or constipation)[10]. None of these events were serious in nature. These same profiles of adverse events were noted in the second clinical study in 28 subjects and were similar to the control (calcium acetate) group. The Phase II study (ClinicalTrials.gov identifier: NCT00648167) also demonstrated tolerability comparable to other phosphate-binding agents with primarily gastrointestinal adverse events and change in stool color[11]. Ferric citrate appears to be well tolerated, on par with other phosphate-binding agents[12–14].
Many ESRD patients require iron-replacement therapy and therefore often receive intravenous iron[15]. The daily use of an iron-containing phosphate-binding medication could lead to systemic absorption but is unlikely to result in an iron overload state, given the tight regulation of iron absorption at the enterocyte (see the section on ‘Chemistry & mechanism of action’). In the preliminary studies to date, small increases in the biochemical parameters used to assess iron status (serum iron, TSAT and ferritin) have been noted. In the largest clinical trial to date in 55 subjects (ClinicalTrials. gov identifier: NCT00648167)[8], small but statistically significant increases were seen in serum iron, TSAT and ferritin. These, however, remained well within recommended limits for ESRD patients[16,17]. Thus, it is felt that iron overload is unlikely to occur with ferric citrate. The pivotal safety study with an enrollment of 441 subjects is presently ongoing.

References

  1. Harmon B. Abrahamson, Ahmad B. Rezvani, J. George Brushmiller (1994): "Photochemical and spectroscopic studies of complexes of iron (III) with citric acid and other carboxylic acids". Inorganica Chimica Acta, volume 226, pages 117-127.
  2. Kidney Disease Outcomes Quality Initiative. K/DOQI clinical practice guidelines for bone metabolism and disease in chronic kidney disease. Am. J. Kidney Dis. 42(4 Suppl. 3), S1–S201 (2003).
  3. Kidney Disease Improving Global Outcomes. KDIGO clinical practice guideline for the diagnosis, evaluation, prevention, and treatment of chronic kidney disease-mineral and bone disorder (CKD-MBD). Kidney Int. Suppl. 113, S1–S130 (2009).
  4. Liu SH, Chu HI, Hsu HC, Chao HC, Cheu SH. Calcium and phosphorus metabolism in osteomalacia. XI. the pathogenetic role of pregnancy and relative importance of calcium and vitamin D supply. J. Clin. invest. 20(3), 255–271 (1941).
  5. Liu SH, Chu HI. Studies of calcium and phosphorus metabolism with special reference to pathogenesis and effects of dihydrotachysterol (A.T. 10) and iron. Medicine (Baltimore) 22, 103–161 (1943).
  6. Fleming RE, Ponka P. Iron overload in human disease. N. Engl. J. Med. 366(4), 348–359 (2012).
  7. Sika M, Smith M, Schulman G, Kaplan M, Lewis JB. A dose-ranging and efficacy Phase 3 trial of ferric citrate (FC) as a phosphate binder in dialysis patients. Am. J. Kid. Dis. (2011) (Abstract 292).
  8. A safety and tolerability study of Zerenex (ferric citrate) in patients with end-stage renal disease (ESRD) (2008).
  9. A 4-week dose-ranging and efficacy trial of KRX-0502 (ferric citrate) in patients with end-stage renal disease (2010).
  10. Yang WC, Yang CS, Hou CC, Wu TH, Young EW, Hsu CH. An open-label, crossover study of a new phosphate-binding agent in haemodialysis patients: ferric citrate. Nephrol. Dial. Transplant. 17(2), 265–270 (2002).
  11. Sinsakul MV, Korbet S, Greene T et al. The safety and tolerability of higher doses of ferric citrate in controlling serum phosphorus in ESRD patients. Poster Presented at: National Kidney Foundation Meetings. Orlando, FL, USA (2010).
  12. Finn WF; SPD 405-307 Lanthanum Study Group. Lanthanum carbonate versus standard therapy for the treatment of hyperphosphatemia: safety and efficacy in chronic maintenance hemodialysis patients. Clin. Nephrol. 65(3), 191–202 (2006).
  13. Joy MS, Finn WF; LAM-302 Study Group. Randomized, double-blind, placebo-controlled, dose-titration, Phase III study assessing the efficacy and tolerability of lanthanum carbonate: a new phosphate binder for the treatment of hyperphosphatemia. Am. J. Kidney Dis. 42(1), 96–107 (2003).
  14. Slatopolsky EA, Burke SK, Dillon MA. RenaGel, a nonabsorbed calciumand aluminum-free phosphate binder, lowers serum phosphorus and parathyroid hormone. The RenaGel Study Group. Kidney Int. 55(1), 299–307 (1999).
  15. Van Wyck DB. Iron deficiency in patients with dialysis-associated anemia during erythropoietin replacement therapy: strategies for assessment and management. Semin. Nephrol. 9(1 Suppl. 2), 21–24 (1989).
  16. II. Clinical practice guidelines and clinical practice recommendations for anemia in chronic kidney disease in adults. Am. J. Kidney Dis. 47(5 Suppl. 3), S16–S85 (2006).
  17. Kidney Disease Outcomes Quality Initiative. KDOQI clinical practice guideline and clinical practice recommendations for anemia in chronic kidney disease: 2007 update of hemoglobin target. Am. J. Kidney Dis. 50(3), 471–530 (2007).

Description

Ferric citrate (iron (III) citrate) is prepared from reaction of citric acid with ferric hydroxide. It is a compound of indefinite ratio of citric acid and iron. Ferric citrate is slowly soluble in cold water, readily soluble in hot water, and practically insoluble in alcohol.

Chemical Properties

solid

Uses

Iron(III) Citrate is an integral part of the structural basis of gating by the outer membrane receptor FecA from Escherichia coli. Binding of ferric citrate triggers a conformational change of the extracellular loops that close the external pocket of FecA.

Biochem/physiol Actions

Ferric citrate is used as a component of protein-free medium. It is used as a substitute for transferrin in mouse hybridomas culture. Ferric citrate enhances IgM production. It indirectly stimulates the mitogen-activated protein kinase (MAPK) by favoring high amphiregulin oncoprotein levels in colon cancer.? Ferric citrate is effective in binding to phosphate in patients with dialysis-dependent chronic kidney disease.

Iron(III) citrate Preparation Products And Raw materials

Raw materials

Preparation Products

Global( 294)Suppliers
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Wuhan Qiami Technology Co., Ltd
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View Lastest Price from Iron(III) citrate manufacturers

Image Update time Product Price Min. Order Purity Supply Ability Manufacturer
Iron(III) citrate pictures 2024-11-13 Iron(III) citrate
3522-50-7
US $6.00 / KG 1KG 99% 20TONS Hebei Longbang Technology Co., Ltd
Iron(III) citrate pictures 2024-11-12 Iron(III) citrate
3522-50-7
US $6.00 / kg 1kg 99% 2000KG/Month HebeiShuoshengImportandExportco.,Ltd
Iron(III) citrate pictures 2024-11-07 Iron(III) citrate
3522-50-7
US $0.00 / kg 1kg 99% 1000000 Hebei Jingbo New Material Technology Co., Ltd
  • Iron(III) citrate pictures
  • Iron(III) citrate
    3522-50-7
  • US $0.00 / kg
  • 99%
  • Hebei Jingbo New Material Technology Co., Ltd
IRON (III) CITRATE, GREEN IRON CITRATE FERRIC CITRATE FERRIC CITRATE, TECHNICAL GRADE CitricAcid,FerricSalt Iron(III)citrate,Fecontent24-26% Ferric citrate cell culture tested Iron(Ⅲ) citrate 1,2,3-Propanetricarboxylic acid, 2-hydroxy-, iron(3+) salt (1:1) Iron(III) citrate Iron(III) citrate hydrate, Fe(III) 16.5-20%: Fe(II) max 5% FERRIC CITRATE pure 2-Hydroxy-1,2,3-propanetricarboxylic acid iron(III) 2-Hydroxy-1,2,3-propanetricarboxylic acid iron(III) salt Citric acid iron Fe(II) max 5% Fe(II)max5% Iron(III) citrate hydrate, Fe(III) 16.5-20% 2338-05-8 (Unspecified iron salt) 28633-45-6 (Unspecified iron(+3) salt) Citric acid, iron(3+) salt (1:1) Citric acid, iron(3+) salt (1:1) (8ci) Einecs 222-536-6 Ferric citrate (van) EFRRIC CITRATE FERROUS CITRATE、FERRIC CITRATE iron(III) 2-hydroxypropane-1,2,3-tricarboxylate Iron(III) citrate technical grade Ferric Cltrate Fe(III)-citrate complex (1:1) ron(III) citrate Ferric citrate BioReagent, suitable for cell culture IRON CITRATE HYDRATE C6H5FeO7 Iron(III) citrate 3522-50-7 Ferric Citrate Trihydrate for tissue culture, 18-20% Fe Ferric Citrate Trihydrate pure, 18-20% Fe 3522-50-7 23380-05-8 FeC6H5O7 C6H8O7Fe C6H5FeO7 bc0001