Institutional Usage of Ferric Pyrophosphate Citrate (FPC) Delivered Via Dialysate in Reducing Erythropoiesis Stimulating Agents (ESAs) and IV Iron Cost

Dialysis patients are often iron deficient due to a multiple factors. Ferric pyrophosphate citrate is a complex iron salt that can be given via dialysate allowing maintenance of hemoglobin (Hgb) concentration and iron balance while reducing the need for IV iron. The purpose of this study is to perform a cost evaluation of FPC and the effect it has on lowering the dose/use of ESAs and IV iron therapy. This study reviewed the same 100 hemodialysis patient’s charts before and after the use of FPC. The data points that were collected and analyzed are as follows: hemoglobin, ferritin levels, average weekly ESA dosing, and IV iron replacement therapy dose. Out of 100 patients, there was no statistical difference in the average hemoglobin, ferritin, and iron saturation levels observed in the patients before and after FPC use. The average weekly dose of darbepoetin alfa per patient was 52.74 μg before the FPC group compared to 39.27 μg in the post FPC group ( P < .0001). The total dose of ferric gluconate per patient was 3290.01 mg in the before FPC group and 585.60 mg in the post FPC group ( P < .0001). The average total iron sucrose dose per patient in the before FPC group was 3097.92 mg versus 1216.67 mg in the post FPC group ( P < .1563). When comparing FPC’s cost and implementation into both of our outpatient dialysis centers, this yielded a net savings of $296 751.49.

A comparative study between the dispersible Ferric pyrophosphate particles and Ferrous sulfate in treatment of pediatric patients with iron deficiency anemia

Background: Iron deficiency anemia (IDA) is the most common type of anemia related to malnutrition worldwide. It represents a major problem in developing countries, especially in Egypt. Ferric pyrophosphate (FPP) is a water-insoluble iron compound often used to fortify infant cereals and chocolate drink powders. It causes no adverse color and flavor changes to food vehicles. This study was done to compare the efficacy of FPP (micro dispersed iron) and ferrous sulfate (FS) in treating childhood IDA. Materials and Methods: This prospective cohort study was conducted on 58 anemic children visiting the outpatient clinic, pediatric department of Menoufia University hospitals from March 2017 to June 2019. The inclusion criteria of the involved children were age 2 - 12 years and the diagnosis of IDA. Patients with other types of anemia were excluded from the study. Verbal permission was obtained from the parents of the children according to the ethical committee of Menoufia University. Patients were randomly divided into 2 groups. Group1 included 29 children who were treated with FPP and group2 included 29 children who were treated with oral traditional iron in the form of FS. Complete blood count and iron profile were recorded before and after 8 weeks of treatment. Results: The results showed no statistically significant difference between the FPP group and the FS group regarding clinical examinations (P-value > 0.05). There was no significant difference regarding hemoglobin, serum iron, and serum ferritin between the FPP and the FS groups after treatment (P-value> 0.05). However, side effects were significantly higher in the FS group (P-value > 0.001). Conclusion: Micro dispersed iron could be used as an alternative therapy for children with IDA who refuse oral iron therapy in a liquid form with more tolerability and fewer side effects.

Iron Therapy in Chronic Kidney Disease: Days of Future Past

Anemia affects millions of patients with chronic kidney disease (CKD) and prompt iron supplementation can lead to reductions in the required dose of erythropoiesis-stimulating agents, thereby reducing medical costs. Oral and intravenous (IV) traditional iron preparations are considered far from ideal, primarily due to gastrointestinal intolerability and the potential risk of infusion reactions, respectively. Fortunately, the emergence of novel iron replacement therapies has engendered a paradigm shift in the treatment of iron deficiency anemia in patients with CKD. For example, oral ferric citrate is an efficacious and safe phosphate binder that increases iron stores to maintain hemoglobin levels. Additional benefits include reductions in fibroblast growth factor 23 levels and the activation of 1,25 dihydroxyvitamin D. The new-generation IV iron preparations ferumoxytol, iron isomaltoside 1000, and ferric carboxymaltose are characterized by a reduced risk of infusion reactions and are clinically well tolerated as a rapid high-dose infusion. In patients undergoing hemodialysis (HD), ferric pyrophosphate citrate (FPC) administered through dialysate enables the replacement of ongoing uremic and HD-related iron loss. FPC transports iron directly to transferrin, bypassing the reticuloendothelial system and avoiding iron sequestration. Moreover, this paper summarizes recent advancements of hypoxia-inducible factor prolyl hydroxylase inhibitors and future perspectives in renal anemia management.

Innovative oral sucrosomial ferric pyrophosphate-based supplementation rescues suckling piglets from iron deficiency anemia similarly to commonly used parenteral therapy with iron dextran

Iron deficiency is the most common mammalian nutritional deficiency during the neonatal period. However, among mammalian species neonatal iron deficiency anemia (IDA), the most severe consequence of iron scarcity, occurs regularly in pigs. Although intramuscular supplementation of piglets with high amounts of iron dextran (FeDex) is largely considered an appropriate preventive therapy for IDA prophylaxis, an increasing evidence shows that it negatively affects pig physiology. The aim of our study was to evaluate the efficacy of non-invasive supplementation of piglets with sucrosomial ferric pyrophosphate (SFP), a highly bioavailable dietary iron supplement in preventing IDA, in humans and mice. Results of our study show that SFP given to piglets per os in the amount of 6 mg Fe daily efficiently counteracts IDA at a rate comparable with the traditional FeDex-based supplementation (100 mgFe/kG b.w.; i.m. injection). This was indicated by physiological values of red blood cell indices and plasma iron parameters measured in 28-day old piglets. Moreover, SFP-supplemented piglets showed significantly lower (P ≤0.05) plasma level of 8-isoprostane, a biomarker for oxidative stress compared to FeDex-treated animals, implying lesser toxicity of this order of iron replenishment. Finally, supplementation with SFP does not increase considerably the blood plasma hepcidin, a peptide that acts to inhibit iron absorption from the diet. SFP emerges as a promising nutritional iron supplement, with a high potential to be adopted in the postnatal period.

Impact of Ascorbic Acid on the In Vitro Iron Bioavailability of a Casein-Based Iron Fortificant

A new iron–casein complex (ICC) has been developed for iron (Fe) fortification of dairy matrices. The objective was to assess the impact of ascorbic acid (AA) on its in vitro bioavailability in comparison with ferrous sulfate (FeSO4) and ferric pyrophosphate (FePP). A simulated digestion coupled with the Caco-2 cell culture model was used in parallel with solubility and dissociation tests. Under diluted acidic conditions, the ICC was as soluble as FeSO4, but only part of the iron was found to dissociate from the caseins, indicating that the ICC was an iron chelate. The Caco-2 cell results in milk showed that the addition of AA (2:1 molar ratio) enhanced iron uptake from the ICCs and FeSO4 to a similar level (p = 0.582; p = 0.852) and to a significantly higher level than that from FePP (p < 0.01). This translated into a relative in vitro bioavailability to FeSO4 of 36% for FePP and 114 and 104% for the two ICCs. Similar results were obtained from water. Increasing the AA to iron molar ratio (4:1 molar ratio) had no additional effect on the ICCs and FePP. However, ICC absorption remained similar to that from FeSO4 (p = 0.666; p = 0.113), and was still significantly higher than that from FePP (p < 0.003). Therefore, even though iron from ICC does not fully dissociate under gastric digestion, iron uptake suggested that ICCs are absorbed to a similar amount as FeSO4 in the presence of AA and thus provide an excellent source of iron.

Acute Consumption of Prebiotic Galacto-Oligosaccharides Increases Iron Absorption from Ferrous Fumarate, but not from Ferrous Sulfate and Ferric Pyrophosphate: Stable Iron Isotope Studies in Iron-Depleted Young Women

ABSTRACT Background Although acute consumption of high doses of prebiotic galacto-oligosaccharides (GOS) increases fractional iron absorption (FIA) from ferrous fumarate (FeFum), it is uncertain if low doses of GOS have this effect. Furthermore, whether GOS improve iron absorption from other commonly used iron compounds and whether ascorbic acid (AA) enhances the effect of GOS on iron absorption from FeFum is unclear. Objectives In iron-depleted women [serum ferritin (SF) &lt;30 μg/L], we assessed: 1) whether the acute enhancing effect of GOS on FeFum is dose dependent; 2) if GOS would affect FIA from ferrous sulfate (FeSO4) or ferric pyrophosphate (FePP); and 3) if AA and GOS given together enhance FIA from FeFum to a greater extent compared with GOS alone. Methods We recruited 46 women (mean age 22.0 y, mean BMI 21.3 kg/m2, median SF 17.1 μg/L), and measured FIA from 14 mg iron labeled with stable isotopes in the following conditions: 1) FIA from FeFum given with 3.5 g, 7 g GOS, and without GOS; 2) FIA from FeSO4 and FePP given with and without 15 g GOS; and 3) FIA from FeFum given with 7 g GOS with and without 93 mg AA. FIA was measured as erythrocyte incorporation of stable isotopes after 14 d. Comparisons were made using paired samples t-test or Wilcoxon rank sum test where appropriate. Results Giving 7 g of GOS significantly increased FIA from FeFum (+26%; P = 0.039), whereas 3.5 g GOS did not (P = 0.130). GOS did not significantly increase FIA from FeSO4 (P = 0.998) or FePP (P = 0.059). FIA from FeFum given with GOS and AA was significantly higher compared with FeFum given with GOS alone (+30%; P &lt;0.001). Conclusions In iron-depleted women, GOS does not increase FIA from FeSO4 or FePP, but it increases FIA from FeFum. Thus, a combination of FeFum and GOS may be a well-absorbed formula for iron supplements. The study was registered at clinicaltrials.gov as NCT03762148.