Hypophosphataemia following ferric derisomaltose and ferric carboxymaltose in patients with iron deficiency anaemia due to inflammatory bowel disease (PHOSPHARE-IBD): a randomised clinical trial

A Swedish cost-utility analysis of ferric derisomaltose versus ferric carboxymaltose in the treatment of iron deficiency anemia in patients with inflammatory bowel disease

OBJECTIVES

Iron deficiency anemia (IDA) is a common extraintestinal manifestation of inflammatory bowel disease (IBD), driven by impaired iron absorption, inflammation of intestinal mucosa and blood loss due to intestinal bleeding. Exogenous iron is indicated to correct iron deficiency, with intravenous iron preferred in patients with malabsorption or intolerance of oral iron, active bleeding, systemic inflammation, or a need for rapid iron replenishment. The objective was to assess the cost-utility of two high-dose, rapid-infusion iron formulations-ferric derisomaltose (FDI) and ferric carboxymaltose (FCM)-in the treatment of patients with IBD and IDA in Sweden.

METHODS

The analysis used a previously-published micro-simulation model. Phosphate monitoring was modeled based on the product labelling, while iron need and disease-related quality of life (QoL) were modeled based on data from the PHOSPHARE-IBD randomized controlled trial. Cost-utility was evaluated from the national healthcare payer perspective over a five-year time horizon. Sensitivity and scenario analyses were performed.

RESULTS

For each iron treatment course, patients treated with FDI required 0.41 fewer infusions than those treated with FCM. The reduced number of infusions resulted in savings of SEK 9,876 over five years from iron administration costs alone (SEK 44,216 with FCM versus SEK 34,340 with FDI). Phosphate monitoring in patients treated with FCM cost SEK 2,776 over five years versus no monitoring costs with FDI. Total cost savings with FDI were SEK 14,962. FDI also resulted in a 0.076 quality-adjusted life year (QALY) improvement versus FCM driven primarily by the QoL improvements reported in PHOSPHARE-IBD, and FDI was therefore the dominant intervention.

LIMITATIONS

The analysis did not capture costs or outcomes associated with hypophosphatemic osteomalacia or fractures.

CONCLUSION

Relative to FCM, fewer infusions of FDI were required, there was no need for phosphate monitoring, and disease-related QoL was improved, while overall costs were reduced.

Evaluating the cost-utility of ferric derisomaltose versus ferric carboxymaltose in patients with inflammatory bowel disease and iron deficiency anaemia in Norway

AIMS

Iron deficiency anemia (IDA) is among the most common extraintestinal sequelae of inflammatory bowel disease (IBD). Intravenous iron is often the preferred treatment in patients with active inflammation with or without active bleeding, iron malabsorption, or intolerance to oral iron. The aim of the present study was to evaluate the cost-utility of ferric derisomaltose (FDI) versus ferric carboyxymaltose (FCM) in patients with IBD and IDA in Norway.

MATERIALS AND METHODS

A published patient-level simulation model was used to evaluate the cost-utility of FDI versus FCM in patients with IBD and IDA from a Norwegian national payer perspective. Iron need was modelled based on bivariate distributions of hemoglobin and bodyweight combined with simplified tables of iron need from the FDI and FCM summaries of product characteristics. Patient characteristics and disease-related quality of life data were obtained from the PHOSPHARE-IBD trial. Cost-utility was evaluated in Norwegian Kroner (NOK) over a five-year time horizon.

RESULTS

Patients required 1.64 fewer infusions of FDI than FCM over five years (5.62 versus 7.26), corresponding to 0.41 fewer infusions per treatment course. The reduction in the number of infusions resulted in cost savings of NOK 5,236 (NOK 35,830 with FDI versus NOK 41,066 with FCM). The need for phosphate testing in patients treated with FCM resulted in further cost savings with FDI (no costs with FDI versus NOK 4,470 with FCM). Total cost savings with FDI were therefore NOK 9,707. FDI also increased quality-adjusted life expectancy by 0.071 quality-adjusted life years (QALYs) driven by reduced incidence of hypophosphatemia and fewer interactions with the healthcare system.

CONCLUSIONS

FDI resulted in cost savings and improved quality-adjusted life expectancy versus FCM in patients with IDA and IBD in Norway. FDI therefore represents the economically preferable iron formulation in Norwegian patients with IBD and IDA in whom it is indicated.

Iron deficiency should not be accepted in patients with inflammatory bowel disease - a Scandinavian expert opinion

AIM

In this paper, we aim to explain the reason why iron deficiency (ID) is common in patients with inflammatory bowel disease (IBD), how to better apply diagnostic tools to uncover the state of ID as well as how to interpret the results, and not least, how to treat ID in this group of patients.

METHODS

This article is an expert review and opinion paper on a topic that is too often forgotten in clinical practice. We have not performed a systematic review, but we present the most important research allocated to the topic to substantiate an expert opinion.

RESULTS

This position paper summarises the pathophysiology of ID and gives recommendations on the monitoring and treatment of ID in IBD. ID with or without concurrent anaemia (IDA) is the most common systemic complication in patients with IBD, related to both disease activity and severity. It has consequences both for health-related quality of life and future course of disease of the IBD patient. Intravenous iron is an efficacious and well tolerated, but still underused, therapy for ID and IDA. Iron deficiency should be treated before symptoms of anaemia appear and quality of life is impacted. However, there is still limited awareness of how to detect and treat ID in clinical practice. Uncertainty regarding which diagnostic tests to use and how to interpret the results may also be responsible for variations in clinical practice. In addition, opinions on how to correct ID and IDA differ, in relation to both clinical efficacy and safety.

CONCLUSION

The consequences of ID in patients with IBD are significant. Guidelines on diagnosis, treatment and follow-up of ID should be implemented. IDA is a manifestation of severe ID and preventive strategies focusing on efficient treatment of ID regardless of the level of haemoglobin should therefore be explored.

Ferric Carboxymaltose (FCM)-Associated Hypophosphatemia (HPP): A Systematic Review

BACKGROUND

Since 2015, ferric carboxymaltose (FCM), an intravenous (IV) iron formulation used for treating iron deficiency anemia (IDA), has been associated with an increasing number of reported hypophosphatemia (HPP) cases. Information on HPP clinical manifestations and incidence has not been reviewed.

METHODS

We reviewed HPP-associated adverse events reported to the FDA, case reports, case series, observational databases, clinical trials, meta-analyses, and FDA-approved labels. Our analysis found that FCM-associated HPP is a clinically important adverse drug reaction (ADR). The most common clinical manifestations are general weakness, fatigue, bone pain, muscle pain, osteomalacia, and fractures. Information on rates of FCM-associated HPP was from a review of clinical trials, observational databases, systematic reviews, and meta-analyses.

RESULTS

Clinical trials comparing FCM with other IV iron preparations identified FCM-associated HPP rates between 50% and 92% versus 2% and 8% with other IV iron formulations. Meta-analyses and systematic reviews confirmed these numbers. FDA-approved FCM labels do not include details of available ADR information in case reports, case series, observational databases, randomized trials, and meta-analyses.

CONCLUSION

We conclude that although the FDA-approved FCM Prescribing Label was updated in 2023, more robust recommendations on FCM-associated HPP are needed to prevent negative outcomes including osteomalacia and fractures. For patient safety, FCM label should advise monitoring serum phosphate levels prior to initiating first doses and before subsequent doses for all patients. Given differences between the FDA-approved FCM label and data reviewed herein, clinicians must be educated about FCM-associated HPP, difficulties treating HPP cases, and should consider administering other IV iron formulations that have lower rates of HPP.

Initial effectiveness and safety data on intravenous ferric derisomaltose for iron deficiency anaemia management in paediatric gastroenterology patients: a multicentre retrospective cohort study

OBJECTIVE

Iron deficiency anaemia (IDA) is common in paediatric gastroenterology with intravenous iron increasingly utilised. While adult data are published for ferric derisomaltose (FDI), no paediatric data exist. Our aim was to assess the effectiveness and safety profile of FDI in paediatric gastroenterology.

DESIGN

Retrospective cohort study.

SETTING

Two UK referral centres (Edinburgh and Sheffield).

PATIENTS

All paediatric gastroenterology patients who received FDI from June 2020 to June 2023.

MAIN OUTCOME MEASURES

Haematological and biochemical parameters were collected before and at 1, 3, 6 and 12 months after treatment, when available, together with the need for repeated FDI infusions and FDI adverse events.

RESULTS

Sixty-five patients were identified (54% male; median age 12.8 years, IQR 9.6-15.2), receiving 78 FDI infusions. After a single infusion, 38/59 (64%) patients (effectiveness analysis) completely corrected their anaemia and 6/59 (10%) improved from moderate-severe to mild anaemia. Median haemoglobin increased from 92 (IQR 85-108) to 126 (IQR 115-132) g/L at 1 month (p<0.001) and peaked at 12 months (134 g/L, IQR 125-142; p<0.001) post infusion. A second infusion was performed in 12/59 (20%) patients with 9/12 correcting their anaemia. No significant biochemical alterations, including hypophosphataemia, were detected. Overall, 4/65 (6%) patients (safety analysis) experienced adverse events, with three discontinuing FDI infusion.

CONCLUSIONS

Our real-world data reveal FDI is rapidly and persistently effective in correcting IDA in paediatric gastroenterology. No significant biochemical alterations or new safety signals were identified.

UK kidney association clinical practice guideline: update of anaemia of chronic kidney disease

Anaemia is common in chronic kidney disease (CKD) encompassing non-dialysis dependent CKD (NDD-CKD) and dialysis dependent CKD (DD-CKD); people on peritoneal dialysis (PD) and haemodialysis (HD); and kidney transplant recipients (KTR). Iron deficiency and erythropoietin deficiency are the most common causes of anaemia in people with CKD, especially those requiring kidney replacement therapy (KRT). The Renal National Service Framework and National Institute for Health and Clinical Excellence in the UK, and Kidney Disease Improving Global Outcomes (KDIGO), all advocate treatment of anaemia in people with CKD. Blood transfusions are infrequently required, and newer therapies such as Hypoxia-Inducible Factor (HIF-PHI) stabilisers are now in current use. This guideline provides evidence based graded practice guidance on the use of iron; comments on iron deficiency without anaemia in people with CKD; provide further information on anaemia management in people with a transplant and provide guidance in the use of the new HIF-PHI drugs. It also provides audit and research recommendations.

Real-world evaluation of an intravenous iron service for the treatment of iron deficiency with or without anemia

Intravenous (IV) iron is a guideline-recommended treatment for iron deficiency when oral iron is contraindicated, ineffective, or not tolerated, or when rapid iron delivery is necessary. However, evidence suggests that some patients receive less IV iron than needed. This retrospective audit assessed the effectiveness and safety of ferric derisomaltose (FDI), a high-dose IV iron, in 2,468 patients. Efficacy outcomes assessed at 4-12 weeks post-infusion included changes in hemoglobin (Hb) and ferritin, proportion of courses (a course was defined as the treatment episode required to administer one total dose) after which patients were non-anemic (Hb ≥ 130 g/L [men] or ≥ 120 g/L [women]), and response rate (proportion of courses after which patients were non-anemic or Hb increased by ≥ 20 g/L). Safety was assessed through adverse events. Across 2,775 FDI courses, the mean dose was 1,244 mg, but mean estimated iron need was 1,580 mg. At follow-up, mean Hb had increased by 20.9 g/L and mean ferritin by 188.8 µg/L. Patients were non-anemic after 33.4% (n = 494/1,478) of courses and responded after 65.1% (n = 962/1,478) of courses. One patient (n = 1/2,468; 0.04%) had a serious allergic reaction. Patients remained anemic after > 65% of courses, demonstrating the need to optimize dosing based on iron need.

Intravenous Iron-Induced Hypophosphatemia in Surgical Patients

This study explores the incidence of preoperative hypophosphatemia and whether hypophosphatemia may have affected patient or trial outcomes for those who received ferric carboxymaltose.

Understanding and Managing Infusion Reactions and Hypophosphataemia With Intravenous Iron-A Nurses' Consensus Paper

AIM

To provide evidence-based guidance on practical aspects and potential safety concerns (infusion reactions and hypophosphataemia) related to the use of intravenous iron from a nursing perspective.

DESIGN

A modified Delphi consensus method.

METHODS

Literature searches were conducted and used to support the development of 16 consensus statements. Six nurses with expertise in the field of gastroenterology and experience with the administration of intravenous iron participated in a modified Delphi process to develop a final set of statements.

RESULTS

Overall, 16 statements achieved consensus and covered the practicalities of administration, infusion reactions and hypophosphataemia. Patient preparation is a key step in the administration of intravenous iron, but information should be communicated carefully to prevent undue anxiety. Highlighting the nurse's confidence in the management of any reactions may help to reduce anxiety. The patient should be observed during the first 5-10 min of an infusion to allow prompt management of immediate infusion reactions, although severe hypersensitivity reactions are rare. Nurses should be vigilant for symptoms of hypophosphataemia (such as fatigue, weakness and muscle/bone pain), which can develop following treatment with ferric carboxymaltose, saccharated ferric oxide and iron polymaltose. Serum phosphate levels should be measured in patients receiving ferric carboxymaltose who are at risk of low phosphate.

IMPACT

Infusion reactions and hypophosphataemia with intravenous iron are documented in the literature, but existing publications do not approach these topics from a nursing perspective. This consensus paper highlights the importance of patient preparation, monitoring and prompt management when administering intravenous iron to ensure patient safety. Considering that nurses have a central role in the administration of intravenous iron, the availability of evidence-based guidance is essential for both nurse confidence and patient safety.

PATIENT OR PUBLIC CONTRIBUTION

No patient or public contribution was involved in the consensus process.

Iron Deficiency in Adults: A Review

Importance

Absolute iron deficiency, defined as low iron stores with or without anemia, affects approximately 2 billion people worldwide and 14% of adults in the US. Iron-deficiency anemia, defined as low hemoglobin due to low iron stores, affects approximately 1.2 billion people worldwide, including 10 million in the US.

Observations

Absolute iron deficiency progresses from low iron stores to iron-deficiency anemia. Individuals with nonanemic iron deficiency or iron-deficiency anemia may be asymptomatic or experience fatigue, irritability, depression, difficulty concentrating, restless legs syndrome (32%-40%), pica (40%-50%), dyspnea, lightheadedness, exercise intolerance, and worsening heart failure (HF). Symptom prevalences vary depending on age, comorbidities (eg, chronic kidney disease [CKD], HF), and severity and rate of development of iron deficiency. The most common causes of iron deficiency are bleeding (menstrual, gastrointestinal), impaired iron absorption (atrophic gastritis, celiac disease, bariatric surgical procedures), inadequate dietary iron intake, and pregnancy. In high-income countries, approximately 38% of nonpregnant, reproductive-age women have iron deficiency without anemia and about 13% have iron-deficiency anemia. During the third trimester of pregnancy, iron deficiency affects up to 84% of pregnant women, based on data from high-income countries. Additional risk factors include use of nonsteroidal anti-inflammatory drugs, inflammatory bowel disease (IBD [13%-90%]), and other chronic inflammatory conditions, such as CKD (24%-85%), HF (37%-61%), and cancer (18%-82%). Testing for iron deficiency is indicated for patients with anemia and/or symptoms of iron deficiency (fatigue, pica, or restless legs syndrome) and should be considered for those with risk factors such as heavy menstrual bleeding, pregnancy, or IBD. Iron deficiency is diagnosed by low serum ferritin (typically <30 ng/mL) in individuals without inflammatory conditions or by transferrin saturation (iron/total iron binding capacity × 100) less than 20%. Causes of iron deficiency should be identified and treated. Oral iron (ferrous sulfate 325 mg/d or on alternate days) is typically first-line therapy. Intravenous iron is indicated for patients with oral iron intolerance, poor absorption (celiac disease, post-bariatric surgical procedure), chronic inflammatory conditions (CKD, HF, IBD, cancer), ongoing blood loss, and during the second and third trimesters of pregnancy.

Conclusions and Relevance

Iron deficiency and iron-deficiency anemia are common conditions that may cause symptoms such as fatigue, exercise intolerance, and difficulty concentrating. Ferritin and/or transferrin saturation are required for diagnosis and screening. Oral iron is first-line therapy for most patients. Intravenous iron is used for individuals who do not tolerate or have impaired absorption of oral iron, those with ongoing blood loss, certain chronic inflammatory conditions (IBD, CKD, HF, cancer), and during the second and third trimesters of pregnancy.

Intravenous iron in chronic kidney disease without anaemia but iron deficiency: A scoping review

Iron deficiency (ID) is a prevalent complication of chronic kidney disease (CKD), often managed reactively when associated with anaemia. This scoping review evaluates the evidence supporting intravenous (IV) iron therapy in non-anaemic individuals with CKD and ID, focusing on safety, efficacy, and emerging therapeutic implications. Current diagnostic markers, including serum ferritin, transferrin saturation, and reticulocyte haemoglobin content, are reviewed alongside their limitations in the context of inflammation and variability. The pathophysiology of ID in CKD is explored, highlighting the roles of hepcidin, hypoxia-inducible factor pathways, and uraemic toxins. Comparative studies reveal that IV iron offers a more rapid correction of iron stores, improved compliance, and fewer gastrointestinal side effects compared to oral iron. Evidence from trials such as "iron and heart" and "iron and muscle" suggests potential benefits of IV iron on functional capacity and fatigue, though findings were statistically non-significant. Insights from heart failure trials support the safety and efficacy of IV iron in improving quality of life and reducing hospitalizations, with newer formulations like ferric derisomaltose demonstrating favourable safety profiles. This review underscores the need for standardized screening protocols for ID in CKD, even in the absence of anaemia, to facilitate earlier intervention. Future research should prioritise robust outcome measures, larger sample sizes, and person-specific treatment strategies to optimise dosing and administration frequency. Tailored approaches to IV iron therapy have the potential to significantly improve functional outcomes, quality of life, and long-term health in people with CKD.

[Rare osteological diseases in the rheumatological consultation: hypophosphatasia and phosphate loss syndromes]

Metabolic bone diseases cause bone and joint pain and are manifested as rheumatism. Typical for the rare genetic disease hypophosphatasia is a reduced activity of alkaline phosphatase (AP), where the variable residual activity causes the heterogeneous symptoms (e.g., arthralgia, myalgia and fractures). It is indicated by repeatedly low AP measurements. The diagnosis requires a meticulous medical history and laboratory-based clarification in order to rule out other differential diagnoses. Although supportive measures form the basis of treatment, costly enzyme replacement therapy is a possible treatment option for severe forms. Multidisciplinary care under the direction of a rheumatologist experienced in osteology or an osteologist is crucial in order to provide adequate care to affected patients. Phosphate loss syndromes due to overactivity of fibroblast growth factor 23 (FGF-23) lead to deformities of the lower extremities and short stature (in congenital disorders), bone and muscle pain, muscular weakness and pathological fractures, depending on the time of occurrence during life. In genetic forms of the disease (especially X‑linked hypophosphatemia), supplementation with calcitriol and phosphates and, if necessary, complex corrective surgery in adolescence are traditional treatment methods, which are increasingly being replaced by treatment with antibodies against FGF-23. The acquired variant is a paraneoplastic phenomenon from small mostly benign mesenchymal tumors, which clinically shows a relatively acute course with severe bone pain, pathological fractures and muscle weakness in previously healthy patients and can ideally be cured by resection of the tumor. The disease can be suspected by significantly reduced serum phosphate levels and narrowed down with further laboratory diagnostics. In our opinion, the measurement of calcium, phosphate and alkaline phosphatase should be part of the primary laboratory diagnostics performed by rheumatologists and the follow-up of pathological findings is indicated.

Diagnosis and treatment of iron deficiency in chronic heart failure : Position statement of the heart failure working group of the Austrian Society of Cardiology

Iron deficiency (ID) is a common comorbidity in heart failure (HF), affecting 55% of chronic and up to 80% of acute HF patients, regardless of ejection fraction (EF). An ID is associated with reduced quality of life, impaired exercise capacity (VO2 peak), higher hospitalization rate and lower survival rate. It is also an independent predictor of HF outcomes. This consensus statement critically reviews the diagnostic criteria for ID in HF and provides recommendations for their use. The efficacy and safety of intravenous iron supplements, including ferric carboxymaltose (FCM) and ferric derisomaltose (FDI), are analyzed highlighting the indications and potential adverse effects. Key clinical trials and guideline recommendations are summarized. In summary, the document addresses the diagnostics, treatment and monitoring of ID in HF.

No longer to be ignored: Hypophosphatemia following intravenous iron administration

Intravenous iron supplementation is increasingly used to safely and effectively correct iron deficiency anemia, but some formulations are linked to a renal phosphate wasting syndrome which is mediated by fibroblast growth factor 23. Unawareness among prescribers and the nonspecific clinical symptoms of hypophosphatemia result in underreporting of this complication. Even though it is often an asymptomatic and self-limiting condition, accumulating evidence from case reports and dedicated randomized controlled trials show that IV iron induced hypophosphatemia may be associated with clinical symptoms. If hypophosphatemia is not recognized and treated, a metabolic bone disease phenotype may develop, pathophysiologically reminiscent of hypophosphatemic rickets as seen in X-linked hypophosphatemic rickets or oncogenic osteomalacia. This syndrome is particularly, but not uniquely, associated with formulations containing ferric carboxymaltose, probably due to specific chemical characteristics of its carbohydrate moiety. Risk factors include repeated infusion, severity of iron deficiency, as well as normal kidney function. Coexisting vitamin D deficiency or hyperparathyroidism increase the risk of metabolic bone disease. Complications can be easily prevented by an early diagnosis and switching to another IV iron formulation. In this review, we describe the epidemiology and pathophysiology of this condition, to raise awareness among prescribing clinicians.

Ferric carboxymaltose with or without phosphate substitution in iron deficiency or iron deficiency anemia before elective surgery - The DeFICIT trial

BACKGROUND

Iron deficiency anemia in the perioperative setting is treated predominantly with intravenous iron formulation, of which ferric carboxymaltose may induce hypophosphatemia by modulating fibroblast growth factor 23.

METHODS

In this single-center, prospective, randomized, double-blind trial, we consented 92 adult patients scheduled for elective major abdominal or thoracic surgery. These patients either had isolated iron deficiency (plasma ferritin <100 ng/mL or transferrin saturation < 20 %) or iron deficiency anemia (hemoglobin (Hb) 100-130 g/L with plasma ferritin <100 ng/mL or transferrin saturation < 20 %). Preoperatively, participants received a single preoperative intravenous dose of ferric carboxymaltose and were then randomly assigned to receive either phosphate or placebo, administered orally three times a day for 30 days corresponding to an 18 mmol dose of daily phosphate supplementation in the intervention group. The primary endpoint was the minimum serum phosphate concentration during follow-up visits. The key secondary efficacy endpoint was mean perioperative hemoglobin concentration of postoperative days 0, 2 and 4, assessing the non-inferiority of additional phosphate supplementation.

RESULTS

We randomly consented 46 patients in each group (mean ± SD age 56 ± 17 years, 57 % female). Minimal phosphate concentration was 0.49 ± 0.21 mmol/L in the treatment group and 0.42 ± 0.17 mmol/L in the placebo group (p = 0.12, two-sided p-value). Average mean hemoglobin was 110 ± 16 g/L in the treatment and 113 ± 13 g/L in the placebo group (p = 0.023, one-sided p-value for non-inferiority). Hypophosphatemia occurred in 32 patients (70 %) of the treatment group and in 39 patients (85 %) of the placebo group (odds ratio 0.15, 95 % CI from 0.02 to 0.77, p = 0.014). Secondary outcomes, such as rescue medication use, core muscle strength and MOCA test scores, did not differ between groups.

CONCLUSION

Co-administration of oral phosphate supplementation to ferric carboxymaltose cannot prevent hypophosphatemia. However, hypophosphatemia occurs in fewer patients. Phosphate co-administration did not impede the treatment of iron deficiency anemia with ferric carboxymaltose.

Iron deficiency anemia in patients with heavy menstrual bleeding: The patients' perspective from diagnosis to treatment

BACKGROUND

Heavy menstrual bleeding (HMB) associated with iron deficiency anemia (IDA) negatively affects quality of life (QoL). Management of IDA usually begins with oral iron supplementation or, if ineffective/poorly tolerated, then intravenous iron (IVI) is given; however, no guidance exists on transitioning from oral to IVI in patients with HMB. While various IVI products exist, safety profiles and distinct properties affecting treatment logistics make product choice important.

OBJECTIVES

Assess the IVI treatment journey for patients with HMB and IDA.

DESIGN

A survey was designed to assess multiple aspects of IVI treatment to evaluate patient perspectives.

METHODS

Patients (⩾18 years) from the United States with IDA currently prescribed IVI completed a survey conducted by The Harris Poll in 2023. Questions covered symptoms, time to diagnosis/treatment, IVI appointment logistics, IVI infusion experience, impact on daily activities, and patient preferences.

RESULTS

Of 323 respondents, 71 (22.0%) were prescribed IVI for HMB and received ⩾2 IVI infusions monthly. The mean age for these patients was 33.5 years; they experienced a mean of 2.9 years from symptom onset until IDA diagnosis, and 1.4 years between diagnosis and IVI treatment. Most patients agreed that navigating IVI treatment logistics interfered with productivity and social commitments, and felt they must schedule their life around treatment. Patients who were also diagnosed with hypophosphatemia following IVI (12/71; 16.9%) reported a mean of 8.2 additional hospital visits. Furthermore, 36.6% of patients missed an IVI dose; of these, 80.8% preferred single-dose IVI.

CONCLUSION

Patients with IDA and HMB experienced substantial delays from symptom onset to subsequent IVI treatment, demonstrating a gap in management. Therefore, oral iron may not be an appropriate first-line treatment for some of these patients. Multiple-dose IVI and associated appointment logistics can negatively impact patients' perspectives on treatment. Single-dose IVI preferences should be considered to improve patients' adherence and QoL.

Safety and Efficacy of Ferric Carboxymaltose for Iron Deficiency Anemia in Inflammatory Bowel Disease: A Systematic Review

Ulcerative colitis and Crohn's disease, two types of inflammatory bowel disease (IBD), often cause anemia, primarily due to iron deficiency and chronic inflammation. Anemia negatively affects patients' daily functioning and quality of life, causing symptoms including headaches, exhaustion, and dyspnea. In IBD, iron deficiency arises from reduced intake, chronic blood loss, and impaired absorption. While oral iron supplements are commonly used, their poor absorption and gastrointestinal side effects limit their effectiveness, especially in IBD patients. The European Crohn's and Colitis Organization (ECCO) recommends intravenous iron, such as ferric carboxymaltose (FCM), as iron deficiency anemia in IBD can be managed using a safe and efficient substitute. With regard to treating iron deficiency anemia in patients with IBD, the purpose of this study is to investigate the safety and effectiveness of intravenous ferric carboxymaltose. We conducted a thorough search of medical databases, such as the Cochrane library, PubMed, and ResearchGate, to gather relevant literature. Using the databases, we found a total of 297 relevant articles. The identified studies have been screened, eligibility criteria have been introduced, and 14 research studies were selected for inclusion. This review adhered to the Preferred Reporting Items for Systematic Review and Meta-Analysis (PRISMA) guidelines, with quality assessments conducted using the Cochrane risk of bias 2 scale for randomized tests and the Newcastle-Ottawa scale for observational examination. We reviewed 14 research articles involving 2,493 patients. Among these, five were randomized controlled trials (RCTs), and the remaining nine were observational studies. The primary outcomes assessed were the therapeutic response (defined as hemoglobin ≥2 g/dL rise or normalization, improvement in iron profile parameters) and any adverse effects after FCM is administered to IBD patients. FCM was found to be highly effective in improving hemoglobin and iron profile parameters, with a generally good safety profile. Ferric carboxymaltose was the most efficient and well-tolerated intravenous (IV) iron formulation, proving safer and more effective than other iron therapies in patients suffering from IBD. However, severe hypophosphatemia can lead to serious complications, including heart failure, pulmonary failure, rhabdomyolysis, fractures, and osteomalacia, which may worsen its long-term impact. Therefore, the risk of hypophosphatemia associated with prolonged FCM use requires careful monitoring and further research to ensure its long-term safety and assess its effects on patients' quality of life.

A Cost-Utility Analysis of Ferric Derisomaltose Versus Ferric Carboxymaltose in Patients with Iron Deficiency Anemia in China

INTRODUCTION

Intravenous (IV) iron is the recommended treatment for patients with iron deficiency anemia (IDA) unresponsive to oral iron treatment, in whom oral iron is contraindicated, or where rapid iron replenishment is required. Ferric derisomaltose (FDI) and ferric carboxymaltose (FCM) are high-dose, rapid-infusion, IV iron formulations that have recently been compared in three head-to-head randomized controlled trials (RCTs), which showed significantly higher incidence of hypophosphatemia after administration of FCM than FDI. The present study objective was to evaluate the cost-utility of FDI versus FCM in a population of patients with IDA in China.

METHODS

A previously-published patient-level simulation model was used to model the cost-utility of FDI versus FCM in China. The number of infusions of FDI and FCM was modeled based on the approved posology of the respective formulations using simplified tables of iron need in a population of patients with body weight and hemoglobin levels informed by a Chinese RCT of FCM. Data on the incidence of hypophosphatemia was obtained from the PHOSPHARE-IDA RCT, while data on disease-related quality of life were obtained from SF-36v2 data from the PHOSPHARE-IBD RCT.

RESULTS

Over the 5-year time horizon, patients received 3.98 courses of iron treatment on average, requiring 0.90 fewer infusions of FDI than FCM (7.69 vs. 6.79). This resulted in iron procurement and administration cost savings of renminbi (RMB) 206 with FDI (RMB 3,519 vs. RMB 3,312). Reduced incidence of hypophosphatemia-related fatigue resulted in an increase of 0.07 quality-adjusted life years and further cost savings of RMB 782 over 5 years, driven by reduced need for phosphate testing and replenishment. FDI was therefore the dominant intervention.

CONCLUSIONS

The results showed that FDI would improve patient quality of life and reduce direct healthcare expenditure versus FCM in patients with IDA in China.

Iron Treatment in Patients with Iron Deficiency Before and After Metabolic and Bariatric Surgery: A Narrative Review

Iron is an essential nutrient in living organisms with multiple vital functions. Iron deficiency (ID) can cause long term health consequences beyond iron deficiency anemia (IDA). The high prevalence of ID and its long-term effects in patients with obesity and after metabolic and bariatric surgery (MBS) is recognized. Nevertheless, there is limited knowledge of the optimal route or dose for treatment of patients with obesity and post-MBS, and an evidence-based universal guideline for prevention and treatment of ID in short- and long-term post-MBS (PMBS) is not yet available. ID in the general population is currently treated with oral or parenteral iron, where oral iron treatment is considered the preferred option with parenteral iron as a second-line treatment in case there is intolerance or lack of response to oral iron. In patients with obesity with chronic low-grade inflammation and PMBS patients with altered gut anatomy and function, there are also alterations in the bioavailability and higher risks of side effects of available oral irons. The conclusions of current studies exploring effective treatment of iron deficiency in this population have been inconsistent and further well-planned randomized and prospective studies are needed. This is a narrative review of the literature on the available treatment options and strategies for treatment of ID in PMBS patients to recognize the knowledge gaps and provides topics of future research.

Dissimilar ferric derisomaltose formulations - In vitro comparisons between an originator and its intended similars

BACKGROUND

The complex nature of intravenous (IV) iron formulations makes manufacturing and characterising similars challenging. This study examined whether simple in vitro tests can distinguish the high-dose IV iron formulation, Monofer® (ferric derisomaltose [FDI]), from the first intended copies of FDI, Rapifer® (FDI intended similar A [FDIIS-A]) and Tosiron® (FDI intended similar B [FDIIS-B]), approved in India and Pakistan, respectively. Neither intended similar is available in Europe or the United States.

METHODS

Iron content, pH, density, non-volatile residue, carbohydrate content, molecular weight distribution, complex robustness (measured using acid hydrolysis half-life [t½]) and free (dialysable) iron content were examined. Mean results from three batches of FDIIS-A were compared with mean values calculated from three batches of Monofer®. Due to product withdrawal, only one batch of FDIIS-B was available for comparison with Monofer®.

RESULTS

Iron content was similar for all formulations (∼100 mg/mL). The chromatograms (obtained using gel permeation chromatography) of FDIIS-A and FDIIS-B differed from that of Monofer®. FDIIS-A was substantially less robust than Monofer® (t½: 15 h versus 40.3 h); t½ for FDIIS-B was not tested. Free iron content was substantially higher in FDIIS-A (0.091 % w/v) and FDIIS-B (1.0 % w/v) versus Monofer® (<0.003 % w/v). Where tested, remaining parameters varied between the formulations (insufficient sample quantities prevented all tests being conducted for all intended similars). For all tests, greater inter-batch variability was seen for FDIIS-A versus Monofer®.

CONCLUSIONS

Simple in vitro tests demonstrated that, aside from total iron content, the first intended similars of FDI bear little resemblance to their originator drug. It is clear that the efficacy and safety profile of Monofer® cannot be extrapolated to the two intended similars. The results call for increased regulatory scrutiny of intended IV iron similars.

Significant Published Articles in 2023 for Pharmacy Nutrition Support Practice

Purpose: The purpose of this article is to assist the pharmacist engaged in nutrition support therapy in staying current with pertinent literature. Methods: Several board-certified nutrition support pharmacists aggregated a list of articles relevant to pharmacy nutrition support published in 2023. The list was compiled into a spreadsheet whereby the authors were asked to assess whether the article was considered important. A culled list of publications was then identified whereby at least 5 out of the 8 author participants considered the article to be important for pharmacists practicing in nutrition support. Guideline and consensus papers, important to practice but not ranked, were also included. Results: A total of 133 articles were identified; 9 from the primary literature were voted by the group to be of high importance. Fourteen guidelines, position, recommendation, or consensus papers were also identified. The top-ranked articles from the primary literature were summarized and a narrative regarding its implications to pharmacy nutrition support practice were provided. Conclusion: We recommend that pharmacists engaged in nutrition support therapy be familiar with these articles as it pertains to their practice.

Study on the synthesis of iron-based nanomedicine assisted by angelica sinensis polysaccharide with enhanced retention performance and its application in anemia treatment

Inappropriate treatment of chronic inflammation and infection can lead to serious consequences, with anemia being the most common secondary disease that often requires systematic treatment. However, the complex pathology and gastrointestinal irritation associated with oral iron supplements limit their effectiveness. To address this, a bioactive ingredient derived from natural herbs, Angelica sinensis polysaccharide (ASP), was utilized as an ideal adjuvant for regulating the size and stability of iron oxide nanoparticles (IONPs). Highly hydrophilic ASP-modified IONPs (IONPs@ASP) with a mesoporous structure were developed under the induction of microemulsion.The as-prepared IONPs@ASP exhibited enhanced stability, retention performance and controlled degradation in blood and lysosomal environments, respectively, which is beneficial for long-term intravenous iron maintenance in anemia treatment. After confirming the biosafety of IONPs@ASP, pharmacodynamic results showed that hemoglobin levels increased significantly and rapidly returned to normal levels in anemia model rats treated with IONPs@ASP, even surpassing the effects of IONPs or ASP monotherapy. Additionally, analysis of inflammatory factors in rat serum suggested that ASP effectively upregulated the expression of anti-inflammatory factors, indicating synergistic effects of iron-based nanomedicine and immune regulation in anemia treatment. These findings represent a significant advancement in anemia treatment and open new possibilities for developing versatile nanoparticles based on ASP.

Hypophosphatemia attenuates improvements in vitality after intravenous iron treatment in patients with inflammatory bowel disease

PURPOSE

Iron deficiency anemia is common in people with inflammatory bowel disease (IBD), causing deterioration in quality of life, which can be reversed by treatment that increases iron stores and hemoglobin levels. The present post hoc analyses estimate health state utility values for patients with IBD after treatment with ferric derisomaltose or ferric carboxymaltose and evaluate the health domains driving the changes.

METHODS

SF-36v2 responses were recorded at baseline and day 14, 35, 49, and 70 from 97 patients enrolled in the randomized, double-blind, PHOSPHARE-IBD trial (ClinicalTrials.gov ID: NCT03466983), in which patients with IBD across five European countries were randomly allocated to either ferric derisomaltose or ferric carboxymaltose. Changes in SF-36v2 scale scores and SF-6Dv2 health utility values were analyzed by mixed models.

RESULTS

In both treatment arms, SF-6Dv2 utility values and all SF-36v2 scale scores, except Bodily Pain, improved significantly (p =  < 0.0001). The improvement in SF-6Dv2 utility values showed no significant treatment group difference. The improvement in utility values was completely explained by improvement in Vitality scores. Vitality scores showed significantly larger improvement with ferric derisomaltose versus ferric carboxymaltose (p = 0.026). Patients with the smallest decrease in phosphate had significantly larger improvements in Vitality scores at each time point (p =  < 0.05 for all comparisons) and overall (p = 0.0006).

CONCLUSIONS

Utility values improved significantly with intravenous iron treatment. Improvement in utility values was primarily driven by Vitality scores, which showed significantly greater improvement in the ferric derisomaltose arm. Smaller decreases in phosphate were associated with significantly higher Vitality scores, suggesting that quality of life improvement is attenuated by hypophosphatemia. The utility values can inform future cost-utility analysis.

AGA Clinical Practice Update on Management of Iron Deficiency Anemia: Expert Review

DESCRIPTION

In this Clinical Practice Update (CPU), we will Best Practice Advice (BPA) guidance on the appropriate management of iron deficiency anemia.

METHODS

This expert review was commissioned and approved by the AGA Institute Clinical Practice Updates Committee (CPUC) and the AGA Governing Board to provide timely guidance on a topic of high clinical importance to the AGA membership, and underwent internal peer review by the CPUC and external peer review through standard procedures of Clinical Gastroenterology and Hepatology. These Best Practice Advice (BPA) statements were drawn from a review of the published literature and from expert opinion. Since systematic reviews were not performed, these BPA statements do not carry formal ratings regarding the quality of evidence or strength of the presented considerations. BEST PRACTICE ADVICE 1: No single formulation of oral iron has any advantages over any other. Ferrous sulfate is preferred as the least expensive iron formulation. BEST PRACTICE ADVICE 2: Give oral iron once a day at most. Every-other-day iron dosing may be better tolerated for some patients with similar or equal rates of iron absorption as daily dosing. BEST PRACTICE ADVICE 3: Add vitamin C to oral iron supplementation to improve absorption. BEST PRACTICE ADVICE 4: Intravenous iron should be used if the patient does not tolerate oral iron, ferritin levels do not improve with a trial of oral iron, or the patient has a condition in which oral iron is not likely to be absorbed. BEST PRACTICE ADVICE 5: Intravenous iron formulations that can replace iron deficits with 1 or 2 infusions are preferred over those that require more than 2 infusions. BEST PRACTICE ADVICE 6: All intravenous iron formulations have similar risks; true anaphylaxis is very rare. The vast majority of reactions to intravenous iron are complement activation-related pseudo-allergy (infusion reactions) and should be treated as such. BEST PRACTICE ADVICE 7: Intravenous iron therapy should be used in individuals who have undergone bariatric procedures, particularly those that are likely to disrupt normal duodenal iron absorption, and have iron-deficiency anemia with no identifiable source of chronic gastrointestinal blood loss. BEST PRACTICE ADVICE 8: In individuals with inflammatory bowel disease and iron-deficiency anemia, clinicians first should determine whether iron-deficiency anemia is owing to inadequate intake or absorption, or loss of iron, typically from gastrointestinal bleeding. Active inflammation should be treated effectively to enhance iron absorption or reduce iron depletion. BEST PRACTICE ADVICE 9: Intravenous iron therapy should be given in individuals with inflammatory bowel disease, iron-deficiency anemia, and active inflammation with compromised absorption. BEST PRACTICE ADVICE 10: In individuals with portal hypertensive gastropathy and iron-deficiency anemia, oral iron supplements initially should be used to replenish iron stores. Intravenous iron therapy should be used in patients with ongoing bleeding who do not respond to oral iron therapy. BEST PRACTICE ADVICE 11: In individuals with portal hypertensive gastropathy and iron-deficiency anemia without another identified source of chronic blood loss, treatment of portal hypertension with nonselective β-blockers can be considered. BEST PRACTICE ADVICE 12: In individuals with iron-deficiency anemia secondary to gastric antral vascular ectasia who have an inadequate response to iron replacement, consider endoscopic therapy with endoscopic band ligation or thermal methods such as argon plasma coagulation. BEST PRACTICE ADVICE 13: In patients with iron-deficiency anemia and celiac disease, ensure adherence to a gluten-free diet to improve iron absorption. Consider oral iron supplementation based on the severity of iron deficiency and patient tolerance, followed by intravenous iron therapy if iron stores do not improve. BEST PRACTICE ADVICE 14: Deep enteroscopy performed in patients with iron-deficiency anemia suspected to have small-bowel bleeding angioectasias should be performed with a distal attachment to improve detection and facilitate treatment. Small-bowel angioectasias may be treated with ablative thermal therapies such as argon plasma coagulation or with mechanical methods such as hemostatic clips. BEST PRACTICE ADVICE 15: Endoscopic treatment of angioectasias should be accompanied with iron replacement. Medical therapy for small-bowel angioectasias should be reserved for compassionate treatment in refractory cases when iron replacement and endoscopic therapy are ineffective.

Unraveling the fatigue puzzle: insights into the pathogenesis and management of IBD-related fatigue including the role of the gut-brain axis

A significant percentage of patients with an inflammatory bowel disease (IBD) encounter fatigue which can profoundly diminish patients' quality of life, particularly during periods of disease remission when gastrointestinal symptoms have receded. Various contributing risk factors have been identified including active inflammation, anemia, psychological, lifestyle and drug-related factors. While addressing these risk factors has been suggested as the initial approach to managing fatigue, a considerable number of patients still experience persisting symptoms, the primary causes of which remain incompletely understood. Recent insights suggest that dysfunction of the gut-brain axis may play a pathogenic role. This review provides an overview of established risk factors for fatigue, alongside emerging perspectives on the role of the gut-brain axis, and potential treatment strategies.

Drug-related hypophosphatemia: Descriptive study and case/non-case analysis of the French national pharmacovigilance database

Phosphorus is an essential element for all living organisms and is involved in various biological pathways. A severe hypophosphatemia can lead to serious complications (acute heart or respiratory failure, rhabdomyolysis, hemolysis…) and increases mortality in patients at risk. Various drugs are known to induce hypophosphatemia through various mechanisms. The aim of this study was to highlight the main drugs associated with hypophosphatemia and to deduce the underlying mechanisms based on a descriptive analysis and a case/non-case analysis using the cases of drug-induced hypophosphatemia reported to the French Pharmacovigilance Network. A total of 368 cases of hypophosphatemia were included in the study. Patients' mean age was 52±18 years. One hundred and ninety-one cases (52%) were serious including 131 (36%) hospitalizations. The median value of serum phosphorus level was 0.54mmol/L [0.40-0.66] (n=309). Those 368 cases corresponded to 185 different suspected substances among which the most frequent drugs were tenofovir disoproxil (n=175; 48%), ferric carboxymaltose (n=29; 8%), denosumab (n=16; 4%), zoledronic acid (n=14; 4%) and hydrochlorothiazide (n=10; 3%). For these five drugs, a significant disproportionality was found. Tenofovir-disoproxil related hypophosphatemia occurred more than one year after its introduction, and a renal tubulopathy (Fanconi's syndrome) was reported in 44 cases (25%). Hypophosphatemia related to iron carboxymaltose occurred within a median of 20 days after injection and was mostly severe. Mechanism included the fibroblast growth factor 23 which can be measured to confirm drug origin. Concerning anti-osteoporosis treatments, hypophosphatemia could be explained by their mechanism of action (abrupt increase of parathormone induced by hypocalcemia) but the patient history (malignancy condition) was a major bias. For hydrochlorothiazide, hyphosphatemia was often moderate, associated with other electrolytic disturbances and occurred during a long-term treatment. Awareness of healthcare professionals is essential to detect as soon as possible hypophosphatemia and its complications related to these drugs.

The differential effect of modern intravenous iron on fibroblast growth factor 23 and phosphate in non-dialysis dependent CKD - the exploratory randomized controlled double-blind ExplorIRON-CKD study

BACKGROUND

Intravenous iron is commonly used in patients with non-dialysis-dependent chronic kidney disease (CKD). Modern intravenous iron compounds (e.g. ferric derisomaltose (FDI), ferric carboxymaltose (FCM)) are increasingly utilized with similar efficacy. A differential effect in terms of hypophosphatemia has been noted following administration of FCM, which may be related to fibroblast growth factor 23 (FGF23). This study was designed to examine the comparative effects of FDI and FCM on FGF23, phosphate and other markers of bone turnover.

METHODS

The single-center double-blind randomized controlled trial "Iron and Phosphaturia - ExplorIRON-CKD" primarily assessed the effects of FCM and FDI on intact FGF23 and phosphate, whilst also studying the impact on vitamin D, parathyroid hormone and phosphaturia. Bone markers including alkaline phosphatase, bone-specific alkaline phosphatase, procollagen type 1 N-terminal propeptide and carboxy-terminal collagen cross-linked telopeptide were monitored. Non-dialysis-dependent CKD patients (stage 3a-5) with iron deficiency with/without anemia (serum ferritin < 200 µg/L or transferrin saturation = 20% and serum ferritin 200-299 µg/L) were randomized to receive FDI or FCM in a 1:1 ratio. At baseline 1000 mg of intravenous iron was administered followed by 500-1000 mg at 1 month to achieve replenishment. Measurements were performed at baseline, 1-2 days following iron administration, 2 weeks, 1 month (second iron administration), 1-2 days following second administration, 2 months and 3 months following initial infusion.

RESULTS

Twenty-six patients participated in the trial; 14 randomized to FDI and 12 to FCM. Intact FGF23 increased following administration of iron, and the increase was significantly higher with FCM compared to FDI (Baseline to 1-2 days following 1st administration: FDI: 3.0 (IQR: - 15.1 - 13.8) % vs. FCM: 146.1 (IQR: 108.1-203.1) %; p < 0.001 and Baseline to 1-2 days following 2nd administration: FDI: 3.2 (IQR: - 3.5 - 25.4) % vs. FCM: 235.1 (138.5-434.6) %; p = 0.001). Phosphate levels decreased in the FCM group, causing a significant difference versus FDI 2 weeks following administration of the first dose. A significantly greater decrease in 1,25 (OH)2 Vitamin D was noted with FCM. Several markers of bone turnover significantly changed following administration of FCM but not FDI.

CONCLUSIONS

The study suggests a differential effect on FGF23 following administration of FCM compared to FDI in non-dialysis-dependent CKD patients, similar to other patient groups. This may lead to changes consistent with hypovitaminosis D and alterations in bone turnover with potential clinical consequences. Further definitive studies are required to understand these differences of intravenous iron compounds.

TRIAL REGISTRATION

European Union Drug Regulating Authorities Clinical Trials Database (EudraCT) number: 2019-004370-26 ( https://www.clinicaltrialsregister.eu/ctr-search/trial/2019-004370-26/GB ) (First date of trial registration: 03/12/2019).

Fatigue in pediatric inflammatory bowel diseases: A systematic review and a single center experience

OBJECTIVES

We aimed to review the literature on fatigue in pediatric inflammatory bowel diseases (PIBD), to explore how it is measured, and approximate its rate in an inception pediatric cohort.

METHODS

Studies on fatigue were systematically reviewed and selected by two authors. Next, we retrieved the two fatigue-related questions of the IMPACT-III questionnaire at 4 and 12 months after diagnosis from a prospectively maintained cohort of PIBD patients, each scoring 0-100 (lower scores imply more fatigue), and 44 healthy controls.

RESULTS

The systematic review identified 14 studies reporting fatigue in children, of which nine had fatigue as the primary outcome and only two provided rates of fatigue. No standalone index was identified for measuring fatigue specifically for PIBD. Of 80 children included in the inception cohort, 62 (78%) scored an average of ≤75 on the two IMPACT-III questions (approximating at least mild fatigue), 26 (33%) scored ≤50 (at least moderate fatigue) and nine (11%) scored ≤25 (severe fatigue). In comparison, only four (9%) healthy children scored at least moderate fatigue (p = 0.007). Fatigue rates at 12 months were only slightly and nonsignificantly lower. Fatigue of any severity was reported in 92% children with active disease versus 63% of those in clinical remission (p = 0.01).

CONCLUSION

Literature reporting on fatigue in PIBD is scarce, and no PIBD-specific tool is available to measure fatigue. In our cohort, fatigue-related questions were frequently scored low in children with IBD, mainly among children with active disease but also during clinical remission.

Cost-utility analysis of ferric derisomaltose versus ferric carboxymaltose in patients with inflammatory bowel disease and iron deficiency anemia in England

AIMS

Anemia is the most common extraintestinal complication of inflammatory bowel disease (IBD), with approximately half of cases caused by iron deficiency (ID). Intravenous iron is the preferred ID anemia (IDA) treatment where oral iron is contraindicated, ineffective or not tolerated, or where ID correction is urgent. The objective was to evaluate the cost-utility of ferric derisomaltose (FDI) versus ferric carboxymaltose (FCM) in patients with IBD and IDA in England, in whom IV iron treatment is preferred.

MATERIALS AND METHODS

A patient-level simulation model was developed, capturing quality of life (QoL) differences based on SF-36v2 data from the PHOSPHARE-IBD randomized controlled trial, monitoring and incidence of post-infusion hypophosphatemia, and number of iron infusions required. Analyses were conducted over a five-year time horizon from the Department of Health and Social Care (DHSC) perspective, with healthcare provider and societal perspectives adopted in separate analyses. Future costs and effects were discounted at 3.5% per annum and one-way and probabilistic sensitivity analyses were performed.

RESULTS

FDI increased quality-adjusted life expectancy by 0.075 QALYs versus FCM from 2.57 QALYs to 2.65 QALYs per patient. Patients receiving FDI required 1.63 fewer iron infusions over the five-year time horizon, driving infusion-related cost savings of GBP 496 per patient (GBP 2,188 versus GBP 1,692) from the DHSC perspective. Costs of monitoring and treating hypophosphatemia after FCM were GBP 226, yielding total savings of GBP 722 per patient (GBP 2,414 versus GBP 1,692) over the five-year time horizon. FDI also led to reduced costs versus FCM in the societal and provider analyses and was therefore the dominant intervention across all three perspectives.

LIMITATIONS

The analysis did not capture patient adherence, hypophosphatemic osteomalacia, or fractures.

CONCLUSIONS

Results showed that FDI improved patient QoL and reduced direct healthcare expenditure versus FCM in patients with IBD and IDA in England.

IV iron formulations and use in adults

Intravenous iron has become a major component of the therapeutic armamentarium for iron deficiency and iron deficiency anemia. The earliest formulations were associated with unacceptable toxicity. Newer formulations, with complex carbohydrate cores that bind elemental iron more tightly, allow the administration of full therapeutic doses in 15 to 60 minutes. Nonetheless, a folklore of danger, fueled by earlier formulations no longer available, continues to foment caution. Complement-mediated minor infusion reactions, referred to as complement activation-related pseudo-allergy, resolve without therapy. Inappropriate intervention with vasopressors and H1 blockers converts these minor reactions into hemodynamically significant adverse events. Four new formulations, low-molecular-weight iron dextran, ferumoxytol, ferric carboxymaltose, and ferric derisomaltose, all approved for the treatment of iron deficiency in a host of conditions, are now widely used with an excellent safety profile. Herein, the administration, safety, indications, and management of infusion reactions are discussed. Treatment-emergent hypophosphatemia, a newly recognized side effect for some formulations, is also reviewed. Based on the preponderance of published evidence, intravenous iron should be moved up-front for the treatment of iron deficiency and iron deficiency anemia in those conditions in which oral iron is suboptimal.

Hypophosphatemia related to intravenous iron therapy with ferric carboxymaltose: A case series

OBJECTIVES

This case series would like to highlight hypophosphatemia related to ferric carboxymaltose and its adverse clinical consequences.

BACKGROUND

Intravenous iron supplementation is a good alternative to oral iron replacement in iron deficiency anaemia due to its ability to correct iron deficit with minimal infusions without incurring the gastrointestinal side effects of oral iron replacement. Ferric carboxymaltose is one common formula for intravenous iron supplementation. However, an increasingly recognised adverse side-effect of intravenous ferric carboxymaltose is hypophosphatemia. There has been increasing reports and studies highlighting hypophosphatemia related to intra-venous iron therapy. Though initially thought to be transient and asymptomatic, recent studies have shown that persistent hypophosphatemia in iron therapy can result in debilitating disease including myopathy, fractures and osteomalacia.

METHODS

A retrospective analysis of all patients who had ferric carboxymaltose was performed.

RESULTS

We highlight 3 cases where hyposphatemia affected the clinical outcomes.

CONCLUSION

With the increased use of IV iron it is important to be aware of the high potential for hypophosphatemia secondary to ferric carboxymaltose.

Patient reported outcome measures and cardiovascular outcomes following high dose modern intravenous iron in non-dialysis dependent chronic kidney disease: secondary analysis of ExplorIRON-CKD

Intravenous iron is commonly used to treat iron deficiency anemia in non-dialysis chronic kidney disease (ND-CKD). There is a paucity of information on the potential impact of intravenous iron on patient reported outcome measures, functional status and markers of cardiovascular health. As part of the secondary analysis of this double-blind exploratory randomized controlled trial focusing on patients with iron deficiency (+ /- anemia) and ND-CKD (serum ferritin < 200 µg/L or transferrin saturation ≤ 20% and serum ferritin 200-299 µg/L; CKD stages: 3a-5), 26 patients were randomized in a 1:1 ratio to receive ferric derisomaltose or ferric carboxymaltose. Participants received 1000 mg at baseline and 500-1000 mg at one month to achieve iron repletion. Quality of life and fatigue status were assessed using the Short-Form (36) questionnaire and the fatigue severity scale. Functional status was evaluated using the Duke Activity Status Index and the 1-min-sit-to-stand test. Cardiac markers such as NT-proBNP, Troponin T and pulse wave velocity were monitored. Intravenous iron was associated with similar improvements in most domains of the Short-Form (36) questionnaire, fatigue status, and 1-min-sit-to-stand ability increased significantly by the end of the trial in both groups (p < 0.001). Markers of cardiac function remained stable, with no arterial stiffness impact. Longer term studies are required to further evaluate the impact of intravenous iron on quality of life and cardiac safety in patients with ND-CKD.

Prevalence and Risk Factors of Anemia in Inflammatory Bowel Diseases: A Case-Control Study

Introduction Inflammatory bowel diseases (IBDs) including Crohn's disease and ulcerative colitis may induce anemia, ranging from 25% to 75% depending on the study population and diagnostic criteria. It might negatively impact their health and quality of life. Objectives The aim of this work is to study the effectiveness and safety of treatments for anemia in patients with IBD. Methodology This case-control study compared patients with IBD who have anemia (cases; n=60) with patients who have IBD but do not have anemia (controls; n=60) from June 2019 to August 2021 in Hayatabad Medical Complex, Peshawar, Pakistan. Data were collected through interviews, from patients` medical records, and from lab test reports. Statistical analysis was performed using SPSS, Version 23.0 (IBM Corp., Armonk, NY). Results Cases had a greater mean age (45.2 years) than controls (42.8 years). Cases included 60% females and controls 45%. Also, cases earned less (p = 0.019). Anemic patients (group 1) had lower mean hemoglobin (10.2 g/dL) and iron than non-anemic controls (group 2) (p = 0.042 and 0.009, respectively). Anemia increased Crohn's Disease Activity Index and Mayo Score. Group 1 has iron deficiency anemia, whereas group 2 has chronic disease. Group 1 reacts rapidly, but gastrointestinal side effects, allergies, and iron overload are more prevalent. Conclusion IBD patients exhibited low hemoglobin and iron, suggesting anemia. Anemia increased disease activity, but not statistically. IBD patients need iron and anemia treatment. Comparing groups demonstrates differences in anemia types, iron replacement history, treatment response, and bad effects, proposing targeted iron supplementation for deficiency anemia and managing chronic illness factors for chronic disease anemia. IBD anemia treatment involves individualization.

Efficacy and safety of intravenous iron repletion in patients with heart failure: a systematic review and meta-analysis

INTRODUCTION

AFFIRM-AHF and IRONMAN demonstrated lower rates of the combined endpoint recurrent heart failure (HF) hospitalizations and cardiovascular death (CVD) using intravenous (IV) ferric carboxymaltose (FCM) and ferric derisomaltose (FDI), respectively in patients with HF and iron deficiency (ID) utilizing prespecified COVID-19 analyses.

MATERIAL AND METHODS

We meta-analyzed efficacy, between trial heterogeneity and data robustness for the primary endpoint and CVD in AFFIRM-AHF and IRONMAN. As sensitivity analysis, we analyzed data from all eligible exploratory trials investigating FCM/FDI in HF.

RESULTS

FCM/FDI reduced the primary endpoint (RR = 0.81, 95% CI 0.69-0.95, p = 0.01, I2 = 0%), with the number needed to treat (NNT) being 7. Power was 73% and findings were robust with fragility index (FI) of 94 and fragility quotient (FQ) of 0.041. Effects of FCM/FDI were neutral concerning CVD (OR = 0.88, 95% CI 0.71-1.09, p = 0.24, I2 = 0%). Power was 21% while findings were fragile with reverse FI of 14 and reversed FQ of 0.006. The sensitivity analysis from all eligible trials (n = 3258) confirmed positive effects of FCM/FDI on the primary endpoint (RR = 0.77, 95% CI 0.66-0.90, p = 0.0008, I2 = 0%), with NNT being 6. Power was 91% while findings were robust (FI of 147 and FQ of 0.045). Effect on CVD was neutral (RR = 0.87, 95% CI 0.71-1.07, p = 0.18, I2 = 0%). Power was 10% while findings were fragile (reverse FI of 7 and reverse FQ of 0.002). Rate of infections (OR = 0.85, 95% CI 0.71-1.02, p = 0.09, I2 = 0%), vascular disorder (OR = 0.84, 95% CI 0.57-1.25, p = 0.34, I2 = 0%) and general or injection-site related disorders (OR = 1.39, 95% CI 0.88-1.29, p = 0.16, I2 = 30%) were comparable between groups. There was no relevant heterogeneity (I2 > 50%) between the trials for any of the analyzed outcomes.

CONCLUSIONS

Use of FCM/FDI is safe and reduces the composite of recurrent HF hospitalizations and CVD, while effects on CVD alone are based on available level of data indeterminate. Findings concerning composite outcomes exhibit a high level of robustness without heterogeneity between trials with FCM and FDI.

Impact of Intravenous Iron Substitution on Serum Phosphate Levels and Bone Turnover Markers-An Open-Label Pilot Study

The association between intravenous iron substitution therapy and hypophosphatemia was previously reported in patients with iron deficiency anemia. However, the extent of hypophosphatemia is thought to depend on the type of iron supplementation. We hypothesized that the intravenous application of ferric carboxymaltose and iron sucrose leads to a different longitudinal adaptation in serum phosphate levels. In this open-label pilot study, a total of 20 patients with inflammatory bowel diseases or iron deficiency anemia were randomly assigned to one of two study groups (group 1: ferric carboxymaltose, n = 10; group 2: iron sucrose, n = 10). Serum values were controlled before iron substitution therapy, as well as 2, 4, and 12 weeks after the last drug administration. The primary objective of the study was the longitudinal evaluation of serum phosphate levels after iron substitution therapy with ferric carboxymaltose and iron sucrose. The secondary objective was the longitudinal investigation of calcium, 25-hydroxyvitamin D (25(OH)D), intact parathyroid hormone, procollagen type 1 amino-terminal propeptide (P1NP), beta-CrossLaps (CTX), hemoglobin (Hb), iron, ferritin, and transferrin saturation levels. Two weeks after drug administration, phosphate levels were significantly lower (p < 0.001) in group 1 and ferritin levels were significantly higher (p < 0.001) in group 1. Phosphate levels (0.8-1.45 mmol/L) were below the therapeutic threshold and ferritin levels (10-200 ng/mL for women and 30-300 ng/mL for men) were above the therapeutic threshold in group 1. P1NP (15-59 µg/L) and CTX (<0.57 ng/mL) levels were above the therapeutic threshold in group 2. Four weeks after drug administration, significant differences were still observed between both study groups for phosphate (p = 0.043) and ferritin (p = 0.0009). All serum values except for Hb were within the therapeutic thresholds. Twelve weeks after drug administration, no differences were observed in all serum values between both study groups. Hb values were within the therapeutic threshold in both study groups. Serum 25(OH)D levels did not differ between both study groups throughout the whole study period and remained within the therapeutic threshold.

Ferric derisomaltose therapy and heart failure: implications and molecular insights

Iron is essential to the production of myocardial energy and proteins critical for cardiovascular function. Nearly 50% of patients with heart failure with reduced ejection fraction (HFrEF) meet current criteria for iron deficiency, and there has been considerable interest in intravenous repletion of iron stores as a therapeutic strategy to improve HFrEF outcomes. However, the data on intravenous iron therapy in HFrEF have been mixed.