Intravenous Versus Oral Iron for Treating Iron-Deficiency Anemia in Pregnancy

Phase 3

Recruiting

• Conditions: Iron Deficiency Anemia; Pregnancy
• Interventions: Drug: Ferric derisomaltose; Drug: Ferrous sulfate

• Registration Number: NCT05462704
• Lead Sponsor: Women and Infants Hospital of Rhode Island

Brief Summary

Double blind, placebo controlled, multicenter randomized trial in pregnant women in the U.S. (N=746) to test the central hypothesis that IV iron in pregnant women with moderate-to-severe IDA (Hb\<10 g/dL and ferritin\<30 ng/mL) at 13 - 30 weeks will be effective, safe and cost-effective in reducing severe maternal morbidity-as measured by peripartum blood transfusion-and will also improve offspring neurodevelopment.

Detailed Description

Iron-deficiency anemia (IDA) is a common, undertreated problem in pregnancy. According to data from the U.S. National Health and Nutrition Examination Survey (NHANES), 25% of pregnant women in the U.S. have iron deficiency, with rates of 7%, 24%, and 39% in the first, second, and third trimesters, respectively. The prevalence of IDA is estimated at 16.2% overall and up to 30% at delivery. Iron deficiency is associated with significant adverse maternal and fetal outcomes including blood transfusion, cesarean delivery, depression, preterm birth, and low birth weight. Moreover, iron-deficient mothers are at risk of delivering iron-deficient neonates who, despite iron repletion, remain at risk for delayed growth and development. While treatment with iron supplementation is recommended during pregnancy, questions remain about the optimal route of delivery. Oral iron therapy, the current standard, is often suboptimal: up to 70% of patients experience significant gastrointestinal side effects (nausea, constipation, diarrhea, indigestion, and metallic taste) that prevent adherence to treatment, resulting in persistent anemia. Intravenous (IV) iron is an attractive alternative because it mitigates the adherence and absorption challenges of oral iron. However, IV iron costs more, and there are historical concerns about adverse reactions.

The American College of Obstetricians and Gynecologists (ACOG) recommends oral iron for the treatment of IDA in pregnancy, with IV iron reserved for the restricted group of patients. Our preliminary data show that this approach leads to 30% of patients with persistent IDA at delivery and an associated 3 to 6-fold increased risk of peripartum blood transfusion. ACOG's preferential recommendation of oral iron is based on paucity of data on the benefits and safety of IV iron, compared with oral iron, in pregnancy. Our published systematic review and meta-analysis showed that IV iron is associated with greater increase in maternal hemoglobin (Hb), but most of the primary trials were conducted in developing countries, included small sample sizes (50 - 252), and did not assess meaningful maternal and neonatal outcomes. The current Cochrane review noted that despite the high incidence and disease burden associated with IDA in pregnancy, there is paucity of quality trials assessing clinical maternal and neonatal effects of iron administration in women with anemia. The authors called for "large, good quality trials assessing clinical outcomes." The only large randomized trial of IV versus oral iron, conducted in India, showed no difference in a maternal composite outcome, but it is limited by use of iron sucrose which required five infusions, resulting in a wide range of iron doses (200 - 1600 mg). In addition, the primary composite outcome included some components not directly related to anemia. In contrast, our pilot trial of a single infusion of 1000 mg of IV low molecular weight iron dextran in pregnant women in the U.S. with moderate-to-severe IDA significantly reduced the rate of maternal anemia at delivery and showed promise for improving maternal morbidity by reducing rates of blood transfusion.

This is the first definitive double blind, placebo controlled, multicenter randomized trial in pregnant women in the U.S. (N=746) to test the central hypothesis that IV iron in pregnant women with moderate-to-severe IDA (Hb\<10 g/dL and ferritin\<30 ng/mL) at 13 - 30 weeks will be effective, safe and cost-effective in reducing severe maternal morbidity-as measured by peripartum blood transfusion-and will also improve offspring neurodevelopment. A multidisciplinary team of investigators in the U.S., will pursue the following specific aims:

Primary Aim: Evaluate the effectiveness and safety of IV iron, compared with oral iron, in reducing the rate of peripartum blood transfusion in pregnant women with moderate-to-severe IDA.

Secondary Aim 1: Estimate the cost-effectiveness of IV iron , compared with oral iron, in pregnant women with moderate-to-severe IDA as measured by incremental cost per Quality Adjusted Life-year (QALY).

Secondary Aim 2: Assess the effect of IV iron, compared with oral iron, on offspring brain myelin content and neurodevelopment.

Study Timeline

• Study First Submitted: 2022-05-15
• Study First Submitted QC: 2022-07-14
• Study First Posted: 2022-07-18
• Study Start: 2023-01-17
• Status Verified: 2024-08
• Last Update Submitted: 2024-08-20
• Last Update Posted: 2024-08-21
• Primary Completion: 2027-03-30
• Study Completion: 2027-03-31

Recruitment & Eligibility

• Status: RECRUITING
• Sex: Female
• Target Recruitment: 746

Inclusion Criteria

• Pregnant women between the ages of 18-45
• Singleton gestation
• Iron-deficiency anemia (serum ferritin <30ng/mL and Hb<10 g/dL)
• At 13-30 weeks gestation
• Plan to deliver at participating hospital

Exclusion Criteria

• Non-iron-deficiency anemia e.g thalassemia, sickle cell disease, B12 or folate deficiency, hypersplenism.
• Malabsorptive syndrome, inflammatory bowel disease, gastric bypass, or sensitivity to oral or IV iron
• Multiple gestation
• Inability or unwillingness to provide informed consent
• Inability to communicate with members of the study team, despite the presence of an interpreter
• Planned delivery at a non-study affiliated hospital

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
IV Iron	Ferric derisomaltose	Participants assigned to the IV iron group will receive a single IV infusion of 1000 mg ferric derisomaltose (Monoferric, Pharmacosmos Therapeutics Inc., Morristown, NJ) in 250 mL given over 20 minutes and daily placebo tablets until delivery.
Oral Iron	Ferrous sulfate	Participants assigned to the oral iron group will receive a single 250 mL IV normal saline infusion given over 20 minutes and 325mg tablets of ferrous sulfate (65 mg of elemental iron) to be taken until delivery.

Primary Outcome Measures

Name	Time	Method
Rate of peripartum blood transfusion	Delivery to 7 days postpartum	Maternal blood transfusion during delivery hospitalization and up to 7 days postpartum

Secondary Outcome Measures

Name	Time	Method
Rate of preterm birth at less then 37 weeks	At delivery	Preterm birth; gestational age at delivery at less than 37 weeks (spontaneous or indicated)
Concentration of maternal hemoglobin at delivery	Within 24 hours of admission to inpatient obstetrics unit for delivery of infant	Hemoglobin on admission to inpatient obstetrics unit for labor and delivery
Rate of mild medication adverse events	4 weeks after initiation of oral iron or placebo	Safety and tolerability
Rate of maternal anemia presence at delivery	Within 24 hours of admission to inpatient obstetrics unit for delivery of infant	Hemoglobin \<11mg/dL on admission to inpatient obstetrics unit for labor and delivery
Rate of cesarean delivery	Once at infant delivery	Cesarean delivery for any indication in patients without prior cesarean deliveries
Rate of Neonatal Intensive Care Unit Admission	At birth through through 30 days from birth	Admission to the neonatal intensive care unit for any indication
Neonatal birth weight	At birth	Infant birth weight
Concentration of umbilical artery pH	At birth	Concentration of umbilical artery pH from umbilical cord gases from infant umbilical cord segment at birth
Concentration of umbilical artery bicarbonate	At birth	Concentration of umbilical artery bicarbonate from umbilical cord gases from infant umbilical cord segment at birth
Concentration of umbilical artery base excess	At birth	Concentration of base excess from umbilical cord gases from infant umbilical cord segment at birth
Concentration of umbilical artery lactate	At birth	Concentration of umbilical artery lactate from umbilical cord gases from infant umbilical cord segment at birth
Concentration of maternal ferritin at delivery	Within 24 hours of admission to inpatient obstetrics unit for delivery of infant	Maternal ferritin on admission to inpatient obstetrics unit for labor and delivery
Concentration of neonatal hemoglobin	At birth	Concentration of neonatal hemoglobin from umbilical cord blood at birth or first neonatal complete blood count
Concentration of neonatal ferritin	At birth	Concentration of neonatal ferritin from umbilical cord blood at birth or first neonatal blood draw
Neonatal Apgar scores	At 1 minute and 5 minutes of life	Apgar scores at 1 and 5 minutes of life. Minimum score 0, maximum score 10, higher scores indicate better well being.
Rate of composite neonatal complication	Through 30 days from birth	Neonatal mortality or any one of several neonatal morbidities
Concentration of child brain myelin	At an average of 6 months and 36 months	Concentration of infant brain myelin from magnetic resonance imaging
Child Mullen Scale of Early Learning Score	At an average of 6 months and 36 months	Mullen Scale of Early Learning Score as percentile. Minimum score 1, maximum score 99, higher scores indicate better neurodevelopment.
Gestational age at delivery	At delivery	Gestational age at delivery
Concentration of maternal hemoglobin postpartum day 1	On day after participant delivered her infant; postpartum day 1	Maternal hemoglobin on postpartum day 1
Rate of severe infusion adverse events	2 days after intravenous iron or placebo infusion	Safety and tolerability
Edinburgh Perinatal Depression Scale score	At randomization (baseline) and at 4-6 weeks postpartum	Edinburgh Perinatal Depression Scale score. Minimum score 0, maximum score 30, higher scores indicate worse depressive symptoms.
Maternal EuroQol Group Quality-of-Life Questionnaire score	At 6 weeks postpartum by phone or in person	Maternal EuroQol Group Quality-of-Life Questionnaire (EQ-5D-5L). Minimum score 11111 (full health), maximum score 55555 (worst health), higher scores indicate worse quality of life.
Rate of Maternal infection	From initiation of treatment until 6 weeks postpartum	Any infection diagnosed from initiation of treatment until 6 weeks postpartum
Rate of Composite Maternal Complications	At 6 weeks postpartum	Maternal mortality or any one of several maternal morbidities

Trial Locations

Locations (8)

Women & Infants Hospital of Rhode Island; 🇺🇸 Providence, Rhode Island, United States

Oregon Health and Sciences Uiversity Medical Center; 🇺🇸 Portland, Oregon, United States

Heme-on-Call; 🇺🇸 Miami, Florida, United States

Michigan University Medical Center; 🇺🇸 Ann Arbor, Michigan, United States

University of Alabama Medical Center; 🇺🇸 Birmingham, Alabama, United States

Washington University Medical Center; 🇺🇸 Saint Louis, Missouri, United States

University of Utah Hospital; 🇺🇸 Salt Lake City, Utah, United States

Hasbro Children's Hospital; 🇺🇸 Providence, Rhode Island, United States