Clinical Research Directory

Iron Absorption and Losses in Young South African Women Living Without and With Overweight and Obesity

Young women living with obesity (OB) have a greater risk of developing iron deficiency. Plus, the risk of anemia and/or ID in young women living with overweight (OW) and obesity (OB) is further increased by inadequate dietary intake and/or poor bioavailability of iron, as well as gastrointestinal and menstrual iron losses. It is not certain whether women living with OW/OB can meet their iron requirements from their day-to-day diet. The aim of this study is to compare iron absorption and losses over a long period between women living with and without OW and OB. Secondary outcomes include iron and inflammation status, as well as dietary iron intake.

Assessing Clinical Impact of AI for Iron Deficiency

The goal of this clinical trial is to evaluate whether an AI-based risk notification system integrated into routine clinical care can improve the clinical detection of iron deficiency in adult patients attending Internal Medicine, Family Medicine, and Hematology/Oncology clinics at China Medical University Hospital in Taiwan. The main questions this study aims to answer are: 1. Does displaying AI-generated iron deficiency risk classification to physicians increase the overall detection rate of iron deficiency at the population level? 2. Does the AI-based risk notification influence physicians' diagnostic behavior by increasing the rate at which ferritin testing is ordered specifically for suspected iron deficiency? 3. Among ferritin tests ordered for suspected iron deficiency, does the diagnostic yield (positivity rate) remain appropriate, reflecting efficient use of testing resources? 4. Are the effects of the AI-assisted intervention consistent among patients with anemia and without anemia? Comparison Groups Researchers will compare clinical encounters in which physicians receive AI-generated iron deficiency risk information (the Prompt Group) with encounters in which physicians receive standard laboratory results without AI risk display (the Control Group). The comparison focuses on differences in iron deficiency detection, ferritin ordering behavior for suspected iron deficiency, and diagnostic yield. What Participants Will Experience 1. No Additional Procedures: As this is a pragmatic study embedded in routine clinical care, participants will not undergo any additional blood draws, invasive procedures, or clinic visits beyond standard care. 2. Routine Care Only: Patients attend their scheduled outpatient visits and receive complete blood count (CBC) testing as ordered by their treating physician, independent of study participation. 3. Background Data Integration: The AI system operates within the hospital's information system, analyzing routinely collected CBC data after results become available. No additional data entry or action is required from patients. 4. Physician Autonomy Preserved: The AI provides a non-mandatory risk classification as decision support. For patients identified as high risk, the system may display an informational prompt suggesting consideration of iron-related testing if no recent testing is found. All diagnostic and management decisions remain entirely at the discretion of the treating physician.

The Impact of IV Iron on Exercise Capacity and Quality of Life in Pulmonary Hypertension

Pulmonary hypertension (PH) is a condition characterized by elevated blood pressure in the pulmonary arteries. This leads to symptoms such as shortness of breath and a significantly reduced exercise capacity, resulting in a very poor quality of life. Currently, treatment options for PH are limited. More than 60% of patients with PH develop iron deficiency. Studies have shown that this deficiency is associated with more severe symptoms, reduced exercise capacity, and even lower quality of life. Oral iron supplements are often ineffective in these patients due to impaired absorption in the intestines, caused by chronic low-grade inflammation-a common feature in PH. Intravenous iron administration can rapidly correct the deficiency, but it remains unclear whether this also leads to clinical improvements such as enhanced exercise capacity, reduced shortness of breath, and improved quality of life. Moreover, the cost-effectiveness of this treatment is still unknown. The IRON-PH study aims to answer these questions. As part of the IRON-PH study, 306 patients with pulmonary hypertension will be enrolled. Each patient will be randomized to receive either intravenous iron (ferric carboxymaltose) or intravenous placebo (NaCl 0.9%).

Iron Infusion in Patients Undergoing Transcatheter Aortic Valve Implantation

The aim of the open-label, randomized controlled superiority IRON TAVI trial is to investigate whether intravenous iron therapy (ferric carboxymaltose) improves Health-Related Quality of Life (HRQOL) in patients with severe aortic stenosis (AS) and iron deficiency (ID), undergoing transcatheter aortic valve implantation (TAVI). The main questions it aims to answer are: 1. Does intravenous iron therapy improve HRQOL after TAVI in patients with severe AS and ID compared to no intravenous iron therapy (standard of care)? 2. Can intravenous iron therapy enhance exercise capacity, as measured by the 6-minute walk test, after TAVI in patients with severe AS and ID compared to no intravenous iron therapy (standard of care)? The intervention group (receiving iron therapy after TAVI) will be compared to the control group (receiving no iron therapy after TAVI (standard of care)). Participants will: * Provide written informed consent * Be randomly assigned to one of two groups: 1. Intervention group: receiving intravenous iron therapy after TAVI (1-3 administrations in the course of 12 weeks) 2. Control group: receiving standard of care (= no iron therapy) * Complete assessments of HRQOL and the 6-minute walk test at baseline and week 24 after TAVI. * During follow-up visits, other clinical parameters will be collected (i.e. laboratory status, mortality status, adverse clinical events)

Impact of Iron Deficiency on Arrhythmic Events and Resting ECG Abnormalities in Patients Hospitalized With Heart Failure

The relationship between iron deficiency (with or without anemia) and arrhythmic risk or ECG abnormalities in hospitalized HF patients remains poorly characterized. This is particularly relevant in settings where advanced iron therapies (e.g., intravenous iron supplementation) may not be readily available, and where simple clinical and electrocardiographic markers could help identify high-risk patients by evaluating the impact of iron deficiency (with and without anemia) arrhythmic events and resting ECG changes among patients admitted with heart failure. Understanding these associations may offer insights into the arrhythmogenic potential of iron deficiency and support the integration of iron status assessment into routine risk stratification and management of HF patients.

The Effect of an Oral Nutritional Supplement on the Nutritional and Health Outcomes of the Elderly

I am conducting this research to find out if a peanut based food that is ready to use would improve the nutritional and health outcomes of the elderly when they consume it daily for 12 weeks. Eligible participants will be assigned randomly to any of these 2 groups. 1. To consume the food once a day in between meals in addition to their usual food for 12 weeks (3 months) or 2. A control group that will not be given the food. Measurements such as weight, blood pressure and the hand grip strength will be taken at the certain points of the study. A sterile needle will be used to draw about 5 ml of venous blood (from the arm) at the beginning of the study and after 12 weeks. Analyses would be carried out on the blood to know if the food has made an impact on serum albumin, ferritin, haemoglobin and cholesterol. If the findings of the study are favourable, it would provide insights for a larger randomized controlled trial that could establish the efficacy of a locally produced peanut based food for the feeding of the elderly.

IntraVenous Iron in Kids With Iron Deficiency and Scoliosis Study

Adolescents and young adults undergoing spinal fusion surgery for the correction of scoliosis and other spinal deformity are at high risk of perioperative iron deficiency and anemia, yet the means and evidence for optimizing iron status have not been described in this setting. The proposed study is a randomized controlled trial of preoperative intravenous iron supplementation, to identify whether iron deficiency is a modifiable risk factor for adverse surgical outcomes such as red blood cell transfusion and diminished postoperative cognitive and physical capacity in this vulnerable population. Building evidence for patient blood management interventions such as iron supplementation is vital to ensuring high quality care of surgical patients and may reduce unnecessary transfusions amid recent blood shortages.

Assessing the Effect of a Mineral-enriched Powder on Iron Deficiency in Women of Reproductive Age

The goal of this clinical trial is to determine if taking a mineral-enriched powder can raise blood iron levels compared to a placebo powder in reproductive-aged women with iron deficiency. The main questions it aims to answer are: * Does the mineral-enriched powder raise blood iron levels compared to a placebo powder in women when it is taken every day for six months? * How many participants still have iron deficiency after six months of taking the mineral-enriched powder compared to a placebo powder? Participants in this clinical trial will drink the mineral-enriched powder containing ferrous iron and zinc sulphate monohydrate or a placebo powder mixed with 1 litre of water daily for six months. The placebo is a look-alike substance that does not contain active ingredients (iron and zinc). Participants will also have to: * Complete an online "study diary" every two weeks for six months * Provide a blood sample once a month for six months * Attend three in-person visits with a researcher, at enrolment (baseline), midline (three months), and endline (six months) * Complete three sets of online questionnaires (following each in-person visit) * Complete three sets of dietary assessments (following each in-person visit) * Provide three stool samples (following each in-person visit)

Effects of Iron Supplementation on Skeletal Muscle Properties in Females With Suboptimal Iron Storage

The goal of this clinical trial is to learn whether oral iron supplementation will increase skeletal muscle iron storage and its effects on exercise capacity in females with suboptimal iron status. The study will include healthy females, ages 18-40, who either have suboptimal or optimal iron stores. The main questions it aims to answer are: * Does iron supplementation increase skeletal muscle iron storage and alter the expression of iron-related and mitochondrial proteins? * Does iron supplementation improve single-leg exercise performance? * Is serum ferritin correlated with the abundance of iron-related proteins in skeletal muscle? Researchers will compare outcomes from females with suboptimal iron status who receive oral iron supplementation to those who receive a placebo to see if supplementation improves muscle iron storage, protein expression, and exercise performance. Additionally, a non-intervention control group with optimal iron status will be included to assess baseline differences. Participants will: \- Be randomly assigned to receive 150 mg elemental iron or placebo (maltodextrin) every other day for 12 weeks Complete pre- and post-supplementation testing, including: * Blood draws to assess iron status * Skeletal muscle biopsies to analyze protein content * Whole-body and single-leg exercise tests to assess performance * Controls will undergo baseline-only testing to compare physiological and biochemical markers

IRONICA: IRON Repletion In Heart Failure - A Comparison of Oral and IV Approaches

The goal of this clinical trial is to learn which iron treatment works better for adults with congestive heart failure and low iron levels: intravenous (IV) iron given through a vein or oral (PO) iron taken by mouth. Participants must have heart failure with reduced ejection fraction (HFrEF) or preserved ejection fraction (HFpEF) and a transferrin-saturation (TSAT) level below 20 percent. The main questions the study will answer are: 1. Does IV iron raise walking distance on a 6-minute walk test more than oral iron after 24 weeks? 2. Does IV iron improve symptoms and quality of life more than oral iron? 3. How do the two treatments compare for safety, side effects, and hospital readmissions/ mortality? Researchers will compare IV ferric carboxymaltose with oral ferrous sulfate to see which option helps people feel and function better. What participants will do * Be randomly assigned by (like flipping a coin) to IV iron or oral iron. * Receive either a one-time IV iron infusion (with possible repeat at 12 weeks) or take iron pills twice each day for 24 weeks. * Visit the infusion clinic at 6 weeks for second dose of IV iron if needed. * Visit the clinic at 12 weeks for a follow-up to gather follow-up data including 1. A 6-minute walk test 2. Brief symptom and quality-of-life surveys 3. Blood tests to measure serum iron, ferritin, and transferrin saturation This study will help doctors decide whether IV or oral iron is the safer, more effective way to treat iron deficiency in people with heart failure in our local community.

Improving Iron Levels in Female Endurance, Intermittent, and Power/Strength Athletes Aged 16-35

The goal of this clinical trial is to learn if different types and doses of oral iron supplements can improve iron levels, athletic performance, and gut health in young female athletes with low iron stores. The main questions it aims to answer are: * Does a low dose of yeast-bound iron improve iron status better than traditional iron supplements? * Do the different iron supplements cause fewer or more gastrointestinal (stomach) symptoms? * How do iron supplements affect exercise performance and gut bacteria? Researchers will compare three types of iron supplements: * A low-dose iron supplement (40 mg) * A low-dose yeast-bound iron supplement (40 mg) * A high-dose iron supplement (150 mg) This will help researchers find out which type of supplement is most effective and easiest on the stomach. Participants will: * Take one of the three assigned iron supplements every other day for 12 weeks * Complete fitness tests before and after the study, including cycling and jumping tests * Give blood samples to measure iron levels * Provide stool and intestinal samples to study gut bacteria * Swallow a SIMBA capsule before and after the study to collect a sample from the small intestine * Complete regular online surveys about sleep, stress, menstrual cycles, and gut symptoms

Evaluating the Effectiveness of Various Iron Salts in Oral Iron Therapy for Iron Deficiency and Anemia in Healthy Adults

Oral iron supplements are a cornerstone therapy for treating iron deficiency and iron deficiency anemia, aiming to replenish low iron levels in the body. These supplements typically contain various iron salts, such as ferrous sulfate, ferric maltol, ferrous gluconate, and ferric pyrophosphate. Advancements in carrier systems, such as microencapsulation or complexation can enhance the absorption and bioavailability of iron supplements. By improving absorption, these carrier systems may mitigate gastrointestinal side effects and increase the efficacy of iron therapy.

Iron Deficiency in Pediatric Celiac Disease: Diet vs. Iron Supplementation Trial

This study aims to understand how to best manage iron deficiency in children newly diagnosed with celiac disease. Many children with celiac disease have low iron levels, even if they do not have anemia. While some doctors recommend iron supplements, others believe that simply following a gluten-free diet may be enough to restore iron levels naturally. In this study, children with newly diagnosed celiac disease and low iron levels (but normal hemoglobin) will be randomly assigned to one of two groups: Gluten-Free Diet Only - No additional iron supplements Gluten-Free Diet + Iron Supplementation Researchers will compare iron store levels over one year to see if iron supplements provide any additional benefit beyond the gluten-free diet alone. The study will also track possible side effects of iron supplements, such as stomach discomfort. This study will help doctors determine the best approach to managing iron deficiency in children with celiac disease, ensuring they receive the safest and most effective treatment.

Maternal Iron Deficiency and Childhood Health

The aim of this prospective observational cohort study is to study maternal iron deficiency and iron deficiency anemia and the use of iron supplements in pregnancy and their impact on the health of the offspring and pregnancy outcomes. All women coming to Tampere University Hospital for prenatal checkups and/or labor are recruited to the study. After giving their consent the mothers fill an online questionnaire about about possible maternal anemia and its diagnosis in pregnancy, iron deficiency and its diagnosis in pregnancy, maternal use of iron supplement or folic acid and it´s timing, about possible other chronic disease and their medications during pregnancy, and whether the mother has got intravenous iron infusions in pregnancy. Mothers also give their permit to use their in-and outpatient data from pregnancy until hospital discharge and to follow the health of their offspring from birth until 7 years of age from in- and outpatient records.We aim to recruit 6000 mother-child-pairs. The health of the offspring (growth, diagnoses, medication, possible therapies, need of support at daycare or school) will be followed for the first month, then at 1,5 years, four years and seven years of age from the patient records. In addition to the cohort study, two nested cohort studies will be performed. The aim of the nested cohort studies is to study the correlation of maternal iron status to the iron status of the child. Secondary aim is to evaluate iron biomarkers, especially reticulocyte hemoglobin, and their reliability to interpret neonatal iron status. A 100 mothers with diagnosed iron deficiency and iron supplementation (p.o. or i.v.) in pregnancy, are recruited to Nested cohort 1. For the nested cohort 2, a 100 mothers with diabetes requiring insulin therapy in pregnancy are recruited. Tor these two cohorts, a 100 mothers without iron deficiency or diabetes will be recruited as controls. Iron status of the mother will be tested before delivery from blood sample. The iron status of the offspring will be checked from umbilical blood, at 2 days of age at the same time other lab tests are taken, at eight months and two and five years of age. In addition to the laboratory tests, parents fill up an electronical questionnaire at eight months, two and five years about the nutrition, sleep, behaviour and cognitive and motor skills of their child. The researchers try to find out, whether iron deficiency in pregnancy has long-term effects on the health and development of the offspring, and how the iron status correlates between the mother and the child, and does it have impact on their sleep, behaviour or skills.

The Effects of Low-Dose Versus High-Dose Intravenous IRON Therapy With Ferric DerisomaltOSE in Patients With Chronic Heart Failure and Iron Deficiency

This study will address whether intravenous (IV) iron repletion with a more intensive target will provide greater benefits in improving exercise capacity for patients with chronic heart failure and iron deficiency. One group of participants will receive a high-dose IV iron regimen with a more intensive target, and the other group will receive a low-dose IV iron regimen with a less intensive target.

How Does Perimenopausal Menorrhagia Affect Women's Quality of Life and Cognitive Function?

The goal of this clinical trial is to investigate how iron status and heavy bleeding during the menopausal transition affect women's cognitive function and quality of life. The main questions it aims to answer are: * What is the association between iron status, cognitive function, mood, quality of family relationships, and quality of life in perimenopausal women? * How does iron repletion, via supplementation, affect cognitive function, mood, quality of family relationships, and quality of life in perimenopausal women? The investigators will compare the effect of iron supplements to a placebo (gelatin capsule) to see if iron supplements could improve iron status, cognitive function, mood, quality of family relationships, and quality of life of iron-deficient and/or anemic women undergoing the menopausal transition. Each participant will: * Make 2 visits (about 2 hours each - baseline and endline) to the Clinical Research Center at Purdue * Make a very brief visit at midpoint (about 10 minutes) for a checkup * Take a daily study supplement or placebo for 4 months

Efficacy and Adverse Side Effects of Two Forms of Iron in Pregnancy

This two-arm, double-blind randomized clinical trial will recruit 172 generally healthy, low-risk pregnant individuals aged 19-42 years living in Vancouver, Canada. Participants will be randomized to receive one of two forms of iron (ferrous fumarate or ferrous bisglycinate) in addition to a prenatal multivitamin (without iron) daily during their pregnancy until delivery, with optional continuation until \~4 weeks postpartum for breastmilk sample collection. Blood samples will be taken at baseline (13-25 weeks gestation) and follow-up (35-37 weeks gestation) to assess how different forms of iron impact body iron stores. Stool samples will be obtained within 1 week of both baseline and follow-up visits to assess changes in gut microbiome composition. This research will inform more specific guidelines for optimal iron supplementation practices for the prevention and treatment of iron deficiency for both mother and baby.