View clinical trials related to Anemia, Iron Deficiency.
Filter by:Iron deficiency anemia affects over half of girls and young women with heavy periods and is the most common cause of anemia worldwide. Most girls with heavy periods who also have iron deficiency anemia are prescribed iron to take by mouth every day by their doctor. There are some studies showing that taking iron every other day may actually help the iron be absorbed into the bloodstream better. This study is trying to compare how taking iron every other day compares to taking iron daily for treatment of anemia. The goal of this clinical research study is to learn which of the two methods of care will be the best way for girls and young women with iron deficiency anemia to take iron supplementation.
Background: Anaemia in pregnancy is a public health burden with high incidence in Africa. Currently high dose oral iron is recommended for treatment of mild to moderate anaemia and blood transfusion for severe anaemia. The high dose oral iron is often poorly tolerated and associated with several side effects. Various parenteral iron preparations are now available for treatment of iron deficiency anaemia (IDA). The earliest of these, iron dextran is not commonly used because of its potential to cause anaphylactic reactions. Newer preparations have been found to be safer and their use for treatment of IDA is currently being evaluated. Objective: This study sought out to compare the effectiveness of intravenous ferric carboxymaltose (intervention) versus oral ferrous sulphate (control) for treating IDA in pregnancy and to compare the tolerability, safety and the cost-effectiveness of intravenous versus oral iron among pregnant Nigerian women with moderate and severe IDA at 20-32 weeks' gestation. Methodology: This study will be a hybrid Type 1 effectiveness-implementation design. 1056 eligible and consenting pregnant women with anaemia at 20 - 32 weeks gestation will be recruited. They will be randomized into either of 2 groups. Group A will have intravenous ferric carboxymaltose 20mg/kg to a maximum of 1000mg in 200mls of normal saline infusion over 15 - 20 minutes at enrolment. Group B will have oral ferrous sulphate 200mg (65mg elemental iron) thrice daily from enrolment till delivery. They will be followed up through delivery and until 6 weeks post partum. Their haemoglobin concentration, full blood count, serum ferritin and serum transferrin will be assayed at specific intervals using standard laboratory techniques. Depression will be assessed at each visit using Edinburg Postnatal Depression Scale. Cost effectiveness analysis will also be done at each visit. The primary outcome measure will be incidence of maternal anaemia and rise in haemoglobin level. Secondary outcome measures will include safety and tolerability of trial drugs, severe maternal events, incidence of infant low birth weight and incidence of depression. Statistical analysis will be done using STATA version 16.0 statistical software (STATACorp, Texas, USA).
This pilot study has 2 components: 1) a cross-sectional assessment designed to estimate the prevalence of anaemia leading to donor deferral, the prevalence of iron deficiency (ID) and iron deficiency anaemia (IDA) among first-time donors, and 2) a longitudinal 2-arm parallel groups trial among first- time voluntary donors that compares haemoglobin levels at 4 months among those with ID or IDA who receive iron supplementation to those without ID or IDA who do not receive iron supplementation. A structured questionnaire will be used to extract demographic characteristics. Participants will be followed for a total of 6 months with study visits at 2, 4 and 6 months after the baseline assessments. Blood draws for full blood count (FBC), peripheral film comment, malaria rapid diagnostic tests (RDT) and ferritin assessment will occur at baseline and all follow-up visits. In addition, we will use a qualitative approach to identify barriers and facilitators of blood donation and the use of dietary and iron supplementation strategies to address iron deficiency and/or anaemia. This will involve conducting focus group discussions during the last month of the intervention and key informant interviews. Expected Outcomes The expected outcomes of the study have been grouped into two, primary and secondary. Primary Outcome will be haemoglobin level after 4 months. Secondary Outcomes are A. Change in haemoglobin levels B. Diagnosis of ID or IDA at 4 months C. Serum ferritin concentration after 4 months of intervention D. Acceptability of iron supplementation among participants and stakeholders E. Incidence of gastrointestinal adverse events F. Incidence of suspected malaria or bacterial infections G. Incidence of ID and IDA H. Successful return (non-deferred) to the blood donor pool after intervention within 6 months of enrolment I. Key barriers and facilitators of intervention implementation.
This study is being conducted to demonstrate the effect of Auryxia, when used as the primary phosphate lowering therapy, on the overall cumulative use of erythropoiesis-stimulating agent and intravenous iron as well as on the laboratory parameters indicative of phosphate and anemia management.
Vaccines often underperform in Africa compared to high-income countries. Why vaccines do not work as well in Africa remains uncertain. Malnutrition likely plays a role. Our study objective is to assess whether iron deficiency anaemia in young women impairs their immune response to the COVID-19 vaccine, and whether iron treatment improves their response.
Vaccines often underperform in Africa compared to high-income countries. Why vaccines do not work as well in Africa remains uncertain. Malnutrition likely plays a role. Our study objective is to assess whether iron deficiency anaemia in young women impairs their immune response to viral vaccines, and whether iron treatment improves their response.
Female endurance athletes are susceptible to iron deficiency and this can impact their exercise performance. This study assesses the impact of an pea protein supplement with high iron bio-availability on iron status and exercise performance.
This is a multi-center randomized controlled trial that will examine the efficacy of IV iron supplementation when compared to placebo, with and without exercise training, on changes in patient exercise capacity. The study aims to provide sufficient data to inform a power calculation for the definitive study to examine whether IV iron therapy in patients with CKD stages 3-4 (non-dialysis) can improve exercise capacity, muscle metabolism and physical function. Specifically, we propose to examine whether a strategy of IV iron therapy in patients with stages 3-4 CKD who are iron-deficient but NOT anaemic leads to improvements in exercise capacity. Very little is currently known about the effects of iron deficiency on cardiac or skeletal muscle metabolism in patients suffering from CKD. Nevertheless, it seems likely that iron deficiency will contribute to mitochondrial dysfunction and reduced energy production in cardiac or skeletal muscle of CKD patients, and importantly may contribute to the reduced exercise capacity, physical function and overwhelming fatigue commonly reported in this population. The results of this trial will provide data to ascertain whether intravenous iron therapy might be beneficial to exercise capacity, muscle metabolism, physical function, and fatigue and whether iron repletion enhances the effect of an exercise intervention.
Polyphenols present in tea are known to inhibit the absorption of non heme iron. The inhibiting effect of tea on non-heme iron absorption is attributed to the flavonoids present in tea. It is well known that Ferrous sulfate is not absorbed well in the presence of polyphenols. We would like to evaluate the effect of polyphenols on the newly developed compound, sodium iron chlorophyllin (SIC), which mimics the heme iron structure. Comparisons of fractional absorption of SIC and Ferrous Sulfate in the presence of polyphenols can help identify the performance of the compounds as vehicles for iron delivery in the presence of iron absorption inhibitors. In a single-blind randomized cross-over study using stable iron isotope technique, iron bioavailability from SIC delivered with an inhibitory matrix can therefore be determined when given along with black tea
Capsule Endoscopy (CE) is a safe, patient friendly and easy procedure performed for the evaluation of gastrointestinal tract unable to be explored via conventional endoscopy. The most common indication to perform SBCE is represented by Suspected Small Bowel Bleeding (SSBB). According to the widest meta-analysis available in literature, SBCE shows a diagnostic yield in SSBB of about 60%, and angiodysplasias are the most relevant findings, accounting for 50% of patients undergoing SBCE for SSBB. Accordingly, it represents the first line examination in SSBB investigation for determining the source of bleeding, if primary endoscopy results negative. Despite its high clinical feasibility, the evaluation of CE-video-captures is one of the main drawbacks since it is time consuming and requests the reader to concentrate to not miss any lesion. In order to reduce reading time, several software have been developed with the aim to cut similar images and select relevant images. For example, automated fast reading software have demonstrated to significantly reduce reading time without impacting the miss rate in pathological conditions affecting diffusely the mucosa (as IBD lesions do). Not the same assumption can be taken for isolated lesions since several studies reported an unacceptable miss rate for such a detection modality. New advancements such as artificial intelligence made their appearance in recent years. Deep convolutional neural networks (CNNs) have demonstrated to recognize specific images among a large variety up to exceed human performance in visual tasks. A Deep Learning model has been recently validated in the field of Small Bowel CE by Ding et al. According to their data collected on 5000 patients, the CNN-based auxiliary model identify abnormalities with 99.88% sensitivity in the per patient analysis and 99.90% sensitivity in the per-lesion analysis. With this perspective, it is believable that AI applied to SBCE can significantly shorten the reading time and support physicians to detect available lesions without losing significant lesions, further improving the diagnostic yield of the procedure.