View clinical trials related to Iron Deficiency Anemia.
Filter by:Anemia is a common health problem. Depending on a geographical region, anemia affects even 50% of population. Among patients admitted to the intensive care unit (ICU) anemia may affect as much as 66% of patients. Moreover, many patients develop anemia during the ICU stay. In general population the most common cause of anemia is iron deficiency (ID). The investigators lack information on the incidence of ID and anemia of inflammation (AI) with absolute ID (mixed type of anemia: AI + IDA) or functional ID (AI) in patients with sepsis or septic shock hospitalised in the ICU. Therefore, the aim of the study is to improve diagnosis of iron deficiency (ID) and anemia of inflammation (AI) with absolute ID (AI + IDA) or functional ID (AI) in patients with sepsis or septic shock. ID have negative effects on the body and is associated with impaired production of proteins responsible for transport of oxygen in the blood (hemoglobin) and oxygen storage (myoglobin), and impaired immune function. Development of anemia is associated with well documented complications: organ hypoxia, myocardial infarction, stroke, infection. Replenishment of iron at this early stage may potentially prevent IDA. It is advantageous to replenish iron stores in order to avoid these complications, especially in patients with sepsis or septic shock. In IDA red blood cell transfusion is not recommended as it leads to other numerous complications. Therefore the patients presenting with laboratory results suggesting ID will receive divided doses od parenteral iron. Monitoring of iron replenishment will be based on a new laboratory parameter- reticulocyte hemoglobin equivalent.
Transfusion management improvement programs, generally known as patient blood management (PBM) programs, are based on a set of perioperative measures aimed at improving clinical outcomes by avoiding unnecessary exposure to blood components. In a recent series of liver transplants (LT) performed in Spanish centers belonging to the Spanish Liver Transplant Society, despite optimal hemostasis management and preservation of the vena cava, around 20% of patients required massive transfusion (considered as the administration of 6 or more red blood cell concentrates intraoperatively). In addition, 63% of the patients were transfused with at least one packed red cells during the operation. By correcting the iron deficiency in patients who meet the criteria of the anemia study (transferrin saturation less than 20%), we could improve the hemoglobin level, which would allow a wider margin for the transfusion of red cell concentrates.
The study is designed as a parallel, randomized, double blind, three-arm single-center study exploring the efficacy and safety of 12-week once daily oral dosing of iron for correction of overall iron status in 150 otherwise healthy iron-deficient adults presenting with or without mild microcytic anemia. Three iron-containing preparations in the form of either Ferrous Sulfate Capsules, >Your< Iron Forte Capsules, or >Your< Iron Forte Liquid will be tested. Potential study participants will be recruited from the general population of 18-50 year old adults. Participant eligibility will be determined by screening for hemoglobin and ferritin (in combination with C-reactive protein) levels in a sample of venous blood. Eligible individuals will be invited to participate in the study. Enrolled participants will be randomized into one of three intervention groups in a 1:1:1 ratio, receiving either Ferrous Sulfate Capsules, >Your< Iron Forte Capsules, or >Your< Iron Forte Liquid. Efficacy and safety of the assigned interventions will be evaluated through analyses of relevant hematological (hemoglobin, red blood cell indices) and biochemical (ferritin, transferrin saturation) iron-related parameters and reported adverse events after the first 4 and after a total of 12 weeks of intervention.
Obesity and iron deficiency (ID) are two forms of the most usual nutritional disorders worldwide. Iron deficiency remains the most common nutritional deficiency and cause of anemia worldwide. Populations in the developing countries, premenopausal females, pregnant women, children, vegetarians and frequent blood donors are largely affected by iron deficiency due to low dietary intake, inadequate bioavailable iron, increased iron demand required for growth and development, iron losses and changes in blood volume. WHO recognized obesity as disease, which is prevalent in both developing and developed countries. Overweight and obesity are now so common and thereby replacing the more traditional public health concerns (under nutrition and infectious diseases) as some of most significant contributors to ill health. The aim of this study is to investigate effect of aerobic exercise and diet on obese anemic premenopausal women which not clarified previously. It will be hypothesized that: There will be no significant effect of aerobic exercise and diet on the anthropometric and hematological measurements in obese anemic women.
The investigators will retrospectively collect data of patients infused at UMC's emergency department (ED) with long acting irons (ferric carboxymaltose, iron dextran, iron sucrose, etc.), in addition, patients infused with blood products, with intent to treat iron deficiency anemia (IDA). Patient records reviewed will be from patients who were infused at UMC ED from January 2013 to June 2018. Primary aim of analysis will be to investigate superiority between interventions implemented for treating IDA. In addition, the investigators will utilize data to characterize patients who used ED services as an avenue to receive treatment for IDA. Further, the investigators will conduct cost analysis between different IDA directed treatments administered in the ED at UMC.
The main purpose is to determine whether FPC, administered via infusion, is safe and effective for the treatment of iron deficiency anemia (IDA) in patients receiving Home Infusion therapies (HI).
Iron deficiency (ID) with or without anemia is a major public health problem worldwide, especially in women of reproductive age. Iron supplementation can be an effective strategy to prevent and treat ID and iron deficiency anemia (IDA). Recent studies suggests that giving oral iron every other day would be an optimized dosing regimen with maximized absorption and a lower incidence of gastrointestinal side effects compared to consecutive day dosing. Long-term trials in which participants and investigators are blinded to the dosing interval with iron status and gastrointestinal side effects as study outcomes are needed.
The project aims to assess if consuming two slices of multi-fortified bread daily for 120 days is effective in reducing iron deficiency anemia in women of reproductive age through a three-arm randomized trial.
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.
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.