View clinical trials related to Anemia, Iron Deficiency.
Filter by:This study will address whether the additional use of Ferric Derisomaltose on top of standard care will improve exercise capacity and quality of life in patients with acute heart failure and iron deficiency. One group of participants will receive treatment with Ferric Derisomaltose and the other group will receive normal saline 0.9% as placebo.
This clinical trial aims to carry out research on the effect on hemoglobin and renal function of intravenous administration of iron dextran as a repletion strategy in patients with iron deficiency anemia and acute kidney injury, in which the patient may benefit from this drug as it is expected to correct anemia, ferropenia and renal function parameters, when compared with a control group (placebo), the safety of the drug will also be assessed by recording adverse effects. The investigators will point out with the patient the risks and benefits of their inclusion in this type of study and the investigators will attend to all the doubts that are generated, as well as immediately report to the research ethics committee any serious adverse effects. The results will be presented at national and international conferences and will be published in high-impact journals, and will also be the subject of a thesis to achieve the title of specialist.
Anemia is a major public health problem among preschool-aged children. The evidence demonstrated that early childhood anemia is a strong predictor of adulthood anemia (Gessner, 2009). According to Egypt's Demographic and Health Survey (EDHS), prevalence rates of anemia in children aged 6-59 months ranged from 23% to 45% (EDHS, 2014). It is assumed that 50% of the cases of anemia are due to ID (Aref and Khalifa, 2019). The major health problem in Egypt is ID that affects 41.2% of children aged <5years (El-Asheer et al., 2021). The total prevalence of IDA in the Nile Delta region was 17.19% of the children (El-Shanshory et al., 2021). Iron is a trace element that is essential to form hemoglobin in red blood cells and to carry oxygen to peripheral tissues. In addition, iron plays essential functions in the mitochondria, which are crucial for regulating energy metabolism in the skeletal muscle (Kang and Li, 2012). And low iron levels limit oxygen bioavailability in the peripheral tissues, including skeletal muscle (Jolly et al., 2001).Yu-mi et al., (2020) found a low handgrip strength in anemic patients. Also, ID can impaired brain energy metabolism, along with hypo-myelination and impaired dopamine signaling, is consistently described as one of the mechanistic causes of the neurodevelopmental deficits associated with early-life ID (Thomas et al., 2020). HYPOTHESES: There is a relation between IDA and pinch strength and hand dexterity in preschool children. RESEARCH QUESTION: Is there a relation between IDA and pinch strength and hand dexterity in preschool children? The purpose of the current study is to find the relation between IDA and: 1. Pinch grip strength (tripod and tip to tip grip strength). 2. Hand dexterity in preschool children.
This trial is designed to compare the efficacy of ferrous ascorbate versus liposomal iron for the treatment of nutritional iron deficiency anemia (IDA) amongst 6 to 59 months age children as determined by the increase in hemoglobin concentration and change in iron indices after 12 weeks of treatment. This study will be a randomized double-blinded single-center study done at the outpatient department of the Department of Pediatrics. All the children between 6 months to 59 months with nutritional IDA will be enrolled in the study. Written informed consent will be taken from the caregiver. At baseline detailed history will be taken and a complete physical examination will be done. Complete blood count (CBC), Peripheral smear, corrected reticulocyte count, Serum iron, Serum ferritin, and serum Total iron binding capacity(TIBC) will be done at baseline. Transferrin saturation will be calculated with the formula Serum Iron/ TIBC ×100. C Reactive Protein (CRP) and alpha1- acid glycoprotein (AGP) will be done to look for inflammation. Eligible subjects would be randomized in a 1:1 ratio by computerized software to receive either ferrous ascorbate or liposomal iron. Subjects in the ferrous ascorbate group would be given the drug at a dose of 3mg/kg/day OD of elemental iron. Subjects in the liposomal group would be given 1mg/kg/day OD of liposomal iron. Follow-up visits would be done at 4 and 12 weeks. Follow-up at 4 weeks is required to check the initial response to treatment and identify nonresponders and at 12 weeks is required to see the final response and thus decide upon continuation or discontinuation of treatment. In the follow-up visit at 4 and 12 weeks, CBC, Iron profile (Iron, Ferritin, and TIBC), CRP, and AGP will be done. Corrected Reticulocyte will be done at 4 weeks only. Any adverse effects of therapy will be noted. Adherence to therapy will be checked by measuring the volume of unused medicine in the bottle at each visit. All the statistically analyzed continuous data will be presented as mean ± standard deviation (SD). The categorical data will be reported as a percentage. Student's t-tests will be used to compare means. The χ2 test will be used to compare categorical outcomes, including the proportion of patients with dropouts, adverse effects, and adherence measures. The percentage volume of unused study medication returned at each visit will be compared using the Wilcoxon rank sign test. p<0.05 will be considered statistically significant.
Is there effect of yoga breathing exercises versus aerobic exercise on hematological parameters in iron deficiency anemic females? The purpose of the study is to investigate the effect of yoga breathing exercises versus aerobic exercise on hematological parameters in iron deficiency anemic females
This is a trial with an observational and an interventional arm, in patients with moderate to severe anemia and control subjects. The main purposes of this study is to phenotype the scope of neurocognitive deficits from iron deficiency anemia (IDA) in adult women, determine derangements in cerebral perfusion, vascular reactivity, functional connectivity, and blood brain barrier permeability in adult-onset IDA and relate them to neurocognitive deficits, as well as determine the reversibility and durability of both the physiologic and neurocognitive derangements by iron replacement therapy. All eligible subjects will be asked to provide informed consent before participating in the study.
This study aims to explore the safety and preliminary efficacy of a response-guided dose titration of KER-047 in the treatment of functional IDA (Iron deficiency anemia) in MDS (Myelodysplastic syndrome), MF(Myelofibrosis), and MDS/MPN (Myeloproliferative neoplasm) overlap syndromes.
Iron deficiency is the most common nutritional deficiency and the most common cause of anemia. Anemia has a significant impact on the health of the fetus as well as that of the mother. It impairs the oxygen delivery through the placenta to the fetus and interferes with the normal intrauterine growth, leading to fetal loss and perinatal deaths. Anemia is associated with increased preterm labor (28.2%), preeclampsia (31.2%), and maternal sepsis. The study aims to compare the effect of Lactoferrin versus intravenous iron sucrose for the treatment of iron deficiency anemia during pregnancy.
Iron deficiency (ID) anemia (IDA) is a global public health problem, with the highest prevalence in Africa. Vaccines often underperform in low- and middle- income countries (LMIC), and undernutrition, including ID, likely plays a role. Recent studies have shown the importance of iron status in vaccine response. Intravenous iron given at time of vaccination improved response to yellow fever and COVID-19 vaccines in IDA Kenyan women. Whether oral iron treatment would have a similar beneficial effect on vaccine response is uncertain. Also, timing of oral iron treatment needs further investigation. The co-primary objectives of this study are to assess 1) whether IDA in Kenyan women impairs vaccine response, and whether oral iron treatment improves their response; 2) the timing of oral iron treatment to improve vaccine response (prior to vaccination vs at time of vaccination). We will conduct a double-blind randomized controlled trial in southern Kenya to assess the effects of iron supplementation on response to three single-shot vaccines: Johnson & Johnson COVID- 19 (JJ COVID-19), the quadrivalent meningococcal vaccine (MenACWY) and the typhoid Vi polysaccharide vaccine (Typhim Vi). Women with IDA will be recruited and randomly assigned to three study groups: group 1 (pre- treatment) will receive 100 mg oral iron as ferrous sulfate (FeSO4) daily on days 1-56; group 2 (simultaneous treatment) will receive matching placebo daily on days 1-28, and 200 mg oral iron as FeSO4 daily on days 29-56; and group 3 (control) will receive matching placebo daily on days 1-56. Women in all groups will receive the JJ COVID-19 vaccine, the MenACWY and the Typhim Vi vaccine on day 28. Cellular immune response and serology will be measured at 28 days after vaccination in all groups.
Primary purpose: To evaluate the difference of hematopoietic response rate at 1 month after concurrent chemoradiotherapy between iron isomaltide and oral iron supplement for treating iron-deficiency anemia patients with locally advanced nasopharyngeal carcinoma. Secondary purpose: To evaluate the difference of hematopoietic response rate, tolerance, acute side effects, qualtiy of life at 2 months and 3 months after concurrent chemoradiotherapy between Iron Isomaltide and oral iron supplement for treating iron-deficiency anemia patients with locally advanced nasopharyngeal carcinoma.