View clinical trials related to Anemia.
Filter by: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, ferrous gluconate, ferrous fumarate, ferric maltose and ferric pyrophosphate. Each salt differs in elemental iron content and potential side effects, allowing for tailored treatment based on individual patient needs and tolerability. Moreover, 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.
This is a prospective, single-center, single-arm, phase 2 study. The aim of this study is to evaluate the efficacy and safety of Anti-lymphocyte globulin plus eltrombopag in combination with moderate-dose cyclophosphamide for severe aplastic anemia.
Anemia is a common problem during pregnancy. Most studies have demonstrated that anemia during pregnancy have adverse effects on their pregnancy outcome, which is important and should pay attention to prevent and solve such problems. The most common cause of anemia is iron deficiency. Several studies reveal that Vitamin C promotes iron absorption. In this study we will compare between Vitamin C with iron supplement and iron supplement alone in prevention of anemia in pregnancy.
Roxadustat is a licensed medicine to treat anemia in adults with chronic kidney disease (CKD). Anemia is a low level of red blood cells. Current treatment for anemia is to have injections of medicines called erythropoietin stimulating agents (also known as ESAs) to help the bone marrow make more red blood cells. These are often given together with iron. This treatment is also available to children and teenagers with CKD. However, there are some safety concerns with ESAs. Also, as roxadustat is taken orally, this may be another option for treating anemia in children and teenagers with CKD. In this study, children and teenagers with CKD and anemia will take roxadustat for up to 52 weeks to treat their anemia. The main aim of the study is to learn how roxadustat affects anemia in children and teenagers with CKD. This is an open-label study which means the children and teenagers in the study and the clinic staff know they will be taking roxadustat. In this study, the children and teenagers with CKD who need treatment for anemia can take part. Those currently being treated with an ESA will be switched to roxadustat. Those who have not been treated with an ESA can start on roxadustat straight away. All children and teenagers in the study will take roxadustat 3 times a week for up to 52 weeks (1 year). They will start on a fixed dose of roxadustat for 4 weeks. Blood samples will be taken regularly to check hemoglobin levels. The roxadustat dose may be changed if the blood levels of hemoglobin are too high, too low, or change too quickly. After 4 weeks the dose may be changed, if needed, to keep blood levels of hemoglobin in the blood to just below the normal range. Firstly, teenagers will take roxadustat. 10 teenagers will take their fixed dose of roxadustat for 4 weeks. They will give blood samples to help the researchers work out the most suitable dose for the rest of the teenagers in the study. When the rest of the teenagers start taking roxadustat at the most suitable dose for teenagers, 10 children will take roxadustat for 4 weeks. These 10 children will give blood samples to help the researchers work out the most suitable dose for the rest of the children in the study. Then, the rest of the children will take roxadustat at the most suitable dose for children. There will be many clinic visits during the study. Overnight hospital stays are not expected. There will be 1 visit every 2 weeks for the first 4 weeks of taking roxadustat, then every 4 weeks until the end of treatment. Finally there is 1 visit 4 weeks after treatment has finished. During most visits, the children and teenagers will have their vital signs checked (blood pressure, body temperature and heart rate). Fluid status (how much water is in the body) will also be checked for those who need dialysis. The children and teenagers will also have blood tests and the study doctors will check for any medical problems. The children and teenagers will have a medical examination before their first dose of roxadustat and again at about 24-week (6-month) and 52-week (13-month) visits. They will have an electrocardiogram (ECG) before their first dose of roxadustat and again at the 12-week, 24-week, 36-week, and 52-week visit. They will also have urine tests at the 4-week, 24-week and 52-week visits. At the 52-week visit, the children and teenagers will also have blood tests for hemoglobin and iron levels. The study doctors will also check for any medical problems.
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.
Investigator-initiated, interventional, prospective study to assess the clinical and operational effectiveness of daprodustat in adult patients receiving in center hemodialysis or peritoneal home dialysis who are transitioning from Mircera to daprodustat.
To study and analyze the association of the severity of anemia with neonatal morbidity and the risk factors of anemia in ealry life (less than 3 days of life) among the very low birth weight (VLBW) infants.
The purpose of the study is to compare the efficacy and safety of Luspatercept vs epoetin alfa in the treatment of anemia in adults due to IPSS-R very low, low, intermediate-risk MDS in ESA-naïve participants who are non-transfusion dependent (NTD).
This is a human subject research study conducted in patients undergoing dialysis treatment with darbepoetin alfa at Intermountain Utah Dialysis and Intermountain Medical Center Dialysis Services. The purpose is to test a dose recommendation algorithm that may reduce hemoglobin variability and drug cost.