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NCT06994065
The goal of this clinical trial is to learn if Ferric Carboxymaltose is a safe efficacious alternative to Iron Sucrose for treatment of Iron deficiency anemia in non-dialysis dependent chronic kidney disease patients. The main questions it aims to answer are: * Does Ferric Carboxymaltose causes similar or higher rise in hemoglobin concentration and serum Ferritin and transferrin saturation * What medical problems will participants have when receiving Ferric Carboxymaltose Participants will: * Be administered either Ferric Carboxymaltose or Iron Sucrose * Visit the clinic at day 28 and 56 for checkup and tests * Be monitored for any medical problem during and after infusion
NCT06642337
The goal of this clinical trial is to evaluate whether a Nutritional Educational Program for caregivers can improve their knowledge and performance in managing iron deficiency anemia (IDA) in children, compared to oral iron therapy alone. The study focuses on children with IDA, particularly in \[age range 1-5 years\], and aims to determine if combining nutritional education with oral iron therapy has a greater impact on improving hemoglobin levels than iron therapy alone. The main questions it aims to answer are: 1. Does caregiver education improve children's hemoglobin levels more effectively than oral iron therapy alone? 2. Does nutritional education improve caregiver knowledge and practices regarding iron-rich diets? Researchers will compare children who receive both caregiver education and oral iron therapy to those receiving only oral iron therapy to assess differences in hemoglobin levels. Participants will: Receive oral iron supplements. Caregivers will participate in educational sessions on dietary strategies to manage IDA.
NCT07394088
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.
NCT06238895
The goal of this clinical trial is to evaluate, if a change in dosing strategy in oral iron supplementation from leads to an improvement of iron absorption and consequently a faster therapy in patients with iron deficiency. The main question the study aims to answer is: Does a treatment effect (measured by change in hemoglobin after 12 weeks of treatment) exist between daily oral iron supplementation and interval administration (every second day)? Participants will receive oral iron supplementation every second day with double the standard dose (intervention group). Researchers will compare this group with the active control group, that receives oral iron supplementation every day with the standard dose. Participants will present for three patient visits (at baseline, after 6 and after 12 weeks of treatment).
NCT03944733
This study aims to examine the relation between iron status and maternal-child interactions as well as maternal depressive symptoms in mothers from central Pennsylvania.
NCT04268849
Given the limited long-term effectiveness of traditional weight loss methods, bariatric surgery is increasingly becoming the preferred option for sustained weight loss. With the ascendancy of the laparoscopic approach, the two most common procedures are the Roux-en-Y gastric bypass (RYGB) and the vertical sleeve gastrectomy (VSG). Because bariatric surgery decreases nutrient intake through restriction, malabsorption, or both, and given that obese patients are often malnourished even before surgery, postoperative micronutrient deficiency, particularly of iron, can be a serious complication and difficult to treat. Iron deficiency anemia has been reported to be as high as 49% in the post-bariatric surgical patient. The current standard for correcting iron deficiency anemia in the post-operative bariatric surgical patient is oral iron supplements. However, oral iron therapy is known for its caustic effects on the gastric mucosa causing gastric irritation, nausea, epigastric discomfort and constipation. These debilitating symptoms lead to poor adherence and lower long and short-term efficacy. Furthermore, iron absorption from oral iron supplements when taken with food in patients with low iron stores ranges from 2 to 13% and without food 5 to 28%. An alternative and more effective method of iron replenishment is the use of intravenous iron. A litany of published trials, without contradiction, show marked superiority of intravenous iron in improving hemoglobin concentrations and iron parameters when compared to historical controls. Nonetheless, the current recommendations of the American Society of Metabolic and Bariatric Surgery nutritional guidelines, state that oral iron supplementation for IDA is the recommended first line of treatment. Studies are lacking that compare the efficacy of oral versus intravenous (IV) iron therapy for the treatment of IDA in the post-bariatric surgical patient. The aim of our study is to compare two accepted treatments for iron deficiency anemia (oral ferrous sulfate and intravenous ferumoxytol) for efficacy and speed of response in the treatment of IDA in the post-operative bariatric surgical patient. In this study, 104 bariatric surgical post-operative patients will be randomly assigned 52 each to oral or 52 to a single dose IV iron treatment using double-blind procedures. The primary outcome will be determined at 6 weeks of treatment with a follow-up at 12 months after treatment. Non-responders at 6 weeks after treatment may, if they qualify (based on inclusion/exclusion criteria), have an open-label IV iron treatment and will be followed with the same evaluations used after the first IV iron treatments.
NCT05681871
Preoperative anaemia has been shown to be associated with worse outcomes after surgery in both adults and children. Limited research has been done on how common preoperative iron-deficiency anaemia (IDA) is in children and how best to treat it. Oral iron is a relatively cost-effective treatment for IDA. This study aims to show whether giving children with IDA oral iron for 6-12 weeks before their surgery significantly improves their haemoglobin.
NCT04008147
Gestational diabetes mellitus (GDM), defined as hyperglycemia with blood glucose values above normal but below those diagnostic of DM, and iron deficiency (ID) with or without anemia (IDA) are common during pregnancy. Both disease patterns are associated with an increased risk of complications during pregnancy and at delivery and may have a variety of negative effects on different aspects of child development. Thus, GDM and ID/IDA during pregnancy should be prevented. Whether iron supplementation with high oral doses acutely increases hepcidin during pregnancy, and whether this acute iron-induced increase in hepcidin decreases insulin sensitivity, is uncertain.
NCT06957717
Introduction: The prevalence of anemia among adolescent girls in Indonesia is still quite high. According to the Indonesian Health Survey (IHS) in 2023, it was 18% and is still a national problem. Long-term supplementation of blood supplement tablets (TTD) as an effort made by the government to prevent/overcome anemia has caused side effects, namely dysbiosis by pathogenic bacteria. Giving cow's milk kefir containing various probiotics can overcome the side effects of supplementation, and its metabolites accelerate iron absorption so that iron status in the blood increases and ultimately restores anemia in adolescent girls. Method: It's research is an experimental study, with a Randomized Controlled Trial (RCT) design, pre-posttest design, involving research subjects of adolescent girls (15-18 years) with mild and moderate anemia, at SMKN 1, 2, and 3 Kasihan, Bantul Regency, Yogyakarta as many as 80 students. Subjects were divided into 2 groups, namely group 1 (treatment group), which was given 120 ml of cow's milk kefir every day and TTD 1 grain/week, and group 2 (control group), which was given 120 ml of cow's milk every day and TTD 1 grain/week. The duration of administration was 2 months. The study outcomes were Short Chain Fatty Acid (SCFA) levels in feces by Gas Chromatography-Mass Spectrometry (GC-MS) method, hemoglobin by Hematology Analyser method, and serum ferritin by Ferritin ELISA measured at the beginning and end of the study. Statistical analysis included univariate, bivariate, and multivariate analysis. Clinical analysis was also conducted to estimate the effect size of the treatment
NCT06948864
The prevalence of preoperative anaemia in patients undergoing major surgery is approximately 30%, and is independently associated with higher mortality, a higher rate of postoperative complications, and a greater probability of receiving a transfusion. In a prehabilitation program, the evaluation and correction of anaemia in the preoperative period is essential, as it is a risk factor for transfusions and complications. The main objectives of this study were to analyse the need for blood transfusion, post-surgical complications, hospital length of stay, ICU length of stay, hospital readmissions, and surgical wound infection in patients treated with ferric carboxymaltose (FC) before surgery. A total of 152 patients were included, of whom 96 received FC before the intervention and 56 received no treatment (control group).
NCT06911034
This clinical trial aimed to determine whether intravenous ferric carboxymaltose is more useful than iron sucrose for treating anemia in pregnant women. The main question it aimed to answer was: Is intravenous ferric carboxymaltose is more useful than iron sucrose for treating iron deficiency anemia in pregnant women. Sixty pregnant women with iron deficiency anemia were enrolled to one of two intravenous treatments. * Participants in ferrous carboxymaltose group received a maximum dose of 1000 mg per sitting diluted in 200 ml 0.9% normal saline and administered as an IV infusion over 30 min. * Participants in iron sucrose group were administered an infusion of 300 mg in 200 ml NS over 15-20 min twice weekly till dosage was completed, not exceeding 600 mg per week.
NCT06425796
This study aims to explore how body fat influences the response to either 25 or 50 mg of daily iron supplements during pregnancy. We will conduct a double-blind randomized controlled intervention study involving 312 pregnant women recruited from antenatal clinics in the Northern Trust Area. Participants will be randomly assigned to receive either 25 or 50 mg of iron per day from 12 weeks of pregnancy until delivery, using the Active Iron supplement brand. Blood samples will be collected at 12, 28 and 36 weeks gestation and umbilical cord blood will be collected at delivery. Anthropometric measurements will be taken at each visit, and participants will complete questionnaires on various aspects of health and lifestyle, mental health, gastrointestinal symptoms, and compliance.
NCT06631612
The goal of this clinical trial is to learn if giving iron supplementation every other day is as effective as giving it daily in children with Iron Deficiency Anemia. The main questions it aims to answer are: 1. Will alternate day regimen improve hemoglobin and iron profile just as well as daily dose? 2. Which group will suffer less side effects from Iron Supplementation? Participants will be divided into two groups: Group A: will receive oral Iron supplementation daily for 2 months Group B: will receive oral Iron supplementation every other day for 2 months Participants will be monitored using weekly phone calls to insure compliance and report side effects. Both groups will be given Albendazole 400 mg once at the beginning of the study to be repeated in 1 week
NCT04594070
The target population for our study is pregnant women in the first or second trimester with a diagnosis of iron deficiency anemia. If a subject is eligible, written consent will be obtained by person to person contact. Eligible participants will be randomized to receive either daily oral iron supplementation or every other day oral iron supplementation.
NCT04821349
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.
NCT06219395
This project aim to investigate whether wireless capsule endoscopy(WCE) has a similar diagnostic yield as conventional endoscopy in detecting the cause of iron deficiency anemia (IDA)
NCT06176430
a randomized clinical trial to compare the effect of twice weekly versus daily iron therapy in treating anemia in children with cerebral palsy, to be conducted at Department of pediatric medicine children's hospital PIMS islamabad.
NCT05504863
As a follow-up to the RAPIDIRON Trial (NCT05358509), this study will follow the previously randomized mothers as well as their offspring after birth to assess neurodevelopmental, hematologic, and health outcomes. The study's overarching goal is to determine if the offspring born to RAPIDIRON Trial mothers in the intravenous iron groups, compared to the oral iron group, will achieve superior neurodevelopment, iron stores, and growth at specific time points during the first three years of life. Differences will be assessed between offspring based on the iron deficiency anemia (IDA) treatment of the mother.
NCT04782986
The authors hypothesize that in patients with iron deficiency anemia or gastrointestinal bleeding, pan-intestinal capsule endoscopy is a safe and well tolerated procedure that may improve diagnostic yield comparatively to the current standard invasive colonoscopy.
NCT05007899
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.