View clinical trials related to Deficiency Diseases.
Filter by:A genomics-based approach will target specific genes that may explain the response in biomarkers and symptoms before and after supplementation. One objective is to generate evidence-based recommendations for vitamin D supplementation in Soldiers who often experience musculoskeletal disorders and immune dysfunction impacting physical performance and military readiness. The investigation is designed to address these specific aims: 1) explore vitamin D status in 105 Service Members to determine common symptoms associated with deficiency; 2) examine the effect of vitamin D levels on gene expression from select genes known to influence metabolism, bone density, and immune function; and 3) evaluate changes in gene expression between groups receiving high or low supplementation, and compare to healthy controls. Follow-up at 15 months will evaluate circulating vitamin D.
Evaluate safety and efficacy of iron isomaltoside/ferric derisomaltose (Monofer®/Monoferric®) compared with iron sucrose (Venofer®), in subjects diagnosed with IDA.
Evaluation of safety and efficacy of iron isomaltoside/ferric derisomaltose compared with iron sucrose, in subjects with both non-dialysis-dependent chronic kidney disease (NDD-CKD) and iron deficiency anaemia (IDA).
The purpose of this study is to know the prevalence of iron deficiency (ID) and iron deficiency anemia (IDA) among pregnant women in Chinese urban district at present, and to analyze the epidemiological characteristics of ID/IDA and influencing factors.
To confirm the safety and efficacy of Z-213 until 12 weeks after start of Z-213 administration in patients with iron deficiency Anemia
The purpose of this study is to confirm the non-inferiority of Z-213 compared to Saccharated Ferric Oxide using the maximum change in Hb from baseline over 12 weeks in patients with Iron-deficiency Anemia (IDA)
This study aims to evaluate a prototype device detecting zinc protoporphyrin-IX fluorescence non-invasively from the intact oral mucosa in children. The prototype device has shown high sensitivity and specificity in women after delivery for iron deficiency. Children are at increased risk for iron deficiency and prevention methods are not established jet. Zinc protoporphyrin-IX is an early indicator of iron deficiency and may be more sensitive than other established parameters. The prototype device is used to measure the erythrocyte zinc protoporphyrin-IX/heme ratio in children aged 9 months to 5 years. Children in this age are at increased risk for iron deficiency as they are growing rapidly and iron deficiency in this age may affect the neurodevelopment and immune system adversely. It is proposed that these effects cannot be rectified by iron supplementation in later years. The results from the non-invasive measurements are compared to reference measurements of the erythrocyte zinc protoporphyrin-IX/heme ratio from residual blood samples from the same patients and to other indicators of iron status, including hemoglobin, ferritin, serum iron, transferrin, transferrin saturation and soluble transferrin receptor.
To evaluate the safety of 1.020 grams (g) of intravenous (IV) ferumoxytol compared to 1.500 g of IV ferric carboxymaltose (FCM).
Iron deficiency anemia during pregnancy is a significant worldwide health problem, affecting 22% of pregnant women in industrialized countries and 52% in non-industrialized countries. Iron deficiency anemia during pregnancy is associated with increased maternal as well as fetal morbidity, including prematurity, low birth-weight and perinatal and infant loss. Therefore, routine iron supplementation during the second half of pregnancy has been recommended once daily. Others, however, support a selective iron supplementation only for women with iron deficiency anemia, in order to avoid the increased risk of haemoconcentration associated with routine iron supplementation. Unfortunately, compliance to either iron-supplementation programs, especially among pregnant women, is poor, due in part to the side effects associated with these preparations. Currently, there are many iron preparations available containing different types of iron salts, including ferrous sulfate, ferrous fumarate, ferrous ascorbate but common adverse drug reactions found with these preparations are mainly gastrointestinal intolerance like nausea, vomiting, constipation, diarrhea, abdominal pain, while ferrous bis-glycinate (fully reacted chelated amino acid form of iron) rarely make complication. Product resulting from the reaction of a metal ion from a soluble salt with amino acids to form coordinate covalent bonds, the resulting molecule is called as chelate and chemical bonding process is called chelation. Ferrous bis-glycinate is highly stable and totally nutritionally functional chelate it is an amino acid fully reacted chelate which is formed by the binding of two molecules of glycine to one Fe2+ atom.
The objective is to monitor and quality assure the efficacy, including effects on quality of life, and safety of Monofer® in Chronic Kidney Disease and Inflammatory Bowel Disease patient populations when Monofer® is used according to the Monofer® label (Summary of Product Characteristics, SPC) in current clinical practice and where standard routines are being followed.