about
Vitamin B12 supplementation during pregnancy and postpartum improves B12 status of both mothers and infants but vaccine response in mothers only: a randomized clinical trial in Bangladesh.Iron incorporation and post-malaria anaemiaTherapeutic effects of induced pluripotent stem cells in chimeric mice with β-thalassemia.Evaluation of iron deficiency as a nutritional adaptation to infectious disease: an evolutionary medicine perspective.Interactions and potential implications of Plasmodium falciparum-hookworm coinfection in different age groups in south-central Côte d'Ivoire.Challenges in the diagnosis of iron deficiency in children exposed to high prevalence of infections.Evaluation of iron status in European adolescents through biochemical iron indicators: the HELENA Study.Case studies: iron.Study of maternal influences on fetal iron status at term using cord blood transferrin receptorsEtiology of anemia among infants, school-aged children, and young non-pregnant women in different settings of South-Central Cote d'IvoireBiological variation of plasma ferritin in healthy adult males in south Indian population-A sample study.The regulation of cellular iron metabolism.Nutritional and safety outcomes from an open-label micronutrient intervention for pediatric bipolar spectrum disorders.Diagnosis and management of anaemia of chronic disease: current status.Iron deficiency anemia in heart failure.Iron metabolism in man.Concept of double salt fortification; a tool to curtail micronutrient deficiencies and improve human health status.Pleiotropic actions of iron balance in diabetes mellitus.Ferritin and iron studies in anaemia and chronic disease.Minimal impact of an iron-fortified lipid-based nutrient supplement on Hb and iron status: a randomised controlled trial in malnourished HIV-positive African adults starting antiretroviral therapy.Dynamics of anemia in relation to parasitic infections, micronutrient status, and increasing age in South-Central Côte d'Ivoire.Survey of anaemia and Helicobacter pylori infection in adolescent girls in Suihua, China and enhancement of iron intervention effects by H. pylori eradication.Disadvantaged pre-schoolers attending day care in Salvador, Northeast Brazil have a low prevalence of anaemia and micronutrient deficiencies.Soluble transferrin receptor levels are positively associated with insulin resistance but not with the metabolic syndrome or its individual components.Does moderate iron deficiency protect against childhood illness? A test of the optimal iron hypothesis in Tanzania.Release of the soluble transferrin receptor is directly regulated by binding of its ligand ferritransferrin.Cord blood transferrin receptors to assess fetal iron status.Acute- phase response and iron status markers among pulmonary tuberculosis patients: a cross-sectional study in Mwanza, Tanzania.Anaemia and iron deficiency between 2003 and 2007 in Amazonian children under 2 years of age: trends and associated factors.Iron injections in mice increase skeletal muscle iron content, induce oxidative stress and reduce exercise performance.Cultural and environmental barriers to adequate iron intake among northern Kenyan schoolchildren.Plasma ferritin and soluble transferrin receptor concentrations and body iron stores identify similar risk factors for iron deficiency but result in different estimates of the national prevalence of iron deficiency and iron-deficiency anemia among wReducing Iron Deficiency in 18-36-months-old US Children: Is the Solution Less Calcium?A comparison of transferred receptor with other iron assessment measures in an upper-income post partum Jamaican sample.Intake and dietary sources of haem and non-haem iron among European adolescents and their association with iron status and different lifestyle and socio-economic factors.Correct assessment of iron depletion and iron deficiency anemia.Impact of inflammation on the biomarkers of iron status in a cross-sectional survey of Lao women and children.Main and interaction effects of iron, zinc, lead, and parenting on children's cognitive outcomes.The transferrin receptor cytoplasmic domain determines its rate of transport through the biosynthetic pathway and its susceptibility to cleavage early in the pathway.Multicenter evaluation of a fully mechanized soluble transferrin receptor assay on the Hitachi and cobas integra analyzers. the determination of reference ranges.
P2860
Q30371409-AE93B74B-A734-4E67-8931-CCCAE9864BF0Q33332131-D2DC3187-CD9B-40D8-9A1C-66C142A7594EQ33978886-5529EE6F-E782-470E-A960-8C3228B6E57BQ34014326-80CB491D-282B-4D5A-9B1C-762A340F165DQ34470005-431A5611-6F8C-4C8C-BE1F-25D91EF16501Q34500512-D1C73035-3042-4194-AE8A-DFF833E13F59Q34626789-2944C28F-8F1B-4AB4-8274-07D7B50F1F0FQ35125388-DB066B48-7CD7-4004-9E95-B8960A16AEEFQ35290219-1DE1F830-6E62-4CCE-81AE-5F3D33559CE9Q36213226-F3DF19D5-D54E-4BDA-9415-5567007007E9Q36264595-58AC95FE-EB98-4568-9EB9-0EFFD1243FDFQ36974377-35FA5810-B41D-4D9C-BE5A-E45DE6029639Q37244943-3711D22D-ADD6-4D3A-B198-162774C5C0CBQ37880158-1A794164-71F9-4CCA-9621-2E307244173AQ38040656-3D27A188-57CA-45F8-91EC-A6CFD42EC3EFQ38042571-CA8E602C-160F-4206-9845-2592433785EBQ38191887-C8E543C8-EF14-441A-A4E2-000AB772C84CQ38292395-687420EE-4BA2-4236-86C3-363DE5F0550FQ38971850-ACF9C46A-ACB1-41D6-AABB-CA2AAF866016Q39100244-16051B9E-CA2F-4E1E-8B12-E71526E30FAEQ39398864-EFD9C144-B0AA-4F25-BEAC-D1DA2CDEBC6DQ40003159-DDC18458-45F4-4EC6-B501-1ABC2505E9E4Q40135365-76BF99F2-41F8-4850-9FA4-EC67A3B47117Q40590704-770DC216-16BB-4EF5-A55F-2D88E67F98CBQ41013276-CEE24773-4703-4A62-95DF-06481145D691Q41792372-18996B15-7F57-44D2-9455-436B83BB6B45Q42009855-82F72C4A-6D52-4371-8BDC-4C40FA0BD6EEQ43943560-7598D8A0-3E4E-4720-B89B-4914B1322747Q44040965-7A113D88-AAAC-4CAF-8B19-1BB200AD1E99Q46129102-77B3859B-08CA-4B8D-A2AE-6E1AB7878E0FQ46207765-7376BC16-00F7-4E10-864B-A080D8FE2DA1Q46723783-B12492E9-1077-4A06-B4DB-6A9BA5AA671BQ48826890-5CD013E9-52D6-47C7-B3DB-B659ECD72992Q50088183-121342F0-3370-475B-947E-EF511B95D9ADQ50490803-CF4EF355-3DC0-42AC-8D9D-61B3C85E4623Q50727340-5750A1D8-DFA4-4B37-8D43-07D14B67A4CEQ50897174-F041EABF-48A6-495E-AB56-35CB65DECBBBQ51780271-F836B738-E8E6-4A22-A605-89493AD18640Q52186693-84F7A33B-1751-4064-9172-D340296BF922Q53312946-3B563B79-5045-4973-946B-EBAF2F12152B
P2860
description
1993 nî lūn-bûn
@nan
1993年の論文
@ja
1993年学术文章
@wuu
1993年学术文章
@zh-cn
1993年学术文章
@zh-hans
1993年学术文章
@zh-my
1993年学术文章
@zh-sg
1993年學術文章
@yue
1993年學術文章
@zh
1993年學術文章
@zh-hant
name
Serum transferrin receptor.
@en
type
label
Serum transferrin receptor.
@en
prefLabel
Serum transferrin receptor.
@en
P2093
P1476
Serum transferrin receptor.
@en
P2093
P356
10.1146/ANNUREV.ME.44.020193.000431
P577
1993-01-01T00:00:00Z