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1 preserve placental iron in the face of fetal iron deficiency.
2 articularly important for COX assembly under iron deficiency.
3 pulation is anaemic, half of which is due to iron deficiency.
4 o 24 weeks, dosed according to the extent of iron deficiency.
5 horylated form of URI only accumulates under iron deficiency.
6 bioavailable dietary iron sources to prevent iron deficiency.
7 root microbial community specifically under iron deficiency.
8 but less is known about how plants perceive iron deficiency.
9 ltered growth responses to copper excess and iron deficiency.
10 orphyria, for example, in liver diseases, or iron deficiency.
11 e is highly regulated and induced only under iron deficiency.
12 ociated with an increased subsequent risk of iron deficiency.
13 letion reduced cell viability in response to iron deficiency.
14 ng medication use and the subsequent risk of iron deficiency.
15 modifications during both erythropoiesis and iron deficiency.
16 ciated with an increased subsequent risk for iron deficiency.
17 re donation-related symptoms, deferrals, and iron deficiency.
18 exercise capacity in patients with HFrEF and iron deficiency.
19 patients with pre-existing risk factors for iron deficiency.
20 petrobactin (fpbNOPQ) are induced to prevent iron deficiency.
21 FRO2 locus associated with root length under iron deficiency.
22 se medications increase the risk of clinical iron deficiency.
23 ortening in high copper conditions and under iron deficiency.
24 ysfunction as a consequence of cardiomyocyte iron deficiency.
25 n content is an effective strategy to reduce iron deficiency.
26 distribution to the cytoplasm in response to iron deficiency.
27 esis, was also downregulated by hypoxia with iron deficiency.
28 n patients with HF and often associated with iron deficiency.
29 ange of pseudomonads to enhance growth under iron deficiency.
30 orld's population; half the cases are due to iron deficiency.
31 is a common strategy to prevent or overcome iron deficiency.
32 a in school girls should focus on correcting iron deficiency.
33 to erythropoietin resistance associated with iron deficiency.
34 e in patients with chronic heart failure and iron deficiency.
35 iCOX19 plants resembled those observed under iron deficiency.
36 entation must be prescribed to avoid chronic iron deficiency.
37 r (FIT) and bHLH38/39/100/101 in response to iron deficiency.
38 ed in a personalized therapeutic approach to iron deficiency.
39 otential adaptive role in protecting against iron deficiency.
40 y and synaptic function following early-life iron deficiency.
41 s for patients receiving ESA with or without iron deficiency.
44 1, involved in iron uptake, caused neuronal iron deficiency, age-progressive degeneration of a subse
47 imtomax had excellent diagnostic accuracy in iron deficiency anaemia and was comparable to convention
48 ity from a vegetarian diet, meaning non-haem iron deficiency anaemia and zinc deficiency immune malfu
49 in 133 prospectively recruited patients with iron deficiency anaemia attending for a gastroscopy.
50 ogy of 153 patients presenting to a separate iron deficiency anaemia clinic were retrospectively revi
51 nifestation of the remaining three cases was iron deficiency anaemia, abdominal pain and acute intest
52 nal guidelines recommend coeliac serology in iron deficiency anaemia, and duodenal biopsy for those t
53 ysiology, diagnosis, and acute management of iron deficiency anaemia, and outstanding research questi
54 fy any causes other than coeliac disease for iron deficiency anaemia, suggesting that biopsy avoidanc
55 onic diseases are frequently associated with iron deficiency anaemia--notably chronic kidney disease,
58 ent who developed a CRVO secondary to severe iron-deficiency anaemia (IDA) attributable to menstrual
59 n-guided screen-and-treat approach to combat iron-deficiency anaemia could achieve equivalent efficac
61 onditions, hepcidin production is reduced by iron deficiency and erythropoietic drive to increase the
62 late iron transport in the setting of severe iron deficiency and explored a potential marker of place
64 c kidney disease (CKD) patients suggest that iron deficiency and higher circulating levels of erythro
66 aimed to determine the associations between iron deficiency and higher EPO levels with mortality, an
69 epcidin expression occurs physiologically in iron deficiency and increased erythropoiesis but is path
70 rt failure as a consequence of intracellular iron deficiency and increased expression of the vasocons
72 t high intracellular Zn concentrations mimic iron deficiency and inhibit the activity of the oxygen s
73 n to be effective in preventing and treating iron deficiency and iron deficiency anemia in infants an
75 h studies, particularly in the evaluation of iron deficiency and its associated anemia in pregnancy a
78 estigation of strategies aimed at correcting iron deficiency and reducing FGF23 levels is warranted.
79 regnant women are particularly vulnerable to iron deficiency and related adverse pregnancy outcomes a
81 vels at 12 months of age and ferritin level, iron deficiency, and iron deficiency anemia at 8 and 12
84 In multivariable pooled models, child age, iron deficiency, and stunting independently predicted an
85 kidney; reduced red blood cell survival and iron deficiency; and mineral bone disease caused by dist
86 n Southeast Asia, Thalassemia trait (TT) and iron deficiency anemia (IDA) are the two most common ane
91 The prevalence of iron deficiency (ID) and iron deficiency anemia (IDA) was 10-32% and 2-5%, respec
92 than 1 billion people worldwide suffer from iron deficiency anemia (IDA), a state of systemic iron i
96 6 knockout (Tmprss6-/-) mice, which exhibit iron deficiency anemia and thrombocytosis, we observed a
98 preventing and treating iron deficiency and iron deficiency anemia in infants and young children.
99 for pregnant women or routine screening for iron deficiency anemia in pregnant women or young childr
104 nd clinical trial in adults with NDD-CKD and iron deficiency anemia to compare the safety and efficac
105 pcidin levels for diagnosing iron-refractory iron deficiency anemia to global health applications suc
106 f iron status across the full continuum from iron deficiency anemia to iron deficiency to iron replet
107 cantly lower prevalences of iron deficiency, iron deficiency anemia, and low vitamin B-12 and, in Ken
108 ong-standing type II diabetes, hypertension, iron deficiency anemia, aortic stenosis, and prior baria
109 h outcomes that are associated with maternal iron deficiency anemia, both Canada and the United State
110 ytol is approved for use in the treatment of iron deficiency anemia, but it can serve as an alternati
111 ating our findings from the murine models of iron deficiency anemia, primary human MEPs exhibit decre
112 boratory evaluation was notable for profound iron deficiency anemia, thrombocytosis, and hyperhomocys
120 decreasing risk of traits related to anemia (iron deficiency anemia: odds ratio [OR] scaled to a stan
121 8, 245 patients aged 18 years and older with iron-deficiency anemia (hemoglobin level <=11 g/dL; seru
123 itional biomarkers used for the diagnosis of iron-deficiency anemia (IDA) in patients with CKD have l
124 ts and young children in Sub-Saharan Africa, iron-deficiency anemia (IDA) is common, and many complem
126 kworm disease is among the leading causes of iron-deficiency anemia in the developing world and is as
127 In 2 randomized trials of patients with iron-deficiency anemia who were intolerant of or unrespo
128 Intravenous iron enables rapid correction of iron-deficiency anemia, but certain formulations induce
129 hildren aged 9 to 48 months with nutritional iron-deficiency anemia, ferrous sulfate compared with ir
130 theless, studies of a murine iron-refractory iron-deficiency anemia-causing mutant (Mt2I286F) in the
137 dered iron metabolism, leading to functional iron deficiency, anemia, erythropoietic protoporphyria,
139 ssays and transcriptomics we discovered that iron deficiency arising from KCNE2-dependent achlorhydri
140 de nanoparticles have been used for treating iron deficiency, as contrast agents for magnetic resonan
143 amatergic terminals in the rodent with brain iron deficiency (BID), a pathogenetic model of restless
144 y important in relation to the management of iron deficiency but should also inform dietary advice, e
145 arial treatment in children with malaria and iron deficiency, but iron may not be well absorbed or ut
146 vate RNR in response to genotoxic stress and iron deficiency by facilitating redistribution of its sm
147 ins is substantially repressed by HRI during iron deficiency, causing a decrease in cytosolic and mit
149 ne for the genetic studies of abiotic stress iron deficiency chlorosis (IDC) of soybean is reported.
150 S2 genes were upregulated in leucaena under iron-deficiency condition or when Fe(III) was supplied a
152 iCOX19 plants than in wild-type plants under iron deficiency conditions, suggesting that COX19 functi
156 the immediate arm had a lower prevalence of iron deficiency defined by ZPP (29.4% compared with 65.6
157 ed the proportion of anemia with concomitant iron deficiency (defined as an inflammation-adjusted fer
158 sed for acute heart failure with concomitant iron deficiency (defined as ferritin <100 mug/L, or 100-
159 ical trial of patients with HFrEF (<40%) and iron deficiency, defined as a serum ferritin level of 15
163 regnant women are particularly vulnerable to iron deficiency due to the high iron demands of pregnanc
166 and specificities of 97%, 100%, and 97% for iron deficiency (ferritin <15 ng/mL or 32 pmol/L), vitam
168 eft ventricular ejection fraction <=45%, and iron deficiency (ferritin<100 mug/L or 100-300 mug/L wit
169 ed that under physiological conditions or in iron deficiency, fetal and placental hepcidin did not re
170 mong patients without known risk factors for iron deficiency, gastric acid inhibitor use for >/=2 yea
176 he distribution of TBI and the prevalence of iron deficiency (ID) and ID anemia (IDA) among toddlers,
181 African Americans are at increased risk of iron deficiency (ID) but also have higher serum ferritin
182 irst and <10.5 g/dL in second trimester) and iron deficiency (ID) by the iron indicators serum ferrit
184 s to adjust for inflammation on estimates of iron deficiency (ID) in low- and high-infection-burden s
198 actors contribute to absolute and functional iron deficiency in CKD, including blood losses, impaired
199 associations, and consequences of anemia and iron deficiency in epidemiologically representative outp
201 overy opens new avenues for the treatment of iron deficiency in humans, one of the most common and wi
202 weight (LBW) (</=2500 g) is associated with iron deficiency in infancy and high blood pressure (BP)
203 0%, 55%, and 58% of children had concomitant iron deficiency in low-, medium-, high-, and very high-i
206 to use means for point-of-care screening for iron deficiency in resource-limited settings lacking lab
208 ron rather than oral iron as a treatment for iron deficiency in some of these clinical scenarios.
209 cts >1.2 billions individuals worldwide, and iron deficiency in the absence of anemia is even more fr
210 On the basis of these results, a status of iron deficiency in the human population might contribute
212 affected the embryo, causing anemia, tissue iron deficiency (including in the brain), and decreased
213 rrying the deletion showed early evidence of iron deficiency, including a mild decrease in hemoglobin
215 s grafted to ysl1ysl3 shoots do not initiate iron deficiency-induced gene expression, indicating that
216 nd their transcriptional regulators FER-like iron deficiency-induced transcription factor (FIT) and b
217 lix-loop-helix transcription factor FER-LIKE IRON DEFICIENCY-INDUCED TRANSCRIPTION FACTOR (FIT).
218 hat mimic these genetic disorders, including iron deficiency, inflammation, treatment with ferric car
219 ch has lost the ability to properly regulate iron deficiency-influenced gene expression in both roots
220 also had significantly lower prevalences of iron deficiency, iron deficiency anemia, and low vitamin
221 emphasizes the complex relationship between iron deficiency, iron treatment, and malaria infection i
232 odia or in countries where the prevalence of iron deficiency is low and genetic hemoglobin disorders
240 propose that a maternal Cd exposure-induced iron deficiency leads to altered cellular metabolic path
241 ession analysis was conducted for each group.Iron deficiency, malaria, breastfeeding, stunting, under
242 signaling provides a mechanism through which iron deficiency may be detrimental to human health.
243 ggest a novel mechanism by which hypoxia and iron deficiency may modulate NCOA4 expression to impact
244 ght Dystonia (BAD) scale, and no evidence of iron deficiency, neutropenia, or abnormal hepatic or ren
246 o be sensitive to the effects of gestational iron deficiency on memory function in infants and young
250 e to a true paucity of iron stores (absolute iron deficiency) or a relative (functional) deficiency w
251 Remarkably, apo-pyoverdine abolished the iron-deficiency phenotype and restored the growth of pla
254 ibution of SF, yielding similar estimates of iron deficiency prevalence when evaluated in the BRINDA
255 he functional and prognostic significance of iron deficiency, randomized multicenter trials exploring
256 transplantation assays suggest that systemic iron deficiency, rather than a local role for Tmprss6-/-
258 oposed to help clinicians diagnose and treat iron deficiency, recommending oral iron in the first tri
259 eginning of peak dendritic growth/branching, iron deficiency reduces mitochondrial speed through incr
261 Efforts to address the global burden of iron deficiency-related anemia have focused on classical
264 ysosomal acidification, we observed a robust iron deficiency response in the brain, verified by in vi
266 ur approach uncovered pCREs resembling IDE1 (iron deficiency-responsive element 1), a known grass -Fe
268 red and compared between infants with latent iron deficiency (serum ferritin </=75 ng/mL) and infants
270 IRT1 (URI) acts as an essential part of the iron deficiency signaling pathway in Arabidopsis thalian
272 s study presents evidence that intracellular iron deficiency specifically within PASMCs alters pulmon
273 uction is the major driver of anemia in CKD, iron deficiency stands out among the mechanisms contribu
275 n human placentas from pregnancies with mild iron deficiency, TFR1 was increased, but there was no ch
278 link between insulin processing and cellular iron deficiency that may have relevance to type 2 diabet
280 udy uses a primary neuronal culture model of iron deficiency to address a gap in understanding of how
281 te deficiencies were not.The contribution of iron deficiency to anemia varies according to a country'
282 ull continuum from iron deficiency anemia to iron deficiency to iron replete to iron excess, 3) the l
283 arget genes are most highly activated during iron deficiency to maintain mitochondrial function and r
284 ntly, ATF4 target genes are activated during iron deficiency to maintain mitochondrial function and t
285 Down-regulation of FPS also triggered an iron-deficiency transcriptional response that is consist
286 an FDA-approved iron oxide nanoparticle for iron deficiency treatment, demonstrates an anti-leukaemi
287 ron application, citrate supplementation and iron deficiency treatment, indicate that the shoot-direc
288 the search for and treatment of the cause of iron deficiency, treatment strategies encompass preventi
294 to the frontline in multiple disorders with iron deficiency, which include heart failure, chronic ki
297 of lysosomal acidification triggers cellular iron deficiency, which results in impaired mitochondrial
299 We therefore hypothesized that clinical iron deficiency would disturb integrated human responses
300 reatment in children with severe malaria and iron deficiency would improve iron status and lower mala