Global ETD Search

121	Wolffia globosa–Mankai Plant-Based Protein Contains Bioactive Vitamin B12 and Is Well Absorbed in Humans Sela, Ilan, Yaskolka Meir, Anat, Brandis, Alexander, Krajmalnik-Brown, Rosa, Zeibich, Lydia, Chang, Debbie, Dirks, Blake, Tsaban, Gal, Kaplan, Alon, Rinott, Ehut, Zelicha, Hila, Arinos, Shira, Ceglarek, Uta, Isermann, Berend, Lapidot, Miri, Green, Ralph, Shai, Iris 20 April 2023 (has links) Background: Rare plants that contain corrinoid compounds mostly comprise cobalamin analogues, which may compete with cobalamin (vitamin B12 (B12)) metabolism. We examined the presence of B12 in a cultivated strain of an aquatic plant: Wolffia globosa (Mankai), and predicted functional pathways using gut-bioreactor, and the effects of long-term Mankai consumption as a partial meat substitute, on serum B12 concentrations. Methods: We used microbiological assay, liquid-chromatography/electrospray-ionization-tandem-mass-spectrometry (LC-MS/MS), and anoxic bioreactors for the B12 experiments. We explored the effect of a green Mediterranean/low-meat diet, containing 100 g of frozen Mankai shake/day, on serum B12 levels during the 18-month DIRECT-PLUS (ID:NCT03020186) weight-loss trial, compared with control and Mediterranean diet groups. Results: The B12 content of Mankai was consistent at different seasons (p = 0.76). Several cobalamin congeners (Hydroxocobalamin(OH-B12); 5-deoxyadenosylcobalamin(Ado-B12); methylcobalamin(Me-B12); cyanocobalamin(CN-B12)) were identified in Mankai extracts, whereas no pseudo B12 was detected. A higher abundance of 16S-rRNA gene amplicon sequences associated with a genome containing a KEGG ortholog involved in microbial B12 metabolism were observed, compared with control bioreactors that lacked Mankai. Following the DIRECT-PLUS intervention (n = 294 participants; retention-rate = 89%; baseline B12 = 420.5 ± 187.8 pg/mL), serum B12 increased by 5.2% in control, 9.9% in Mediterranean, and 15.4% in Mankai-containing green Mediterranean/low-meat diets (p = 0.025 between extreme groups). Conclusions: Mankai plant contains bioactive B12 compounds and could serve as a B12 plant-based food source. info:eu-repo/classification/ddc/610 ddc:610
122	Kinetic and Mechanistic Studies on the Reactions of Reactive Nitrogen and Oxygen Species (RNOS) with Vitamin B12 Complexes Dassanayake, Rohan S. 26 November 2014 (has links) No description available. Chemistry Cobalamins reactive oxygen species reactive nitrogen species kinetics vitamin B12
123	Impact of vitamins B12, B6 and folate supplementation on cardiovascular risk markers in an elderly community of Sharpeville Grobler, Christina Johanna 09 1900 (has links) Submitted in fulfillment of the requirements of the degree of Doctor of Technology: Health Sciences, Durban University of Technology, Durban, South Africa, 2015. / Background: In a vulnerable low-income group with a confirmed high risk of cardiovascular disease, like the elderly in the Sharpeville care centre, an acute intervention is needed in order to improve their health profile. Previous studies suggested homocysteine lowering by vitamin B12, B6 and folate supplementation. The effect of vitamin B12, B6 and folate supplementation on the inflammatory response, thrombotic risk, lipid profile, hypertension, risk of metabolic syndrome and homocysteine metabolism in an elderly, black South African population has never been reported. Objectives: The main aim of this interventional study was to assess the effect of vitamins B12, B6 and folate supplementation at 200% RDA for six months on cardiovascular risk markers of an elderly semi-urbanised black South African community. Design: This study was an experimental intervention non-equivalent control group study design in 104 purposively selected samples of all the elderly attending the day-care centre. Setting and participants: A homogeneous group of respondents was included in the study. All subjects were equivalent in age (>60 years), race (black), unemployed/pensioners (socio-demographic) and 60 years and older attending a day care centre in Sharpeville, situated in the Vaal region, Gauteng, SA. Measurements: The distinctiveness of this study lies in the broad panel of parameters evaluating the CVR in correlation with the increased nutritional intake of vitamin B6, B12 and folate. These included: weight, height, waist, serum cholesterol, high density lipoprotein (HDL), low-density lipoprotein (LDL), triglycerides, blood pressure, fibrinogen, high-sensitivity C-reactive protein (HS–CRP), homocysteine, vitamin B12, folate, glucose, insulin, adiponectin and fibronectin. Results: A very high incidence (66.36%) of hyperhomocysteinaemia is present in the sample. The mean serum homocysteine level in hyperhomocysteinaemic individuals decreased statistically significantly from 25.00±8.00 umol/l to 18.80±12.00 umol/l after the intervention. The number of respondents with an increased homocysteine level decreased from 100% (baseline) to 67% (follow-up). The supplementation was beneficial (statistically significant changes) to the glucose levels, fibrinolytic status, vitamin B6 serum levels, fibronectin levels and haemopoeiesis (decreased macrocytosis) of all the individuals (regardless of their homocysteine status). Conclusion: It is concluded that supplementation of vitamins B6, B12 and folate at 200% RDA for six months is an effective homocysteine-lowering approach as a strategy to reduce hyperhomocysteinaemia in an elderly population and thereby reduce cardiovascular risk (CVR). The supplementation intervention mentioned is not an effective multifactorial strategy to decrease CVR although beneficial effects were found with other CVR markers independent of homocysteine status. Dietary supplements Vitamin B12 Vitamin B6 in human nutrition Folic acid in human nutrition
124	Cyanocobalamin is a Superoxide Scavenger and Neuroprotectant in Neuronal Cells Chan, Wesley 04 1900 (has links) Les dommages au nerf optique (neuropathie optique) peuvent entraîner la perte permanente de la vision ou la cécité causée par la mort des cellules ganglionnaires de la rétine (CGR). Nous avons identifié qu’une surproduction de l'anion superoxyde constitue un événement moléculaire critique précédant la mort cellulaire induite par des lésions. Récemment, Suarez-Moreira et al (JACS 131:15078, 2009) ont démontré que la vitamine B12 peut capter l’anion superoxyde aussi efficacement que l’enzyme superoxyde dismutase. La carence en vitamine B12 peut conduire à une neuropathie optique causée par des mécanismes inconnus. Nous avons étudié la relation entre la captation de superoxyde par la cyanocobalamine (forme de vitamine B12 la plus abondante) et ses propriétés neuroprotectrices dans les cellules neuronales. La cyanocobalamine aux concentrations de 10 μM et 100 μM a réduit le taux de production de superoxyde respectivement par 34% et 79% dans les essais sans-cellule. Dans les cellules RGC-5 traités avec la ménadione, les concentrations de cyanocobalamine supérieures à 10 nM ont diminué l’anion superoxyde à des valeurs similaires à celles traitées par PEG-SOD. La cyanocobalamine aux concentrations de 100 μM et 1 μM a réduit la mort des cellules RGC-5 exposées à la ménadione par 20% et 32%, respectivement. Chez les rats avec section du nerf optique unilatérale, une dose intravitréenne de 667 μM de cyanocobalamine a réduit le nombre de CGRs exposées au superoxyde. Cette dose a également augmenté le taux de survie des CGRs comparativement aux rats injectés avec la solution témoin. Ces données suggèrent que la vitamine B12 peut être un neuroprotecteur important, et sa carence nutritionnelle pourrait causer la mort de CGRs. La vitamine B12 pourrait aussi potentiellement être utilisée comme une thérapie pour ralentir la progression de la mort CGR chez les patients avec les neuropathies optiques caractérisés par une surproduction de superoxyde. / Damage to the optic nerve (optic neuropathy) can result in permanent loss of vision or blindness through retinal ganglion cell (RGC) death. Our prior work identified a burst of superoxide anion as a critical molecular event in RGCs prior to injury-induced cell death. Recently, Suarez-Moreira et al (JACS 131:15078, 2009) demonstrated that vitamin B12 scavenges superoxide as effectively as superoxide dismutase. Vitamin B12 deficiency can lead to optic neuropathy through unknown mechanisms. We investigated the relationship between superoxide scavenging by cyanocobalamin, the most abundant vitamin B12¬¬ vitamer, and its neuroprotective properties in neuronal cells. Cyanocobalamin at concentrations of 10 μM and 100 μM reduced the rate of superoxide generation by 34% and 79% in cell free assays, respectively. In menadione-treated RGC-5 cells, cyanocobalamin concentrations above 10 nM scavenged superoxide anion similar to those treated with pegylated-SOD. Cyanocobalamin at concentrations of 100 μM and 1 mM reduced RGC-5 cell death from menadione by 20% and 32%, respectively. In rats with unilateral optic nerve transection, a single intravitreal dose of 667 μM cyanocobalamin significantly reduced the number of RGCs with superoxide. This dose also increased RGC survival rate compared to rats injected with saline control. These data suggest that vitamin B¬¬12 may be an important neuroprotectant, which could cause death of RGCs when depleted in nutritional deficiency. Vitamin B12 could also potentially be used as a therapy to slow progression of RGC death in patients with optic neuropathies characterized by overproduction of superoxide. Vitamin B12 Superoxide anion Optic neuropathy Neuroprotection Vitamine B12 L'anion superoxyde Neuropathie optique
125	Voies de signalisation cobalamine-dépendantes de l'expression du gène MDR-1 : Une cible pharmacologique nouvelle pour la chimiothérapie ? / Repression cobalamin-dependent signaling pathways of MDR-1 gene : A new pharmacological target for chemotherapy? Gkikopoulou, Effrosyni 13 December 2012 (has links) La résistance aux agents anticancéreux souvent observée en chimiothérapie s'accompagne d'une augmentation de l'expression des gènes tels que MDR-1, gérée par des réactions de méthylation cellulaire. La physiologie des réactions de méthylation régulant l'expression de MDR-1 est insuffisamment connue. La méthionine synthase est l'enzyme clé du cycle métabolique de la méthionine et possède comme cofacteur la cobalamine (vitamine B12), suggérant un rôle crucial du couple cobalamine / méthionine synthase dans la survenue de la chimio-résistance par l'intermédiaire de la méthylation. Nous avions trouvé que l'ajout de cobalamine à des cellules d'adénocarcinome hépatique conduisait à une répression du gène MDR-1 qui ne passe pas par la méthylation du promoteur. Notre objectif est d'explorer et d'étudier les voies métaboliques situées entre le cycle de la méthionine et l'expression du gène MDR-1. Des techniques chromatographiques, électrophorétiques, de culture cellulaire, de pharmacotoxicologie et d'expression génique sont utilisées sur la lignée HepG2. La répression cobalamine-dépendante du gène MDR-1 est associée à une activation de la PLD, une diminution du facteur de signalisation Akt ainsi qu'à une inhibition de Cox2. Le ciblage pharmacologique de ces voies semble potentialiser l'effet d'agents utilisés en chimiothérapie. Cette étude devrait permettre de mieux comprendre des mécanismes de chimiorésistance, de déterminer des paramètres d'optimisation de l'utilisation de ces anticancéreux en relation avec l'expression de MDR-1 elle même en relation avec le statut vitaminique B et peut être d'orienter la recherche en chimiothérapie vers de nouvelles voies thérapeutiques / A key factor of chemioresistance is an increased expression of MDR-1 gene, partly controlled by cellular methylation reactions. Until now, the physiology of these reactions is not clearly known. The main intracellular metabolic pathway, generating methyl donors, is the methionine cycle, the activity of which is strongly depending on B-group vitamins (B12, B9). Thus, MDR-1 gene expression may be controlled by the activity of the methionine cycle and consequently presence of these vitamins. The aim of this study is to determine if, and to elucidate how, the methionine cycle influences the MDR-1 gene expression. Chromatography, pharmacotoxicology, cell culture techniques, gene and protein expression studies have been used on the human hepatocarcinoma cell line HepG2. We showed that cobalamin-induced MDR-1 gene repression was associated with phospholipase D activation, Akt phosphorylation, and Cox-2 co-repression in a complex and intricated manner. We may suggest that targeting these pathways could potentiate chimotherapy. This work shoiuld allow 1) a better understanding of mechanisms explaining why some anticancer agents may become inactive, 2) to optimize utilisation of these agents in relationship with MDR-1 gene expression and the B vitamin status, 3) to evaluate impacts of nutritionnal factors (cobalamine) in MDR-1 gene expression and 4) probably developp possible ways to improve chemotherapy Multi-drogue résistance Vitamine B12 Phospholipase D Akt Cyclooxygénase 2 Multidrug resistance Vitamin B12 Phospholipase D Akt Cyclooxygenase 2 572.58 615.6
126	La carence en vitamine B12 induit un stress du réticulum endoplasmique dû à une diminution de la déacétylase SIRT1 et une augmentation de l'acétylation de HSF1 / Decreased vitamin B12 availability induces ER stress through impaired SIRT1 deacetylation of HSF1 Ghemrawi, Rose Issam 27 September 2013 (has links) La carence en vitamine B12 est fréquente chez les sujets âgés et produit un vieillissement cérébral par des mécanismes malconnus. La vitamine B12 joue un rôle majeur dans les régulations épigénomiques dépendantes de la S-adénosyl méthionine (SAM). Nous avons établi un modèle de cellules neuronales dopaminergiques NIE115 carencé en vitamine B12 par l'expression stable d'une protéine chimère : la transcobalamine-oléosine (TO) réduisant la disponibilité cellulaire en B12, la SAM et la prolifération cellulaire. La protéine chimère oléosine-transcobalamine (OT) ne lie pas la B12 et constitue un contrôle. Les cellules TO ont une diminution B12-dépendante de la déacétylase SIRT1 (sirtuin1) et un stress du réticulum endoplasmique (RE) avec une augmentation des transducteurs transmembranaires, une diminution des protéines chaperonnes et une augmentation des marqueurs pro-apoptotiques. La diminution de l'expression de SIRT1 déclenche le stress du RE en réponse au stress nutritionnel. Cette diminution produit une augmentation de HSF1 acétylé diminuant l'expression des protéines chaperons. L'ajout de B12, des activateurs de SIRT1 et HSF1, la surexpression de SIRT1 et HSF1 réduisent le stress du RE. Dans les cellules contrôles, le traitement par la thapsigargin, l'inhibition de SIRT1 et HSF1 induisent également un stress du RE réversible en présence de B12. Le traitement des cellules OT par Adox (inhibiteur des méthyltransférases) induit les mêmes effets que la carence. En conclusion, la carence en B12 induit un stress du RE via la diminution de SIRT1 et l'augmentation de HSF1 acétylé, l'ajout de B12 induit des effets neuro-protecteurs sur les cellules soumises à un stress du RE. Ces résultats suggèrent d'évaluer les effets des agonistes de SIRT1 sur les complications cérébrales de la carence / Vitamin B12 deficiency is common in elderly population and produces neurodegenerative disorders by elusive mechanisms. B12 is a key determinant for the S-adenosyl methionine-dependent epigenomic regulations. We have established a B12-deficient cell model via the stable expression of transcobalamin-oleosin chimera (TO), which impairs cellular availability of vitamin B12, reduces SAM level and cell proliferation. Since the expression of oleosin transcobalamin chimera (OT) does not modify the phenotype of the transfected cells, these cells serve as control cells. TO cells present a B12-dependant decrease of deacetylase SIRT1 (sirtuin1) and an endoplasmic reticulum stress (ER stress) reflected by the increased expression of ER stress tranducers, decreased chaperon proteins and increased pro-apoptotic markers. We propose that the decreased expression of SIRT1 triggers cell response to nutritional stress through ER stress. This decrease results in a greater acetylation of heat-shock factor protein 1 (HSF1) and thus reducing the expression of heat shock proteins (HSP). Adding B12, SIRT1, or HSF1 activators as well as overexpressing SIRT1 or HSF1 reduce ER stress. In OT cells, thapsigargin treatment or impairing SIRT1 and HSF1 leads to B12-reversible ER stress. Treating OT cells with AdoX, an inhibitor of methyltransferase activities, produces effects similar to those observed in cells with decreased B12 availability.In summary, the impaired cellular availability of vitamin B12 induces ER stress by increasing HSF1 acetylation through a decreased SIRT1 expression and adding vitamin B12 produces neuro-protective effects in cells subjected to prior ER stress. These results suggest evaluating the effects of SIRT1 agonists on cerebral complications due to a B12 deficiency Vitamine B12 Maladies neurodégénératives Cellules neuronales Stress du RE SIRT1 HSF1 Vitamin B12 Neurodegenerative diseases Neuronal cells ER stress SIRT1 HSF1 612.399
127	Conséquences d'une carence en donneurs de méthyles sur le développement cérébral : implication du programme neurogénique et rôle de l'homocystéine / Consequences of a methyl donor deficiency on cerebral development : Implication of neurogenic program and role of homocysteine Kerek, Racha 16 December 2013 (has links) Les donneurs de méthyles (B12 et folates) régulent le cycle des monocarbones qui joue un rôle primordial dans les régulations épigénétiques/épigénomiques par méthylation. Une carence en donneurs de méthyles produit un retard de croissance intra-utérine et favorise les anomalies du développement, principalement du système nerveux central. De plus, des taux élevés d'homocystéine associés à une telle carence constituent un facteur de risque pour diverses pathologies neurodégénératives. Nous avons étudié les conséquences d'une carence péri-conceptionnelle et gestationnelle sur le développement cérébral embryonnaire de rats Wistar. L'étude morphométrique a montré un retard de croissance des embryons carencés qui affectait également le cerveau, avec une atrophie de structures telles que l'hippocampe, le cortex et la zone subventriculaire. En raison de la forte sensibilité de l'hippocampe, les effets de la carence ont par ailleurs été étudiés sur un modèle cellulaire de progéniteurs neuronaux hippocampiques. L'utilisation de ces deux modèles a permis de montrer in vivo et in vitro la régulation négative par la carence de la voie Stat3, qui influence prolifération et survie, via une régulation épigénomique post-transcriptionnelle impliquant miR-124. La dérégulation du programme neurogénique impliquant les histones désacétylases affecte la différenciation cellulaire. Par ailleurs, nous avons démontré que la carence en donneurs de méthyles était associée à une modification post-traductionnelle correspondant à une N-homocystéinylation irreversible de protéines neuronales, en particulier associées au cytosquelette. Cette modification induit l'agrégation des protéines, phénomène impliqué dans de nombreuses maladies neurodégénératives. La combinaison de ces différents mécanismes apporte un éclairage nouveau sur les défauts de développement et les troubles cognitifs associés à une carence précoce en donneurs de méthyles, soulignant l'importance de la « programmation foetale » dans la survenue de certaines pathologies neurologiques / Methyl donors (B12 and folate) regulate the one-carbon cycle that plays an important role in the epigenetic/epigenomic regulations by methylation. Methyl donor deficiency (MDD) leads to intrauterine growth retardation and promotes neurodevelopmental abnormalities. Also, high levels of homocysteine associated with such a deficiency are a risk factor for various neurodegenerative diseases. We have studied the consequences of a periconceptional and gestational deficiency on the development of the embryonic brain of Wistar rats. Morphometric studies showed retardation in the development of deficient embryos which also affected the brain, with an atrophy of some structures including hippocampus, cortex and subventricular zone. Given the high sensitivity of the hippocampus, the effects of MDD have been additionally studied in a cellular model of hippocampal neuronal progenitors. Using these two models, we showed both in vivo and in vitro the downregulation of Stat3 pathway regulating cell proliferation and survival, through an epigenomic post-transcriptional process involving miR-124. Disruption of the neurogenic program implying histone deacetylases was shown to alter cell differentiation. Furthermore, we showed that methyl donor deficiency was associated with a post-translational modification corresponding to an irreversible N- homocysteinylation of neuronal proteins, especially those associated with the cytoskeleton. Such a process leads to protein aggregation, a phenomenon involved in many neurodegenerative diseases. The combination of these different mechanisms provides new insights into developmental defects and cognitive impairment associated with an early MDD, highlighting the importance of "fetal programming" in the occurrence of some neurological diseases Folates Vitamine B12 Homocystéine Programme neurogénique Épigénétique Folate Vitamin B12 Homocysteine Neurogenic program Epigenetics 612.82 616.071
128	Vitamin B12 and folate enrichment of kefir by Propionibacterium freudenreichii and Streptococcus thermophilus strains Morkel, Ryan Andrew January 2016 (has links) Thesis (MTech (Food Technology))--Cape Peninsula University of Technology, 2016. / In South Africa malnutrition exists due to inadequate dietary intake of micronutrients which is one of the major causes of vitamin deficiencies leading to disease. The treatment of malnutrition over the past years has been a considerable burden on the South African economy. Therefore, food fortification is one of the current strategies used to minimize malnutrition by increasing the nutritional value of staple foods. Commercial dairy products and pharmaceutical nutritional products (food supplements) in South Africa have been developed and produced for affluent consumers. Hence the need to develop an affordable fortified dairy product for the majority of South Africans prompted this study aimed at using a “naturally” fortified kefir beverage with vitamin B12 and folate to increase B-vitamins levels. Since Propionibacterium freudenreichii and Streptococcus thermophilus are known to be good producers of vitamin B12 and folate, respectively, and propionibacteria has the ability to grow symbiotically in the presence of lactic acid bacteria, the inclusion of these organisms with the kefir grains was an achievable objective. In order to conduct the analysis of vitamin B12 and folate in the samples, sample extraction and HPLC assay techniques were developed. The extraction of vitamin B12 and folate were achieved by using KCN extraction buffer and the trienzymatic method, respectively. The samples were also subjected to purification and concentration using solid phase extraction for optimum results. All standards and samples were flushed with nitrogen gas and stored for a maximum of 2 weeks at –20°C to prevent B-vitamin deterioration. The HPLC assembly for the vitamin B12 analysis included a Luna C18 column and a diode array detector (DAD) for the detection and quantification. For the folate analysis it included a Zorbax SB-C18 and Luna C18 columns in tandem and the fluorescence detector (FLD) was used for the detection and quantification of THF, 5-CH3-THF and 5-CHO-THF, while the DAD was used for PGA and pteroyltri-γ-L-glutamic acid concentration in the samples. Vitamin B12 Propionibacterium freudenreichii Streptococcus thermophilus strains Folic acid Vitamin B in human nutrition Enriched foods Food additives -- Health aspects Folic acid in human nutrition
129	Cobalamin communication in Sweden 1990 – 2000 : views, knowledge and practice among Swedish physicians Nilsson, Mats January 2005 (has links) Cobalamin (vitamin B12) is one of several essential micronutrients needed by the human organism. Other important micronutritients, which interplay with vitamin B12, are folate and iron. During the last ten years, the attention has been drawn to different forms of neurological disorders supposed to be caused by vitamin B12 deficiency. Vitamin B12 deficiency states are common among elderly patients in primary health care and sometimes in hospital care, especially in geriatric practice. This is a study to define the cobalamin treatment traditions, among Swedish physicians in the period 1990 – 2000. The period was distinguished by an intense debate on the issue by the physicians, an increase of cobalamin consumption, and a shift from parenteral therapy towards oral high-dose therapy. It had been known that symptoms of cobalamin deficiency could start in the nervous system. This knowledge was reinforced by the application of homocysteine and methyl-malonic acid (MMA) in deficiency diagnosis. Introduction of homocysteine and MMA in deficiency diagnosis changed the view on deficiency prevalence, by identifying persons at risk to develop B12 deficiency prior to established symptoms. In this study, Swedish physicians are regarded mainly as receivers of communication about the markers homocysteine and MMA, and deficiency states of cobalamin and folate. The main senders were scientists from North America, Norway, Denmark, and Sweden. This study sets the senders and the receivers of cobalamin communication on a collegial level and quantifies and evaluates the feed-back from the receivers. The receivers, gen¬eral practitioners and geriatricians, appeared to be familiar with old knowledge and frontier concepts in the field. Thus, it is suggested that the increase of B12 prescriptions in Sweden 1990 – 2000 reflected an increased awareness of B12-associated clinical problems among the physicians managing the majority of deficiency patients, although a possible overconsumption of pharmaceutical drugs must be kept in mind. Medicine Cobalamin folate iron homocysteine MMA vitamin B12 deficiency therapy tradition drug epidemiology communication receivers senders Medicin
130	Infant Anemia and Micronutrient Status : Studies of Early Determinants in Rural Bangladesh Eneroth, Hanna January 2011 (has links) Anemia and micronutrient deficiencies in infancy are common in low-income settings. These are partly due to maternal malnutrition and may impair child health and development. We studied the impact of maternal food and micronutrient supplementation, duration of exclusive breastfeeding (EBF), growth and infection on infant anemia and micronutrient status. In the MINIMat trial in Matlab, Bangladesh, pregnant women were randomized to Early or Usual promotion of enrolment in a food supplementation program and to one of three daily micronutrient supplements. Capsules containing 400µg folic acid and (a) 30 mg iron (Fe30Fol), (b) 60 mg iron (Fe60Fol), (c) 30 mg iron and other micronutrients (MMS) were provided from week 14 of gestation. Capsule intake was assessed with the eDEM device recording supplement container openings. Blood samples (n=2377) from women at week 14 and 30 were analyzed for hemoglobin (Hb). Duration of EBF and infant morbidity was based on monthly maternal recalls. Infants were weighed and measured monthly. Blood samples (n=1066) from 6-months-old infants were analyzed for Hb and plasma ferritin, zinc, retinol, vitamin B12 and folate. In women, Hb increase per capsule reached a plateau at 60 Fe60Fol capsules, indicating that nine weeks of daily supplementation produced maximum Hb response. Anemia was common (36%) at capsule intakes >60 indicating other causes of anemia than iron deficiency. In infants, vitamin B12 deficiency prevalence was lower in the MMS (26.1%) than in the Fe30Fol group (36.5%), (p=0.003) and zinc deficiency prevalence was lower in the Usual than in the Early group. There were no other differential effects of food or micronutrient supplementation on infant anemia or micronutrient status. Infants exclusively breast-fed for 4-6 months had a higher mean plasma zinc concentration (9.9±2.3 µmol/L) than infants exclusively breast-fed for <4 months (9.5±2.0 µmol/L), (p< 0.01). No other differences in anemia, iron or zinc status were observed between EBF categories. Infection, low birth weight and iron deficiency were independent risk factors for infant anemia. Regardless of studied interventions, prevalence of anemia (43%), deficiency of zinc (56%), vitamin B12, vitamin A (19%) and iron (22%) in infancy was high and further preventive strategies are needed. / MINIMat Micronutrients Anemia Iron Deficiency Zinc Deficiency Vitamin A Deficiency Vitamin B12 Deficiency Folic Acid Deficiency Infant Pregnancy Dietary Supplementation Hemoglobin Dose-Response Relationship Exclusive Breast Feeding Bangladesh MEDICINE MEDICIN

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