0
selected
-
1.
Multifactorial Etiology of Anemia in Celiac Disease and Effect of Gluten-Free Diet: A Comprehensive Review.
Martín-Masot, R, Nestares, MT, Diaz-Castro, J, López-Aliaga, I, Alférez, MJM, Moreno-Fernandez, J, Maldonado, J
Nutrients. 2019;11(11)
-
-
-
Free full text
Plain language summary
Anaemia is a common clinical expression of Celiac Disease (CD) alongside vitamin B12, iron and folate deficiencies. This review looks at the latest evidence and effects of a gluten free diet, the mainstay of treatment for CD. Typically, symptoms subside whilst adhering to a GF diet however in 20% of people anaemia and nutrient deficiencies can persist. Some of this is attributed to lack of adherence to the diet, oftentimes accidental given the wide range of foods containing gluten. This in turn leads to further damage of the intestine and can be difficult to detect and monitor effectively. Inflammation of the gastrointestinal tract, and malabsorption, are the main reasons for nutrient deficiencies leading to anaemia in CD. Iron is a critical nutrient which can easily be affected by damage to the intestinal villi, common in CD, and over time lead to iron deficiency anaemia as the body is unable to absorb dietary iron and the body’s iron stores are depleted. Likewise, absorption of vitamins B12 and B9 (folate) are also impaired by damaged villi and vitamin B12 is further affected by small intestine injuries including decreased gastric acid production, bacterial overgrowth and reduced intrinsic factor efficiency. Deficiencies of these two nutrients can lead to macrocytic anaemia with low blood cell volumes. Overall a gluten free diet is shown to reduce symptoms of CD in a matter of weeks. The more patients adhere to the diet, the more the risk of nutrient deficiencies and anaemia reduces.
Abstract
Celiac disease (CD) is a multisystemic disorder with different clinical expressions, from malabsorption with diarrhea, anemia, and nutritional compromise to extraintestinal manifestations. Anemia might be the only clinical expression of the disease, and iron deficiency anemia is considered one of the most frequent extraintestinal clinical manifestations of CD. Therefore, CD should be suspected in the presence of anemia without a known etiology. Assessment of tissue anti-transglutaminase and anti-endomysial antibodies are indicated in these cases and, if positive, digestive endoscopy and intestinal biopsy should be performed. Anemia in CD has a multifactorial pathogenesis and, although it is frequently a consequence of iron deficiency, it can be caused by deficiencies of folate or vitamin B12, or by blood loss or by its association with inflammatory bowel disease (IBD) or other associated diseases. The association between CD and IBD should be considered during anemia treatment in patients with IBD, because the similarity of symptoms could delay the diagnosis. Vitamin B12 deficiency is common in CD and may be responsible for anemia and peripheral myeloneuropathy. Folate deficiency is a well-known cause of anemia in adults, but there is little information in children with CD; it is still unknown if anemia is a symptom of the most typical CD in adult patients either by predisposition due to the fact of age or because biochemical and clinical manifestations take longer to appear.
-
2.
Micronutrient Status of Recreational Runners with Vegetarian or Non-Vegetarian Dietary Patterns.
Nebl, J, Schuchardt, JP, Ströhle, A, Wasserfurth, P, Haufe, S, Eigendorf, J, Tegtbur, U, Hahn, A
Nutrients. 2019;11(5)
-
-
-
Free full text
Plain language summary
There is current debate as to whether plant-based nutrition can provide all the required nutrients in adequate amounts for athletes. The aim of this cross-sectional study was to evaluate the micronutrient status among omnivore, vegetarian and vegan recreational runners. In this study, fasting blood levels of vitamin B12, folate, vitamin D, iron, calcium, magnesium and zinc were assessed in 27 omnivores, 26 vegetarians and 28 vegans. These results showed there were no significant differences between vegan and vegetarian diets compared with the omnivore diet. Based on these results, the authors conclude a well-planned vegetarian and vegan diet, including supplementation, can meet the recreational runner’s requirements of important micronutrients. The authors suggest further research be done on a larger sample size and on athletes of differing levels of performance intensity.
Abstract
Vegetarian diets have gained popularity in sports. However, few data exist on the status of micronutrients and related biomarkers for vegetarian and vegan athletes. The aim of this cross-sectional study was to compare the micronutrient status of omnivorous (OMN, n = 27), lacto-ovo-vegetarian (LOV, n = 26), and vegan (VEG, n = 28) recreational runners. Biomarkers of vitamin B12, folate, vitamin D, and iron were assessed. Additionally, serum levels of calcium, magnesium, and zinc were examined. Lifestyle factors and supplement intake were recorded via questionnaires. About 80% of each group showed vitamin B12 adequacy with higher levels in supplement users. Mean red blood cell folate exceeded the reference range (>340 nmol/L) in all three groups (OMN: 2213 ± 444, LOV: 2236 ± 596, and VEG: 2354 ± 639 nmol/L; not significant, n.s.). Furthermore, vitamin D levels were comparable (OMN: 90.6 ± 32.1, LOV: 76.8 ± 33.7, and VEG: 86.2 ± 39.5 nmol/L; n.s.), and we found low prevalence (<20%) of vitamin D inadequacy in all three groups. Less than 30% of each group had depleted iron stores, however, iron deficiency anemia was not found in any subject. Our findings suggest that a well-planned, health-conscious lacto-ovo-vegetarian and vegan diet, including supplements, can meet the athlete's requirements of vitamin B12, vitamin D and iron.
-
3.
Adapting iron dose supplementation in pregnancy for greater effectiveness on mother and child health: protocol of the ECLIPSES randomized clinical trial.
Arija, V, Fargas, F, March, G, Abajo, S, Basora, J, Canals, J, Ribot, B, Aparicio, E, Serrat, N, Hernández-Martínez, C, et al
BMC pregnancy and childbirth. 2014;14:33
-
-
-
Free full text
Plain language summary
Currently there is no consensus on the best practice for meeting the differing iron needs of pregnant women during the gestational period. Iron needs during pregnancy are influenced by many factors including initial iron status, genetic alterations and dietary intake, and these individual characteristics should be considered when prescribing an iron supplement. The aim of this protocol is to determine a trial design that assesses the effectiveness of iron supplementation adapted to haemoglobin levels at the start of pregnancy relative to the usually prescribed dose. Women in the first trimester will be divided into two groups based on their initial haemoglobin levels and will be randomised to receive either a low or high dose iron supplement. If this protocol is carried out, outcomes should elucidate the optimal iron supplementation dose required to promote maternal and infant health, based on initial haemoglobin levels. These findings would contribute to developing guidelines for good clinical practice.
Abstract
BACKGROUND Currently, there is no consensus regarding iron supplementation dose that is most beneficial for maternal and offspring health during gestation. Recommended iron supplementation dose does not preempt anemia in around 20% of the pregnancies, nor the risk of hemoconcentration in 15%. This deficit, or excess, of iron prejudices the mother-child wellbeing. Therefore the aims of the study are to determine the highest level of effectiveness of iron supplementation adapted to hemoglobin (Hb) levels in early pregnancy, which would be optimum for mother-child health. METHODS/DESIGN DESIGN Randomized Clinical Trial (RCT) triple-blindedSetting: 10 Primary Care Centers from Catalunya (Spain)Study subjects: 878 non-anemic pregnant women at early gestation stage, and their subsequent newborns METHODS The study is structured as a RCT with 2 strata, depending on the Hb levels before week 12 of gestation. Stratum #1: If Hb from 110 to 130 g/L, randomly assigned at week 12 to receive iron supplement of 40 or 80 mg/d. Stratum #2: If Hb >130 g/L, randomly assigned at week 12 to receive iron supplement of 40 or 20 mg/d. MEASUREMENTS In the mother: socio-economic data, clinical history, food item frequency, lifestyle and emotional state, and adherence to iron supplement prescription. Biochemical measurements include: Hb, serum ferritin, C reactive protein, cortisol, and alterations in the HFE gene (C282Y, H63D). In children: ultrasound fetal biometry, anthropometric measurements, and temperament development.Statistical analyses, using the SPSS program for Windows, will include bivariate and multivariate analyses adjusted for variables associated with the relationship under study. DISCUSSION Should conclusive outcomes be reached, the study would indicate the optimal iron supplementation dose required to promote maternal and infant health. These results would contribute towards developing guidelines for good clinical practice.
-
4.
Partial purification and characterization of extrinsic pathway inhibitor (the factor Xa-dependent plasma inhibitor of factor VIIa/tissue factor).
Warn-Cramer, BJ, Maki, SL, Zivelin, A, Rapaport, SI
Thrombosis research. 1987;48(1):11-22
-
-
Plain language summary
Green tea (GT) consumption has been associated with the prevention and control of type 2 diabetes, cardiovascular and metabolic disease as well as having a positive effect on body weight and composition. However, the polyphenols in GT have been shown to interact with mineral distribution within the body and those minerals have been shown to be deficient in obesity. Studies to measure mineral status in obese subjects supplementing with GT have been inconclusive and this study aimed to measure the serum concentrations of minerals (calcium, copper, iron, zinc, magnesium), body mass index, total antioxidant status (TAS), lipid profile and glucose concentration. 46 obese patients were randomised into 2 groups, one group were supplemented with 279mg of green tea extract (GTE) and 208mg of the polyphenol epigallocatechin-3-gallate (EGCG) and the other group were issued with a placebo for 3 months. The study concluded that GTE improved Zn and Mg, however decreased levels of FE. The results confirmed a positive effect on body mass, lipid profile, glucose and TAS. It was concluded that more studies are required on a larger population over a longer period of time.
Abstract
We report a procedure to purify partially from plasma (approximately 1200 fold) the factor Xa-dependent inhibitor of factor VIIa/tissue factor (i.e., the extrinsic pathway inhibitor or EPI) and describe some of its properties. An assay for EPI was developed based upon inhibition of factor VIIa/tissue factor induced release of activation peptide from tritiated factor IX by a test sample in the presence but not in the absence of factor Xa. Approximately 50% of the total EPI activity in plasma was found in the lipoprotein fraction, which was used as the starting material for purification. Total lipoproteins (isolated by density ultracentrifugation) were delipidated and the urea soluble apoproteins gel filtered on Sephacryl S-200. The inhibitory activity co-eluted with the major protein peak, which primarily contained apoprotein A-I. Inhibitory activity was separated from apoprotein A-I by anion-exchange chromatography on Q-Sepharose and was further resolved from higher and lower molecular weight contaminating proteins by polypreparative disc gel electrophoresis in the presence of 0.1% SDS. Functional inhibitory activity eluted from the polypreparative disc gel in two discrete pools of different molecular weights (approximately 34,000 and approximately 43,000 D). Apoprotein E was identified by immunological techniques as the major protein present in both of these pools. However, incubation with a monospecific polyclonal antibody to human apoprotein E did not decrease EPI activity either in plasma or in the partially purified polypreparative disc gel fractions. A rabbit antiserum was prepared against material from the polypreparative disc gel. The IgG fraction neutralized approximately 95% of the total inhibitory activity present in plasma. Therefore, EPI in the lipoprotein fraction and in the non-lipoprotein fraction of plasma appears to be antigenically similar.
-
5.
[Abnormal effect of nitrosation inhibitors in human gastric juice].
Ermilov, VB, Shendrikova, IA, Volkov, DP, Stefanenko, IuF, Chernomordikov, VG
Voprosy onkologii. 1986;32(10):58-64
-
-
Plain language summary
Growth faltering in infancy establishes a trajectory for lifelong health of the individual and population. Stunted growth is due to the combined effect inadequate diet (malnutrition) and infection that affects the gut mucosal lining, with increased nutrient loss due to maldigestion and malabsorption, and increased nutritional requirements due to inflammation. Intestinal integrity in infants has been improved through supplementation with vitamin A and Zinc. Iron deficiency anemia may impair intestinal integrity. This study investigates the effects of complementary fortified food on gut integrity and systemic inflammation among Zambian infants age 6-18months. Infants of 6 months +/- 2 weeks old were randomised to either 50g/day richly fortified porridge mix or 50g basal porridge mix fortified with micronutrient levels planned for maize fortification in Zambia. At 18 months, the richly fortified porridge group had a significantly higher mean lactulose to mannitol ratio than the basal-fortified group, indicating they had significantly higher intestinal permeability. This effect was not modified by child’s sex, maternal HIV status, concurrent breast-feeding or baseline anaemia. The biological significance of this increase in intestinal permeability is questionable, however further research is warranted to understand the effect of iron supplementation on gut permeability in infants with normal iron status. In conclusion, a richly fortified complementary/replacement food did not benefit and may have worsened intestinal permeability. Further investigation into local interactions of key micronutrients with gut integrity, particularly in micronutrient-replete infants is needed.
Abstract
The paper discusses the effect of vitamins C and E and Plantaglucide on nitroso compounds yield in the course of nitrosation of amines in human gastric juice. The study group included 56 subjects. The above drugs capable of inhibiting in vitro nitrosation produced an anomalous effect in gastric juice of some subjects, i.e. potentiated nitroso compounds yield in nitrosation of amines by sodium nitrite. The said action of vitamins C and E was apparent in dimethylamine and amidopyrine nitrosation but it was not in morpholine nitrosation. Sharply increased levels in nitroso compounds were observed in some mice fed precursors of nitroso compounds in combination with vitamin C and Plantaglucide. These data point to an anomalous effect of the drugs on the body.