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Zeitschriftenartikel zum Thema "Iron deficiency anemia in children Tanzania"

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Hod, Eldad A., Eric H. Ekland, Shruti Sharma, Boguslaw S. Wojczyk, David A. Fidock, Gary M. Brittenham und Steven L. Spitalnik. „Effects of Iron Status and Iron Supplementation on Salmonella Typhimurium and Plasmodium Yoelii Infection In Mice“. Blood 116, Nr. 21 (19.11.2010): 2052. http://dx.doi.org/10.1182/blood.v116.21.2052.2052.

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Abstract Abstract 2052 To clarify the interactions between iron status, oral iron supplementation, and bacterial and malarial infections, we examined iron-replete mice and mice with dietary iron deficiency infected with Salmonella typhimurium, Plasmodium yoelii, or both, with and without oral iron administration. These studies were designed to identify potential mechanisms underlying the increased risk of severe illness and death in children in a malaria-endemic region who received routine iron and folic acid supplementation during a randomized, controlled trial in Pemba, Tanzania (Sazawal et al. Lancet 2006;367:133-43). To this end, weanling C57BL/6 female mice were fed an iron-replete or an iron-deficient diet, the latter of which resulted in severe iron deficiency anemia. Groups of mice were then infected by intraperitoneal injection of Salmonella typhimurium strain LT2, Plasmodium yoelii strain 17X parasites, or both. With Salmonella infection alone, iron-deficient mice had a median survival (7.5 days, N=8) approximately half that of iron-replete mice (13 days, N=10, p<0.0001). At death, the mean level of bacteremia was significantly higher in infected iron-deficient mice. In blood cultures performed at death, all iron-deficient mice were bacteremic, but bacteria were detected in only 4 of 10 iron-replete mice. Both iron-deficient and iron-replete Salmonella-infected mice had gross hepatosplenomegaly with hepatitis, distorted hepatic and splenic architecture, massive expansion of the splenic red pulp with inflammatory cells, and Gram-negative bacilli by tissue Gram stain. With P. yoelii infection alone, iron-deficient and iron-replete mice cleared the infection at similar rates (by ~13 days following infection, N=5 in each group) and no deaths due to parasitemia occurred. With Salmonella and P. yoelii co-infection, death was earlier than with Salmonella alone in iron-replete mice (median survival of 10 vs. 13 days; N=10 in each group; p=0.005), but not in iron-deficient mice (median survival of 7 vs. 7.5 days; N=10 and 8, respectively; p=0.8). To examine the effect of short-term oral iron supplementation with Salmonella infection alone, mice received daily iron (ferrous sulfate, 1 mg/kg) by gavage for 4 days before infection with Salmonella, and supplementation continued for a total of 10 days. After gavage, plasma non-transferrin-bound iron (NTBI) appeared at 1–2 hours with a mean peak level of approximately 5 μM. In iron-deficient mice, short-term oral iron supplementation did not fully correct the iron deficiency anemia or replenish iron stores. Oral iron supplementation reduced the median survival of both iron-deficient and iron-replete Salmonella-infected mice by approximately 1 day; the difference was significant only in the iron-replete group (N=5, p<0.05). In summary, these results indicate that iron deficiency decreases the survival of Salmonella-infected mice; the median survival of iron-deficient mice was approximately half that of those that were iron replete. These observations are similar to those in the Pemba sub-study in which iron-deficient children given placebo had a 200% increase in the risk of adverse events relative to iron-replete children. Iron deficiency had no apparent effect on the course of infection with P. yoelii but further studies with more virulent Plasmodium species are needed. Co-infection with Salmonella and Plasmodium significantly increased mortality as compared to single infections, but only in iron-replete mice. Oral iron supplementation of Salmonella-infected mice significantly decreased the median survival, but only of iron-replete animals; however, our study may have had insufficient power to detect an effect on iron-deficient mice. Systematic examination in mice of the effect of iron supplements on the severity of malarial and bacterial infection in iron-replete and iron-deficient states may ultimately help guide the safe and effective use of iron interventions in humans in areas with endemic malaria. Disclosures: No relevant conflicts of interest to declare.
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`Zaman, Syed Qamar, Arshad Mahmood, Shabbir Ahmed und Shahid Mahmud. „IRON DEFICIENCY ANEMIA“. Professional Medical Journal 21, Nr. 04 (07.12.2018): 734–38. http://dx.doi.org/10.29309/tpmj/2014.21.04.2423.

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Objective: To determine the association of breath holding spells with irondeficiency anemia in children. Study Design: Case control study. Place and Duration of Study:Military Hospital Rawalpindi from Jun 2012 to Dec 2012. Study Population: Sixty children ofeither gender meeting inclusion criteria aged 6 months to 5 years with 30 of breath holding spells incase group and 30 in control group as healthy children were included in the study after informedconsent from parents. Method: Complete blood picture and serum ferritin levels were performedof all children in both case and control groups. Tests were carried out at AFIP Rawalpindi. All datawas entered and analyzed using SPSS version 10. Frequencies and percentages were calculatedfor categorical (qualitative) variables like sex and children having iron deficiency anemia in casesand controls. Mean and Standard Deviation (SD) was calculated for numerical (quantitative)variable like Age. Odds ratio was calculated from the data of cases and controls. Regarding irondeficiency anemia p value <0.05 was considered as significant. Results: In this study, werecorded 43.33% (n=13) cases were between 0.6-3 years and 56.67% (n=17) were between 4-5years while 53.33% (n=16) controls were between 0.6-3 years and 46.67% (n=14) were between4-5 years. Mean±SD was calculated as 3.3+1.46 years in cases and 2.93+1.48 years in controlgroup. Male children were 60% (n=18) in patient group and 46.67% (n=14) in controls group.Female children were 40% (n=12) in patient and 53.33% (n=16) in control group respectively.Association of breath holding spells with iron deficiency anemia in children revealed as 56.67%(n=17) in cases and 3.33% (n=1) in control group while remaining 43.33% (n=13) in cases and96.67% (n=29) in control group had no findings of this association. P value was calculated as<0.0001 and Odds Ratio was 37.92 which shows a significant difference between the two groups.Conclusions: The association of breath holding spells with iron deficiency anemia in children issignificantly higher than healthy controls. So, it is recommended that every child who present withbreath holding spells should be evaluated for iron deficiency anemia
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Kishwar, Farzana, Tahira Ashraf, Islam Hanif, Asif Hanif und Samia Kalsoom. „IRON DEFICIENCY ANEMIA“. Professional Medical Journal 22, Nr. 09 (10.09.2015): 1122–25. http://dx.doi.org/10.29309/tpmj/2015.22.09.1053.

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Objective: The objective of this study was to determine prevalence of irondeficiency anemia in children of Lahore. Study Design: Cross sectional survey. Setting:Hospitals in different areas of Lahore. Period: 3 months. Methodology: A total sample of threehundred and sixty children was taken from different areas of Lahore. Simple random samplingtechnique was used. Data collection was done by using a cross sectional survey. An informedconsent was taken from the parents of children selected for including in the study and usingtheir data for research purpose. The complete demographic information like name, age, sex,address was obtained. Venous blood samples were obtained for analysis of their hemoglobin(Hb) level. All the data collected was entered and analyzed by using SPSS version 20. Results:A total of 360 children were selected for the study. The mean age of respondents was 9.87 ±2.67. Among all subjects there were 158(43.89%) male and 202 (56.1%) were female patients.The mean Hb in all subjects was 9.82 ± 3.46. The overall prevalence of iron deficiency anemiawas 224(62.2%). Among anemic patients there 101 (45%) male and 123 (55%) female patientsin this study, we found no significant association between anemia and gender, p-value >0.05.Conclusion: Prevalence of iron deficiency anemia is considerably higher in children of Lahoreunder study. We should take some defensive measure to cope with it as mathematical deficiencyaffect children’s health, mental and physical activities.
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AHMED, SHAHEEN, Salman Ali, NAEEM FAREED, Mehboob Sultan, NADEEM SADIQ und Umar Khurshid. „IRON DEFICIENCY ANEMIA“. Professional Medical Journal 16, Nr. 02 (10.06.2009): 209–15. http://dx.doi.org/10.29309/tpmj/2009.16.02.2903.

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t r o d u c t i o n : The adherence to treatment of iron deficiency anemia often is poor in both developed and developingcountries. The current standard therapy is oral ferrous sulfate administered 3 times daily. It is possible that adherence would improve witha single-dose daily treatment regimen. O b j e c t i v e s : To compare single versus thrice daily ferrous sulfate for treatment of iron deficiencyanemia in young children. D e s i g n : Quasi experimental study Setting: Children Department Military Hospital Rawalpindi. P e r i o d : From (01Jan- to31 Mar 05 and 03 Jul to 02 Oct 05) Subjects and Methods: Total 250 patients of iron deficiency anemia (hemoglobin values: 7.0to 9.9 gm/dl and serum ferritin values: 10 ng/ml or less) were identified. Children divided into two groups and matched on the basis of age;and gender. One group (n = 125) received ferrous sulfate once daily and the control group (n = 125) received ferrous sulfate thrice dailyat a total dose of 6 mg/kg/day of elemental iron for 2 months. Hemoglobin and serum ferritin values were measured as baseline and at theend of the study. R e s u l t s : Successful treatment of anemia (target hemoglobin > 10 gm/dl) occurred in 81.42 % of the single dose and in79.83 % of thrice daily dose groups and the side effects were minimal between the two groups. Conclusion: A single versus a 3 times dailydose of ferrous sulfate resulted in a similar rate of successful treatment of iron deficiency anemia, without significant side effects.
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Pochinok, T. V. „Iron deficiency anemia in children“. SOVREMENNAYA PEDIATRIYA 75, Nr. 3 (30.04.2016): 65–69. http://dx.doi.org/10.15574/sp.2016.75.65.

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Queiroz, Suzana de Souza, und Marco A. de a. Torres. „Iron deficiency anemia in children“. Jornal de Pediatria 76, Nr. 8 (15.11.2000): 298–304. http://dx.doi.org/10.2223/jped.167.

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Subramaniam, Girish, und Meenakshi Girish. „Iron Deficiency Anemia in Children“. Indian Journal of Pediatrics 82, Nr. 6 (01.02.2015): 558–64. http://dx.doi.org/10.1007/s12098-014-1643-9.

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Khalid, Jawaria, Muhammed Mehboob Ahmed, Misbah Khalid, Muhammad Asghar Butt und Khalid Mahmood Akhtar. „IRON DEFICIENCY ANEMIA“. Professional Medical Journal 25, Nr. 04 (10.04.2018): 492–96. http://dx.doi.org/10.29309/tpmj/2018.25.04.334.

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Objective: To compare the efficacy of Ferrous sulfate with iron polymaltosecomplex in treatment of iron deficiency anemia in children in terms of rise in hemoglobin. Studydesign: Randomized clinical trial. Setting: Department of Paediatric Medicine Unit I AlliedHospital Faisalabad. Study duration: 6 months. Methodology: All the children of age group6 month to 12year with hemoglobin level <10g/dl, MCV<70fl corrected for age, MCHC<32%,serum ferritin<8μg/l were included. All other cases of anemia other than iron deficiency anemiasuch as thalassemia, sickle cell anemia, lead poisoning etc, patients with severe anemia(hb≤6g/dl) because they need blood transfusion to correct anemia, those with decompensatedheart failure or acute infection were excluded. After enrolment patients were randomly dividedinto two groups by lottery method. Group A, patients were given ferrous sulphate. Group B,patients were given iron polymaltose complex (IPC). Both iron preparations were given inthe dose of 5mg/kg/day of elemental iron in three divided dosage 30 minutes before meals.Patients were assessed at one month interval after the start of treatment and hemoglobin waschecked at follow up visit by taking 2cc blood. Results: Sixty children were studied. Meanage was 2.5 ± 5.1 years, range 7 months to 12 years with 32 girls, 28 boys. The patients wereevenly distributed between the two treatment groups (IPC, n = 30, 50%; ferrous sulfate, n =30, 50%). All erythrocyte-related hematologic parameters after one month treatment showed asignificant improvement from baseline with both treatments. A significant improvement in Hbwas observed after one month treatment in the IPC group 9.5 ± 1.1g/dL to 10.6 ±1.0 g/dL andthe ferrous sulfate group 9.4 ± 1.6 g/dL to 11.2 ± 0.9 g/dL which was statistically significant.Conclusion: From this randomized study, it is concluded that both ferrous sulphate and ironpolymaltose complex have equal efficacy in treatment of iron deficiency anemia
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Hussain, M. I., G. Ali, J. A. Sayle, B. Sprinkle und J. H. Hcopes. „IRON-RESPONSIVE IRON DEFICIENCY ANEMIA IN CHILDREN“. Journal of Pediatric Hematology/Oncology 11, Nr. 1 (1989): 119. http://dx.doi.org/10.1097/00043426-198921000-00042.

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Maheshwari, Nathumal, Omperkash Khemani, Bilawal Hingorjo, Mehmood Shaikh, Siri Chand und Anjum Rehman. „IRON DEFICIENCY ANEMIA“. Professional Medical Journal 25, Nr. 05 (10.05.2018): 659–63. http://dx.doi.org/10.29309/tpmj/2018.25.05.304.

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Objectives: To evaluate the predictive value of Red blood cell distribution width(RDW) for the iron deficiency anemia in children. Study Design: Cross sectional study. Placeand Duration: Department of Paediatrics, Layari General Hospital Shaheed Muhtrama BenazirBhutto Medical College from December 2015 to March 2016. Methodology: A sample of 100children (53 male and 47 female) was selected through non- probability (purposive sampling). 5ml venous blood was collected, 3 ml was shifted to EDTA containing vacutainers and remainingwas processed and centrifuged to separate sera. Complete blood counts and iron profile wereperformed. Data of cases and controls was analyzed on Statistix 10.0 software (USA) (P ≤0.05).Results: Severe iron deficiency and iron deficiency anemia were noted. Serum Iron, TIBC andFerritin were noted as 63.49±32.94 and 76.06±40.38 μg/dl, 468.7±142.2 and 445.5±135.2 μg/dl, & 36.2±14.12 and 43.2±13.5 ng/dl respectively. RDW proved a sensitivity and specificity of78% and 56% respectively (0.001). Conclusion: We observed severe iron deficiency anemia inchildren and Red blood cell distribution width showed high sensivity in predicting iron deficiencyanemia.
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Dissertationen zum Thema "Iron deficiency anemia in children Tanzania"

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Mwanri, Lillian. „Impact of vitamin A and iron on anaemia and cognitive functioning of anaemic school children in Tanzania“. Title page, table of contents and summary only, 2001. http://web4.library.adelaide.edu.au/theses/09PH/09phm994.pdf.

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Pacey, Angela. „Iron deficiency and iron deficiency anemia among preschool Inuit children living in Nunavut“. Thesis, McGill University, 2009. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=66931.

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Limited information is available about iron deficiency and iron deficiency anemia (IDA) among preschool-aged Inuit children. A cross-sectional survey was conducted with 388 Inuit children, aged 3 to 5 years, from 16 Nunavut communities. Interviews were conducted on dietary and household characteristics. Height, weight and biomarkers of iron status and Helicobacter pylori (H. pylori) exposure were measured. The prevalence of iron deficiency and IDA was calculated and risk factors were examined. The prevalence of iron deficiency was 19.2%, of IDA was 4.5% and of anemia was 20.3%. Only 0.3% of chil dren had usual iron intakes below the Estimated Average Requirement. H. pylori exposure, food insecurity and household crowding were not associated with iron deficiency or IDA. Three to four year olds were more likely to be iron deficient than 5 year olds. Boys were more likely to be iron deficient than girls.
Peu d'informations sont disponibles sur la carence en fer et l'anémie due à une carence en fer (ACF) chez les Inuits d'âge pré-scolaire. Un sondage transversales a été conduit avec 388 enfants Inuit âgés de 3 à 5 ans, dans 16 communautés du Nunavut. Des interviewers ont conduit des entrevues alimentaires et des questionnaires à propos des caractéristiques des ménages. La taille, le poids, ainsi que des marqueurs biologiques du niveau de fer et de l'exposition à Helicobacter pylori ont été mesurés. La prévalence de la carence en fer et de l'ACF a été calculée et les facteurs de risque ont été examinées. La prévalence de la carence en fer a été 19.2%, de l'ACF a été 4.5% et de l'anémie a été 20.3%. Seulement 0.3% des enfants avaient des apports habituels en fer sous le besoin moyen estimatif. L'exposition à H. pylori, l'insécurité alimentaire et le nombre d'habitants par ménage n'étaient pas associés à une carence en fer ou à de l'ACF. La carence en fer était plus élevée chez les enfants âgés de 3 à 4 ans que chez ceux de 5 ans. La carence en fer était aussi plus élevée chez les garçons que chez les filles.
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Kemmer, Teresa M. „Iron deficiency anemia in refugee children from Burma : a policy proposal /“. Thesis, Connect to this title online; UW restricted, 2001. http://hdl.handle.net/1773/6595.

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Oti-Boateng, Peggy. „Effects of dietary calcium on intestinal non-haem iron absorption during weaning“. Title page, contents and abstract only, 1998. http://web4.library.adelaide.edu.au/theses/09PH/09pho881.pdf.

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Corrigenda tipped to title page. Bibliography: leaves 313-353. This study investigated the iron status and dietary intakes in 6-24 month old children in Australia and Ghana and assessed the effects of dietary calcium on intestinal iron absorption. The true prevalence of non-anaemic iron deficiency (NAID) and iron deficiency anaemia (IDA) and dietary intakes in infants and toddlers from a broad socio-economic background were assessed by haematological and biochemical parameters, semi-quantitative diet recall and anthropometric measurements. The high prevalence of iron deficiency and anaemia found in Australian and Ghanaian children can be attributed to the low intake of bioavailable iron in weaning diets which are often ingested with large amounts of calcium. While calcium has been shown to inhibit the absorption of iron, its mechanism of interaction with iron absorption at the intestinal level is not known. The rat was used as an experimental model to investigate the effects of dietary calcium on duodenal iron uptake. The results indicate there is a critical period during weaning when the consumption of high dietary calcium with low iron can retard growth potential. Dietary calcium significantly inhibits non-haem iron absorption at the intracellular level by up-regulating villus enterocyte ferritin concentrations under iron deficiency conditions.
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Zitting, Megan M. „Comparison of Iron Supplementation and Albendazole on Anemia in Ghanaian Children“. BYU ScholarsArchive, 2016. https://scholarsarchive.byu.edu/etd/6425.

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Half a billion school aged children suffer from anemia, with the majority of anemia caused by iron deficiency. Researchers have shown a strong correlation between low hemoglobin levels and presence of intestinal parasites in children with anemia. Childhood anemia has profound negative effects on physical growth, maturation, and cognitive development leading to poorer educational achievement. Using hemoglobin as a measure of anemia, this quasi-experimental study investigated impact of either iron supplementation or an antiparasitic medication on hemoglobin levels in two groups of children in a rural region of Eastern Ghana. Surprisingly, after a 6-month intervention period, hemoglobin levels in both groups significantly decreased. Further research is needed toinvestigate other factors impacting nutrition and incidence of anemia in pediatric populations in developing countries.
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Khan, Nargis Tahir. „Prevalence of iron deficiency anaemia in girls (4-17 years) in Northern Pakistan /“. St. Lucia, Qld, 2002. http://www.library.uq.edu.au/pdfserve.php?image=thesisabs/absthe16395.pdf.

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Adish, Abdulaziz A. „Risk factors and an assessment of control strategies for iron deficiency anemia in children in northern Ethiopia“. Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1997. http://www.collectionscanada.ca/obj/s4/f2/dsk2/ftp03/NQ36948.pdf.

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Funk, Maryke. „Screening for childhood anaemia using copper sulphate densitometry“. Diss., Access to E-Thesis, 2003. http://upetd.up.ac.za/thesis/available/etd-09192005-135937/.

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Василишин, Христина Iгорiвна, Кристина Игоревна Василишин und Khrystyna Ihorivna Vasylyshyn. „Characteristic of colon microbiocenosis among preschool children suffering community-acquired pneumonia associated with iron deficiency anemia“. Thesis, Sumy State University, 2014. http://essuir.sumdu.edu.ua/handle/123456789/45415.

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An important physiological role in the body of the child has a normal intestinal micro flora, which in connection with person’s microorganism is regarded as a kind of extracorporeal organ. According to several authors, 88.6 % of children with acute respiratory diseases reveal disbiotic changes of intestinal micro flora. Among patients with pneumonia revealing frequency of the third level dysbiosis is 44.4 %, and besides quantitative violations there occurs also a high-quality disintegration of components of micro ecological system.
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Chamberlain, Angela. „Examining the Relationship Between Anemia, Cognitive Function, and Socioeconomic Status in School-Aged Ecuadorian Children“. BYU ScholarsArchive, 2015. https://scholarsarchive.byu.edu/etd/5917.

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Background and Objectives: It is estimated that over 40% of children in Ecuador are anemic. Anemia in children can influence physical and cognitive development and have lasting effects on adulthood productivity and quality of life. The objectives of this study were to: (1) evaluate the relationship of anemia and cognitive function, and (2) determine the influence of demographic factors on cognitive function. Population and Setting: The sample consisted of 175 school-aged children between 5 to 11 years old attending a school in a poverty stricken area of Guayaquil, Ecuador. Methods: A descriptive correlational cross sectional design was used to study the relationship between the level of anemia and the level of cognitive function. Other demographic factors were evaluated to determine their influence on cognitive function. Data were collected at the school using the Raven's Coloured Progressive Matrices to measure cognitive function and the STAT-Site MHgb Meter to measure hemoglobin levels. Results: No significant correlation was found between the level of anemia and cognitive function. Multiple regression analysis of demographic variables and cognitive function found age (Beta=0.56, t=8.6, p=0.000) and income (Beta=0.16, t=2.5, p=0.01) to be significant predictors of cognitive function. Interpretation and Conclusion: Many factors influence cognitive function and development. Additional research is needed to determine the effect of income level and related factors, such as parental time spent with the child doing homework, value placed on education in the home, education level of the parents, and quality of nutrition. Interventions to improve socioeconomic level, enhance parenting styles that foster cognitive development, and improve nutrition should be implemented.
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Bücher zum Thema "Iron deficiency anemia in children Tanzania"

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National Workshop on the Control of Nutritional Anaemia in Tanzania (1st 1991 Dar es Salaam, Tanzania). Proceedings of the First National Workshop on the Control of Nutritional Anaemia in Tanzania: 1st-5th July 1991. Dar es Salaam: The Centre, 1992.

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Carew, B. A. R., M. B. Lawal und T. Lano-Maduagu. Anaemic conditions and the Nigerian child: Nutrition education seminar proceedings. Lagos: Provost Office, Adreniran Ogunsanya College of Education, 1998.

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Patieva, S. V. Tekhnologii︠a︡ funkt︠s︡ionalʹnykh kolbasnykh izdeliĭ dli︠a︡ korrekt︠s︡ii zhelezodefit︠s︡itnykh sostoi︠a︡niĭ u deteĭ. Krasnodar: KubGAU, 2009.

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Beat the iron crisis: 1 in 4 young children are anaemic. Wellingborough, Northamptonshire, England: Thorsons Pub. Group, 1988.

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F, Waters William, und Boy Erick, Hrsg. Fortificación en casa con micronutrientes de los alimentos de los niños y niñas de 6 a 59 meses de edad para combatir la anemia por falta de hierro y otras deficiencias: Una estrategia familiar efectiva al nivel local para disminuir la alta prevalencia de anemia nutricional, usando chis paz de salud. Quito, Ecuador: Aliméntate Ecuador, 2008.

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R, Tatala S., Shirika la Chakula Bora Tanzania. und Chalmers tekniska hogskola. Dept. of Food Science., Hrsg. Prevalence of iron deficiency anaemia in preschool children and the effect of vitamin C supplementation: A study carried out in Msoga Village, Coast Region, Tanzania, 1992/1993. Dar es Salaam, Tanzania: Tanzania Food and Nutrition Centre, 1993.

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Fazlul, Karim, und BRAC (Organization), Hrsg. Reaching sprinkles to millions: Social marketing strategy for combating childhood iron deficiency anemia. Dhaka: BRAC, 2006.

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O, Earl Robert, Woteki Catherine E, Calloway Doris Howes, Institute of Medicine (U.S.). Committee on the Prevention, Detection, and Management of Iron Deficiency Anemia among U.S. Children and Women of Childbearing Age. und Institute of Medicine (U.S.). Food and Nutrition Board., Hrsg. Iron deficiency anemia: Recommended guidelines for the prevention, detection, and management among U.S. children and women of childbearing age. Washington, DC: National Academy Press, 1993.

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(Editor), Robert Earl, und Catherine E. Woteki (Editor), Hrsg. Iron Deficiency Anemia: Recommended Guidelines for the Prevention, Detection, and Management Among U.S. Children and Women of Childbearing Age. National Academies Press, 1994.

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Mervyn, Leonard. Beat the Iron Crisis. HarperCollins Publishers Ltd, 1988.

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Buchteile zum Thema "Iron deficiency anemia in children Tanzania"

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Gupta, Anil. „Consequences of Iron Deficiency Anemia“. In Nutritional Anemia in Preschool Children, 131–47. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-5178-4_7.

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Gupta, Anil. „Aetiology of Iron Deficiency in Children“. In Nutritional Anemia in Preschool Children, 47–118. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-5178-4_5.

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Mitchell, Deanna, Jessica Foley und Aarti Kamat. „Nutritional Anemias: Iron Deficiency and Megaloblastic Anemia“. In Benign Hematologic Disorders in Children, 15–30. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-49980-8_2.

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Miniero, Roberto, Valentina Talarico, Maria Concetta Galati, Laura Giancotti, Paola Saracco und Giuseppe Raiola. „Iron Deficiency and Iron Deficiency Anemia in Children“. In Iron Deficiency Anemia. IntechOpen, 2019. http://dx.doi.org/10.5772/intechopen.79790.

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Lo, Clara, und Michael Jeng. „Dietary Iron Deficiency Anemia in Children“. In Nutritional Anemia, 96–102. Cambridge University Press, 2019. http://dx.doi.org/10.1017/9781139023993.009.

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Roganović, Jelena, und Ksenija Starinac. „Iron Deficiency Anemia in Children“. In Current Topics in Anemia. InTech, 2018. http://dx.doi.org/10.5772/intechopen.69774.

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„Iron deficiency and iron deficiency anemia in young children“. In Public Health and Nutrition in Developing Countries (Part I and II), 675–99. WPI Publishing, 2015. http://dx.doi.org/10.1201/b18288-28.

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8

„Iron Deficiency Anemia and Infant Behavior“. In Emotion, Cognition, Health, and Development in Children and Adolescents (PLE: Emotion), 119–28. Psychology Press, 2014. http://dx.doi.org/10.4324/9781315740133-16.

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Nadar Indrasari, Yulia, Siti Nurul Hapsari und Muhamad Robiul Fuadi. „Potential Marker for Diagnosis and Screening of Iron Deficiency Anemia in Children“. In Iron Metabolism - Iron a Double‐Edged Sword [Working Title]. IntechOpen, 2022. http://dx.doi.org/10.5772/intechopen.102792.

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Iron plays a role in multiple physiological functions, naming oxygen transport, gene regulation, DNA synthesis, DNA repair, and brain function. Iron deficiency anemia (IDA) may happen following iron deficiency, but iron deficiency alone may cause negative impacts on the health risk of pediatric patients. The degree of iron deficiency is described by total body iron (measured by ferritin), transport iron (measured by transferrin saturation), serum iron, and other hematologic and biochemical markers. Iron deficiency anemia is a result of insufficient iron supply causing the inability to maintain normal levels of hemoglobin. The most common causes of microcytic anemia in children are iron deficiency and thalassemia minor. There are various hematologic and biochemical parameters used for screening and diagnosis of iron deficiency anemia in children, but there is no single “best” test to diagnose iron deficiency with or without anemia. The “gold standard” for identifying iron deficiency is a direct test-bone marrow biopsy with Prussian blue staining. This article aims to explain iron metabolism in children and discuss the role of hematologic and biochemical parameters for screening and diagnosis of iron deficiency anemia in children.
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Arcanjo, Francisco Plácido Nogueira, Eliana Pereira Vellozo, Maria Aparecida Zanetti Passos, Mikkael Duarte dos Santos, Francisca Júlia dos Santos Sousa, Cecília Costa Arcanjo und Maria Sylvia de Souza Vitalle. „Iron Deficiency Anemia and Learning Capacity in Children“. In Challenges in Disease and Health Research Vol. 8, 117–24. Book Publisher International (a part of SCIENCEDOMAIN International), 2021. http://dx.doi.org/10.9734/bpi/cdhr/v8/1712c.

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Konferenzberichte zum Thema "Iron deficiency anemia in children Tanzania"

1

Segal, Julia, Meghan McCormick, Ram Kalpatthi und James Zullo. „Hospitalization For Iron Deficiency Anemia In Young Children: A Multicenter Analysis“. In AAP National Conference & Exhibition Meeting Abstracts. American Academy of Pediatrics, 2021. http://dx.doi.org/10.1542/peds.147.3_meetingabstract.566-a.

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Nugroho, Fajar Agung, Thomas H. A. Ederveen, Adi Wibowo, Jos Boekhorst, Marien I. de Jonge und Tom Heskes. „Application of A Causal Discovery Model to Study The Effect of Iron Supplementation in Children with Iron Deficiency Anemia“. In 2019 3rd International Conference on Informatics and Computational Sciences (ICICoS). IEEE, 2019. http://dx.doi.org/10.1109/icicos48119.2019.8982503.

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Linda, Irma Nurma. „Interprofessional Health Collaboration on Female Adolescents with Iron Deficiency Anemia: A Scoping Review“. In The 7th International Conference on Public Health 2020. Masters Program in Public Health, Universitas Sebelas Maret, 2020. http://dx.doi.org/10.26911/the7thicph.03.41.

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ABSTRACT Background: Iron deficiency anemia is a global health problem that affects children, women and the elderly, and it is also a common comorbidity under a variety of medical conditions. This study aimed to determine the role of health workers in the practice of adolescent girls with iron deficiency anemia. Subjects and Method: This was a scoping review conducted was conducted in eight stages including (1) Identification of study problems; (2) Determining priority problem and study question; (3) Determining framework; (4) Literature searching; (5) Article selection; (6) Critical appraisal; (7) Data extraction; and (8) Mapping. The search included PubMed, ProQuest, Wiley, Science Direct. The inclusion criteria were English-language and full-text articles published between 2008 and 2019. The data were selected by the PRISMA flow chart. Results: Seven articles were selected from 316 articles, 25 duplicated articles and 284 excluded articles. Several important points were obtained, namely doctor diagnose and provide therapy, haematologist analyzing blood sample results, nutritionist educate nutrition of female adolescent, nurses provide care and recording adolescent health status, and laboratory staff taking blood for analysis. Conclusion: All health workers play an equally important in reducing iron deficiency Keywords: Collaboration, Inter-professional Health, Role, Iron Deficiency Anemia. Correspondence: Irma Nurma Linda. Universitas ‘Aisyiyah Yogyakarta, Indonesia. Jl. Ringroad Barat No.63, Mlangi Nogotirto, Gamping, Area Sawah, Nogotirto, Gamping, Sleman district, Yogyakarta 55592. Email: irmanurmalinda@gmail.com. Mobile: 081233223694. DOI: https://doi.org/10.26911/the7thicph.03.41
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Turudic, Daniel, Iva Busic, Marko Bilic und Ernest Bilic. „294 Comparison of mathematical indices used to differentiate between β-thalassemia and iron deficiency anemia in croatian children“. In 10th Europaediatrics Congress, Zagreb, Croatia, 7–9 October 2021. BMJ Publishing Group Ltd and Royal College of Paediatrics and Child Health, 2021. http://dx.doi.org/10.1136/archdischild-2021-europaediatrics.294.

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Kobelkova, Irina Vitalievna, Margarita Mikhailovna Korosteleva, Dmitry Borisovich Nikityuk, Ksenia Valerievna Vibornaya, Rajabkadi Magomedovich Rajabkadiev, Maria Sergeevna Kobelkova, Muradin Mudalifovich Semenov und Enver Saidovich Tokayev. „DEVELOPMENT OF A SPECIALIZED FOOD PRODUCT FOR THE PREVENTION OF IRON DEFICIENCY ANEMIA IN JUNIOR ATHLETES“. In NEW TECHNOLOGIES IN MEDICINE, BIOLOGY, PHARMACOLOGY AND ECOLOGY. Institute of information technology, 2021. http://dx.doi.org/10.47501/978-5-6044060-1-4.34.

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The prevalence of iron deficiency in female athletes varies significantly, with 31% having a ferritin concentration below 12 ng/ml or a transferrin saturation of less than 16 ng/ml. The medical and biological substantiation of the composition was carried out and a specialized food product was developed for nutrition of female athletes of children and adolescents (12-17 years), that provides the intake an easily digestible of hem form’s iron and vitamins involved in iron metabolism in the body for at least 15 % and no more than 50% of the recommended daily intake.
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