Association between maternal anemia during pregnancy with low birth weight their infants
Kramer, M. S. & Victora, C. G. Low Birth Weight and Perinatal Mortality. Nutrition and Health in Developing Countriesp. 57–69 (Springer, 2001).
World Health Organization (WHO). Global nutrition targets 2025: low birth weight policy brief. Accessed December 30 (2014). Available from: https://www.who.int/publications/i/item/WHO-NMH-NHD-14.5
Engidaw, M. T., Eyayu, T. & Tiruneh, T. The effect of maternal anaemia on low birth weight among newborns in Northwest Ethiopia. Sci. Rep. 12 (1), 15280 (2022).
Google Scholar
Kliegman, R. M., Behrman, R. E., Jenson, H. B. & Stanton, B. M. Nelson Textbook of Pediatrics e-book (Elsevier Health Sciences, 2007).
Ahmad, M. O., Kalsoom, U., Sughra, U., Hadi, U. & Imran, M. Effect of maternal anaemia on birth weight. J. Ayub Med. Coll. Abbottabad. 23 (1), 77–79 (2011).
Google Scholar
Goonewardene, M., Shehata, M. & Hamad, A. Anaemia in pregnancy. Best practice & research Clinical obstetrics & gynaecology. ;26(1):3–24. (2012).
Horowitz, K. M., Ingardia, C. J. & Borgida, A. F. Anemia in pregnancy. Clin. Lab. Med. 33 (2), 281–291 (2013).
Google Scholar
World Health Organization (WHO). THE GLOBAL HEALTH OBSERVATORY/ Anaemia in women and children. (2019). Available from: https://www.who.int/data/gho/data/themes/topics/anaemia_in_women_and_children
Azami, M., Darvishi, Z., Borji, M. & Sayehmiri, K. The prevalence of anemia among pregnant women in Iran (2005–2016); a systematic review and meta-analysis study. J. School Public. Health Inst. Public. Health Res. ;14(4–5), e38462 (2016).
Taghizadeh, R., Khadem al-hosseini, M., Janani, L. & Amiri, F. Prevalence of Iron deficiency Anemia among pregnant women referred to Fardis health centers in 2018. Alborz Univ. Med. J. 11 (3), 271–279 (2022).
Iqbal, S. & Ekmekcioglu, C. Maternal and neonatal outcomes related to iron supplementation or iron status: a summary of meta-analyses. J. Maternal-Fetal Neonatal Med. 32 (9), 1528–1540 (2019).
Google Scholar
Khezri, R., Rezaei, F. & Motevalli, F. D. Covid-19 pandemic and risk of myopia. Annals Med. Surg. ;79, 1–2 (2022).
Khezri, R., Nikbakht, H-A., Aljalili, S. & Ghelichi-Ghojogh, M. Is it possible to eradicate the covid-19 or not? New Microbes and New Infections. ;49. (2022).
Khezri, R., Shojaie, L., Nikbakht, H-A., Jahanian, S. & Ghelichi-Ghojogh, M. Coronavirus Pandemic and Pregnant Mothers (Annals of Medicine and Surgery, 2022).
Yang, R. et al. Pregnant women with COVID-19 and risk of adverse birth outcomes and maternal-fetal vertical transmission: a population-based cohort study in Wuhan, China. BMC Med. 18 (1), 1–7 (2020).
Google Scholar
World Health Organization (WHO). Home/Diseases/Coronavirus disease (COVID-19)/COVID-19 vaccines. Available from: Cited 25 January 2025.
Ciapponi, A. et al. Safety of COVID-19 vaccines during pregnancy: a systematic review and meta-analysis. Vaccine 41 (25), 3688–3700 (2023).
Google Scholar
Wei, S. Q., Bilodeau-Bertrand, M., Liu, S. & Auger, N. The impact of COVID-19 on pregnancy outcomes: a systematic review and meta-analysis. Cmaj 193 (16), E540–e8 (2021).
Google Scholar
Surekha, M. V. et al. Impact of COVID-19 during pregnancy on placental pathology, maternal and neonatal outcome – A cross-sectional study on anemic term pregnant women from a tertiary care hospital in Southern India. Front. Endocrinol. (Lausanne). 14, 1092104 (2023).
Google Scholar
Dewey, K. G. & Oaks, B. M. U-shaped curve for risk associated with maternal hemoglobin, iron status, or iron supplementation. Am. J. Clin. Nutr. 106 (suppl_6), 1694S–702S (2017).
Google Scholar
Khezri, R., Salarilak, S. & Jahanian, S. The association between maternal anemia during pregnancy and preterm birth. Clin. Nutr. ESPEN. 56, 13–17 (2023).
Google Scholar
Chu, F-C., Shao, S. S. W., Lo, L-M. & Hung, T-H. Association between maternal anemia at admission for delivery and adverse perinatal outcomes. J. Chin. Med. Association. 83 (4), 402–407 (2020).
Google Scholar
Hämäläinen, H., Hakkarainen, K. & Heinonen, S. Anaemia in the first but not in the second or third trimester is a risk factor for low birth weight. Clin. Nutr. 22 (3), 271–275 (2003).
Google Scholar
Kim, S-Y., Kim, S-Y., Kil, K. & Lee, Y. Impact of COVID-19 mitigation policy in South Korea on the reduction of preterm or low birth weight birth rate: a single center experience. Children 8 (5), 332 (2021).
Google Scholar
Surya, S. S., Jamil, N. A., Cahyanti, D., Rahma, A. & Dewi, T. M. Anemia in Pregnancy and Low Birth Weight Before and During the COVID-19 Pandemic in Kalijambe. (2021).
World Bank Group. Data: Iran, Islamic Rep. Accessed July 26 (2024). Available from: http://data.worldbank.org/country/iran-islamic-republic
Number of international sanctions imposed worldwide as of January 12. by target country. [cited 2024 July 26]. (2023). https://www.statista.com/statistics/1294726/number-of-global-sanctions-by-target-country/
World Health Organization (WHO). Response to COVID-19 in Iran. Cited July 31 (2024). Available from: https://www.who.int/about/accountability/results/who-results-report-2020-mtr/country-story/2021/iran
Glodean, D. M., Miclea, D. & Popa, A. R. Macrosomia. A systematic review of recent literature. Romanian J. Diabetes Nutr. Metabolic Dis. 25 (2), 187–195 (2018).
Google Scholar
Organization, W. H. The Global Prevalence of Anaemia in 2011 (World Health Organization, 2015).
Araujo Costa, E. & de Ayres-Silva, P. Global profile of anemia during pregnancy versus country income overview: 19 years estimative (2000–2019). Ann. Hematol. 102 (8), 2025–2031 (2023).
Google Scholar
Kemppinen, L. et al. Gestational iron deficiency anemia is associated with preterm birth, fetal growth restriction, and postpartum infections. J. Perinat. Med. 49 (4), 431–438 (2021).
Google Scholar
Biswas, P., Samsuzzaman, M., Chakraborty, A. & Das, D. K. Maternal anemia and low birth weight in a community development block of purba Bardhaman, West Bengal: a retrospective cohort analysis. J. Maternal and Child Health (2019).
Wahyuni, S., Putri, A. R. A. & Imbir, S. The Relationship Of Anemia In Pregnancy With The Event Of LBW Babies (Low Birth Weight) at Supiori Hospital. JURNAL KEBIDANAN KESTRA (JKK). ;4(2):108 – 12. (2022).
Al-Jarallah, M. et al. In‐hospital mortality in SARS‐CoV‐2 stratified by hemoglobin levels: A retrospective study. EJHaem 2 (3), 335–339 (2021).
Google Scholar
Figueiredo, A. C. et al. Maternal anemia and low birth weight: a systematic review and meta-analysis. Nutrients 10 (5), 601 (2018).
Google Scholar
Widiyanto, J. & Lismawati, G. Maternal age and anemia are risk factors of low birthweight of newborn. Enfermeria Clin. 29, 94–97 (2019).
Google Scholar
Tandon, R., Jain, A. & Malhotra, P. Management of iron deficiency anemia in pregnancy in India. Indian J. Hematol. Blood Transfus. 34, 204–215 (2018).
Google Scholar
Gohari, M. et al. Effects of Post-Joint comprehensive plan of action sanctions on the nutritional status and food security of pregnant women and their families (2017–2020). J. Nutrition and Food Security (2022).
Kostoulas, P., Eusebi, P. & Hartnack, S. Diagnostic accuracy estimates for COVID-19 real-time polymerase chain reaction and lateral flow immunoassay tests with bayesian latent-class models. Am. J. Epidemiol. 190 (8), 1689–1695 (2021).
Google Scholar
link
:max_bytes(150000):strip_icc()/7-Day-No-Sugar-Mediterranean-Diet-Meal-Plan-for-More-Energy-f82d446efc254592899b9927cfd4ac80.jpg "7-Day No-Sugar Mediterranean Diet Meal Plan for More Energy")
