Paternal Age at Birth and Hemoglobin Levels in Early Adolescents: A Nationwide Survey
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Abstract
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1. Mesias M, Seiquer I, Navarro MP (2013). Iron nutrition in adolescence. Crit Rev Food Sci Nutr, 53:1226-37.
2. De Andrade Cairo RC, Rodrigues Silva L, Carneiro Bustani N, Ferreira Marques CD (2014). Iron deficiency anemia in adolescents; a literature review. Nutr Hosp, 29:1240-9.
3. Petridou ET, Georgakis MK, Erdmann F, et al (2018). Advanced parental age as risk factor for childhood acute lymphoblastic leukemia: results from studies of the Childhood Leukemia International Consortium. Eur J Epidemiol, 33(10):965-976.
4. Leite MS, Cardoso AM, Coimbra CE, Jr., et al (2013). Prevalence of anemia and associated factors among indigenous children in Brazil: results from the First National Survey of Indigenous People's Health and Nutrition. Nutr J, 12:69.
5. Zuffo CR, Osorio MM, Taconeli CA, Schmidt ST, da Silva BH, Almeida CC (2016). Prevalence and risk factors of anemia in children. J Pediatr (Rio J), 92:353-60.
6. Ramasamy R, Chiba K, Butler P, Lamb DJ (2015). Male biological clock: a critical analysis of advanced paternal age. Fertil Steril, 103:1402-6.
7. Kong A, Frigge ML, Masson G, et al (2012). Rate of de novo mutations and the importance of father's age to disease risk. Nature, 488:471-5.
8. Unryn BM, Cook LS, Riabowol KT (2005). Paternal age is positively linked to telomere length of children. Aging Cell, 4:97-101.
9. Lan Q, Cawthon R, Shen M, et al (2009). A prospective study of telomere length measured by monochrome multiplex quantitative PCR and risk of non-Hodgkin lymphoma. Clin Cancer Res, 15:7429-33.
10. Deville L, Hillion J, Segal-Bendirdjian E (2009). Telomerase regulation in hematological cancers: a matter of stemness? Biochim Biophys Acta, 1792:229-39.
2. De Andrade Cairo RC, Rodrigues Silva L, Carneiro Bustani N, Ferreira Marques CD (2014). Iron deficiency anemia in adolescents; a literature review. Nutr Hosp, 29:1240-9.
3. Petridou ET, Georgakis MK, Erdmann F, et al (2018). Advanced parental age as risk factor for childhood acute lymphoblastic leukemia: results from studies of the Childhood Leukemia International Consortium. Eur J Epidemiol, 33(10):965-976.
4. Leite MS, Cardoso AM, Coimbra CE, Jr., et al (2013). Prevalence of anemia and associated factors among indigenous children in Brazil: results from the First National Survey of Indigenous People's Health and Nutrition. Nutr J, 12:69.
5. Zuffo CR, Osorio MM, Taconeli CA, Schmidt ST, da Silva BH, Almeida CC (2016). Prevalence and risk factors of anemia in children. J Pediatr (Rio J), 92:353-60.
6. Ramasamy R, Chiba K, Butler P, Lamb DJ (2015). Male biological clock: a critical analysis of advanced paternal age. Fertil Steril, 103:1402-6.
7. Kong A, Frigge ML, Masson G, et al (2012). Rate of de novo mutations and the importance of father's age to disease risk. Nature, 488:471-5.
8. Unryn BM, Cook LS, Riabowol KT (2005). Paternal age is positively linked to telomere length of children. Aging Cell, 4:97-101.
9. Lan Q, Cawthon R, Shen M, et al (2009). A prospective study of telomere length measured by monochrome multiplex quantitative PCR and risk of non-Hodgkin lymphoma. Clin Cancer Res, 15:7429-33.
10. Deville L, Hillion J, Segal-Bendirdjian E (2009). Telomerase regulation in hematological cancers: a matter of stemness? Biochim Biophys Acta, 1792:229-39.
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| Issue | Vol 51 No 4 (2022) | |
| Section | Letter to the Editor | |
| DOI | https://doi.org/10.18502/ijph.v51i4.9260 | |
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This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License. |
How to Cite
1.
Choi JH, Ko KD, Hwang IC, Ahn HY. Paternal Age at Birth and Hemoglobin Levels in Early Adolescents: A Nationwide Survey. Iran J Public Health. 2022;51(4):961-963.
