Birth weight

Baby weighed as appropriate for gestational age.

Birth weight is the body weight of a baby at its birth.[1]

There have been numerous studies that have attempted, with varying degrees of success, to show links between birth weight and later-life conditions, including diabetes, obesity, tobacco smoking and intelligence. Low birth weight is associated with neonatal infection.

Determinants

There are basically two distinct determinants for birth weight:

Relation of weight and gestational age.

The incidence of birth weight being outside what is normal is influenced by the parents in numerous ways, including:

Abnormalities

Influence on adult life

Studies have been conducted to investigate how a person's birth weight can influence aspects of their future life. This includes theorised links with obesity, diabetes and intelligence.

Obesity

A baby born small or large for gestational age (either of the two extremes) is thought to have an increased risk of obesity in later life,[5][6] but it was also shown that this relationship is fully explained by maternal weight.[7]

GH therapy at a certain dose induced catch-up of lean body mass (LBM). However percentage body fat decreased in the GH-treated subjects. Bone mineral density SDS measured by DEXA increased significantly in the GH-treated group compared to the untreated subjects, though there is much debate over whether or not SGA (small for gestational age) is significantly adverse to children to warrant inducing catch-up.[8]

Diabetes

Babies that have a low birth weight are thought to have an increased risk of developing type 2 diabetes in later life.[9][10][11] [12]

Intelligence

Some studies have shown a direct link between an increased birth weight and an increased intelligence quotient.[13][14][15] Increased birth weight is also linked to greater risk of developing autism.[16]

Poor Neonatal Care

Recent evidence suggests that the effects of low birth weight are constant across developmental years, suggesting that poor neonatal care has long term impacts.[17]

Epidemiology

Disability-adjusted life years out of 100,000 lost due to any cause in 2004.[18]
  no data
  less than 9,250
  9,250–16,000
  16,000–22,750
  22,750–29,500
  29,500–36,250
  36,250–43,000
  43,000–49,750
  49,750–56,500
  56,500–63,250
  63,250–70,000
  70,000–80,000
  more than 80,000

See also

References

  1. Definitions from Georgia Department of Public Health. Date: 12/04/2008. Original citation: "Birthweight: Infant's weight recorded at the time of birth"
  2. Tersigni C, Castellani R, de Waure C; et al. (2014). "Celiac disease and reproductive disorders: meta-analysis of epidemiologic associations and potential pathogenic mechanisms". Human Reproduction Update 20 (4): 582–93. doi:10.1093/humupd/dmu007. PMID 24619876.
  3. "The Health Consequences of Involuntary Exposure to Tobacco Smoke: A Report of the Surgeon General". Surgeon General of the United States. 2006-06-27. Retrieved 2014-06-16. pp. 198205
  4. Margerison Zilko CE (January 2010). "Economic contraction and birth outcomes: an integrative review". Hum Reprod Update 16 (4): 445–458. doi:10.1093/humupd/dmp059. PMID 20085917.
  5. "3 stages of childhood may predict obesity risk - Fitness - MSNBC.com". Retrieved 2007-11-28.
  6. Singhal A, Wells J, Cole TJ, Fewtrell M, Lucas A (1 March 2003). "Programming of lean body mass: a link between birth weight, obesity, and cardiovascular disease?". Am J Clin Nutr. 77 (3): 726–30. PMID 12600868.
  7. Parsons TJ, Power C, Manor O (December 2001). "Fetal and early life growth and body mass index from birth to early adulthood in 1958 British cohort: longitudinal study". BMJ 323 (7325): 1331–5. doi:10.1136/bmj.323.7325.1331. PMC 60670. PMID 11739217.
  8. "GH Treatment Effects on Body Composition in SGA". Growth, Genetics & Hormones 24 (1). May 2008.
  9. "Low birth weight diabetes link". BBC News. 2005-02-25. Retrieved 2007-11-28.
  10. Gillman MW, Rifas-Shiman S, Berkey CS, Field AE, Colditz GA (March 2003). "Maternal gestational diabetes, birth weight, and adolescent obesity". Pediatrics 111 (3): e221–6. doi:10.1542/peds.111.3.e221. PMID 12612275.
  11. Rich-Edwards JW, Colditz GA, Stampfer MJ, et al. (1999). "Birthweight and the risk for type 2 diabetes mellitus in adult women". Ann Intern Med. 130 (4 Pt 1): 278–84. doi:10.7326/0003-4819-130-4_part_1-199902160-00005. PMID 10068385.
  12. Li, Yanping; Ley, Silvia; Tobias, Deirdre; Chiuve, Stephanie; VanderWeele, Tyler (June 17, 2015). "Birth weight and later life adherence to unhealthy lifestyles in predicting type 2 diabetes: prospective cohort study". BMJ 351 (h3673).
  13. Matte TD, Bresnahan M, Begg MD, Susser E (August 2001). "Influence of variation in birth weight within normal range and within sibships on IQ at age 7 years: cohort study". BMJ 323 (7308): 310–4. doi:10.1136/bmj.323.7308.310. PMC 37317. PMID 11498487.
  14. "The Future of Children - Sub-Sections". Archived from the original on 2007-10-22. Retrieved 2007-11-28.
  15. Matte TD, Bresnahan M, Begg MD, Susser E (August 2001). "Influence of variation in birth weight within normal range and within sibships on IQ at age 7 years: cohort study". BMJ 323 (7308): 310–4. doi:10.1136/bmj.323.7308.310. PMC 37317. PMID 11498487. Lay summary BBC News (August 9, 2001).
  16. Lord C (April 2013). "Fetal and sociocultural environments and autism". The American Journal of Psychiatry 170 (4): 355–8. doi:10.1176/appi.ajp.2013.13010078. PMID 23545788. Lay summary ScienceDaily (May 2, 2013).
  17. Figlio David, Guryan Jonathan, Karbownik Krzysztof, Roth Jeffrey (2014). "The Effects of Poor Neonatal Health on Children's Cognitive Development". American Economic Review 104 (12): 3921–55. doi:10.1257/aer.104.12.3921.
  18. "WHO Disease and injury country estimates". World Health Organization. 2009. Retrieved Nov 11, 2009.

External links

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