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Nutrition and Micronutrients in Pregnancy

2. Nutrition and Micronutrients in Pregnancy. Evidence of Nutritional Intervention Effectiveness. Maternal malnutritionFolateIronIodineVitamin AZincCalcium . 3. Nutrition and Micronutrients in Pregnancy. Maternal Malnutrition and Pregnancy Outcome. Severe nutritional deprivation (Netherlands 1944

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Nutrition and Micronutrients in Pregnancy

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    1. Nutrition and Micronutrients in Pregnancy Advances in Maternal and Neonatal Health

    2. 2 Nutrition and Micronutrients in Pregnancy Evidence of Nutritional Intervention Effectiveness Maternal malnutrition Folate Iron Iodine Vitamin A Zinc Calcium Why focus on nutrition? There is evidence that deficiencies in certain nutrients can cause adverse pregnancy outcomes for the mother and newborn. Improving nutrition can reduce the complications in some circumstances, thereby contributing to improved quality of life. Examples of nutrients include: folate, iron, iodine and vitamin A.Why focus on nutrition? There is evidence that deficiencies in certain nutrients can cause adverse pregnancy outcomes for the mother and newborn. Improving nutrition can reduce the complications in some circumstances, thereby contributing to improved quality of life. Examples of nutrients include: folate, iron, iodine and vitamin A.

    3. 3 Nutrition and Micronutrients in Pregnancy Maternal Malnutrition and Pregnancy Outcome Severe nutritional deprivation (Netherlands 1944–45) Birth weight significantly influenced by starvation Perinatal mortality rate not affected No increase incidence of malformation In healthy women, state of near starvation is needed to affect pregnancy outcome Severe nutritional deprivation (Netherlands 1944–46) Periconception: Decreased fertility, increased neural tube defect 1st trimester: Increased stillbirths, preterm births, early newborn deaths 3rd trimester: Low birth weight, small for gestational age, preterm birth The newborns in this study were small but healthy.The newborns in this study were small but healthy.

    4. 4 Nutrition and Micronutrients in Pregnancy Maternal Malnutrition and Pregnancy Outcome (continued) Dietary restriction trials in pregnant women High weight for height or high weight gain Inconclusive results to demonstrate or exclude effect on fetal growth or any significant effect on other outcomes Mixed result with nutritional supplementation trials High protein: No evidence of benefit on fetal growth Balanced protein and energy: minimal increase in average birth weight (~30 g) and small decrease in incidence of small for gestational age newborns Women manifesting nutritional deficits can benefit from a balanced energy/protein supplementation Calorie restriction will not restrict birth weight. High protein and energy has minimal effect on birth weight. Calorie restriction will not restrict birth weight. High protein and energy has minimal effect on birth weight.

    5. 5 Nutrition and Micronutrients in Pregnancy Folic Acid Strong evidence that folic acid prevents preconceptionally recurrent and first occurent neural tube defects Increasing evidence that folic acid reduces risk of some other birth defects Improves the hematologic indices in women receiving routine iron and folic acid USPHS/CDC recommends for US women 400 ?g/day: All women in childbearing age 1 mg/day: Pregnant women 4 mg/day: Women with history of neural tube defect deliveries take folic acid 1 month prior to conception and during first trimester Folic acid can be found in foods such as spinach, parsley, broccoli, lettuce, lima beans, turnip greens, asparagus and beef liver.Folic acid can be found in foods such as spinach, parsley, broccoli, lettuce, lima beans, turnip greens, asparagus and beef liver.

    6. 6 Nutrition and Micronutrients in Pregnancy Nutritional Supplementation and Anemia WHO definition of severe anemia: Hemoglobin < 7 g/dL Level of risk Moderate anemia (Hgb 7–11 g/dL): Not increased Severe anemia: Significant risk Severe anemia associated with: Low birth weight newborns Premature newborns Perinatal mortality Increased maternal mortality and morbidity Classifications of anemia were taken from the World Health Organization (WHO). December 2000. Essential Care Practice Guide: Pregnancy, Childbirth and Newborn Care. Draft. Severe anemia is associated with a significantly increased risk of complications in pregnancy, specifically low birth weight newborns, premature birth, perinatal mortality, and increased maternal mortality and morbidity. This increase is due to low oxygen-carrying capacity for both fetus and mother.Classifications of anemia were taken from the World Health Organization (WHO). December 2000. Essential Care Practice Guide: Pregnancy, Childbirth and Newborn Care. Draft. Severe anemia is associated with a significantly increased risk of complications in pregnancy, specifically low birth weight newborns, premature birth, perinatal mortality, and increased maternal mortality and morbidity. This increase is due to low oxygen-carrying capacity for both fetus and mother.

    7. 7 Nutrition and Micronutrients in Pregnancy Anemia and Obstetrical Hemorrhage Anemia does not cause obstetrical hemorrhage (even severe anemia) Etiology of obstetric hemorrhage Early pregnancy: Abortion complications Mid/late pregnancy to delivery: Previa, abruption, atony, retained placenta, birth canal laceration Primary factors affecting outcome: Rapid intervention to prevent exsanguination Availability of skilled provider, drugs, blood and fluids There is no evidence that high levels of hemoglobin are beneficial in withstanding a hemorrhagic event.

    8. 8 Nutrition and Micronutrients in Pregnancy Iron Supplementation Iron requirements: Average non-pregnant adult: 800 ?g iron lost/day + 500 ?g iron lost/day during menses Pregnant woman: Increased need Expanded blood volume Fetal and placental requirements Blood loss during delivery Routine vs. selective iron supplementation: Prevalence of nutritional anemia Routine iron and folate supplementation where nutritional anemia is prevalent Recommended dose: 60 mg elemental iron + 5 ?g folic acid Foods abundant in iron include: red meat (especially liver), poultry, fish, whole grains, dark green leafy vegetables, shellfish and dried fruit. Absorption is improved if taken with foods containing vitamin C. Adult females should get 30 mg/day, especially if they are pregnant. Foods abundant in iron include: red meat (especially liver), poultry, fish, whole grains, dark green leafy vegetables, shellfish and dried fruit. Absorption is improved if taken with foods containing vitamin C. Adult females should get 30 mg/day, especially if they are pregnant.

    9. 9 Nutrition and Micronutrients in Pregnancy Iodine Supplementation Iodine deficiency is a preventable cause of mental impairment Iodine supplementation and fortification programs have been largely successful in decreasing iodine deficiency conditions Population with high levels of mental retardation (e.g., some parts of China): Supplementation may be effective at preconception up to mid-pregnancy period Form of iodine supplementation (iodinating food or oral/injectable iodine) depend on: Severity of iodine deficiency Cost Availability of different preparation Some salts, bread and seafood have been supplemented with iodine. Iodine may be found in other locally available foods. The US recommended daily allowance is 150?g/day for adults, 175 ?g/day for pregnant women and 200 ?g/day for lactating women.Some salts, bread and seafood have been supplemented with iodine. Iodine may be found in other locally available foods. The US recommended daily allowance is 150?g/day for adults, 175 ?g/day for pregnant women and 200 ?g/day for lactating women.

    10. 10 Nutrition and Micronutrients in Pregnancy Vitamin A Indications for vitamin A supplementation: Vertical transmission of HIV (ongoing) Infant survival Maternal anemia: Positive interaction with iron in reducing anemia Infection Maternal mortality: Vitamin A vs. placebo RR 0.60 (0.37–0.97) Beta-carotene vs. placebo RR 0.51 (0.30–0.86) Potential adverse effects of Vitamin A and related substances: Total daily dose > 10,000 IU before 7th week of gestation associated with birth defects: craniofacial, central nervous system, thymic cardiac Overall effectiveness and safety of vitamin A supplementation needs to be evaluated The maternal mortality study (West et al 1999) showed a reduction in maternal mortality related to pregnancy up to 12 weeks with vitamin A versus placebo and with beta-carotene versus placebo. Vitamin A, therefore, should be supplemented in areas where deficiency is endemic. Care must be taken not to give too much during pregnancy. In Nepal, Vitamin A supplementation of 23,300 IU on a weekly basis to nearly 45,000 women of reproductive age over a 3.5 year period, decreased maternal mortality by 40% (This dose delivers the equivalent of a liberal dietary allowance). Not clear yet, studies with conflicting results. Further Evaluation Needed: - Long term affect of supplementation unknown. Lower dose may be effective, but needs to be studied. Vitamin A can be found in foods such as carrots, eggs, fish oil, liver and broccoli. The recommended amount is 800 retinol equivalents/day for women age 17-50. If too much vitamin A is taken, toxicity can occur: fatty liver, nausea, vomiting, fatigue, headaches and birth defects.The maternal mortality study (West et al 1999) showed a reduction in maternal mortality related to pregnancy up to 12 weeks with vitamin A versus placebo and with beta-carotene versus placebo. Vitamin A, therefore, should be supplemented in areas where deficiency is endemic. Care must be taken not to give too much during pregnancy. In Nepal, Vitamin A supplementation of 23,300 IU on a weekly basis to nearly 45,000 women of reproductive age over a 3.5 year period, decreased maternal mortality by 40% (This dose delivers the equivalent of a liberal dietary allowance). Not clear yet, studies with conflicting results. Further Evaluation Needed: - Long term affect of supplementation unknown. Lower dose may be effective, but needs to be studied. Vitamin A can be found in foods such as carrots, eggs, fish oil, liver and broccoli. The recommended amount is 800 retinol equivalents/day for women age 17-50. If too much vitamin A is taken, toxicity can occur: fatty liver, nausea, vomiting, fatigue, headaches and birth defects.

    11. 11 Nutrition and Micronutrients in Pregnancy Other Micronutrients: Calcium Association between reduction in pregnancy induced hypertension (PIH) and calcium supplementation Reduction of incidence of PIH Routine supplementation likely beneficial in women at high risk of developing PIH or have low dietary calcium intake High calcium doses (2 g/day) not associated with adverse events Need adequately sized and designed trials in different settings to confirm beneficial effects Recommend increase in calcium intake through diet in women at risk of hypertension or low calcium areas

    12. 12 Nutrition and Micronutrients in Pregnancy Calcium Supplementation: Objective and Design Objective: To assess effects of calcium in prevention of hypertensive disorders of pregnancy Methods: Meta analysis of randomized controlled trial Outcomes: Mothers: Hypertension +/- proteinuria, maternal death or serious morbidity, abruption, cesarean section, length of stay Newborns: Preterm delivery, low birth weight/small for gestational age, neonatal intensive care unit admission, length of stay, still birth/death, disability, hypertension

    13. 13 Nutrition and Micronutrients in Pregnancy Calcium Supplementation: Results Mothers: Hypertension+/-proteinuria: Less hypertension: RR 0.81 (0.74–0.89) Less pre-eclampsia: RR 0.70 (0.58–0.83) Better if low calcium intake, high risk Newborns: Low birth weight: RR 0.83 (0.71–0.98), best for women at highest risk Chronic hypertension: RR 0.59 (0.39–0.91) No difference in preterm delivery, neonatal intensive care unit admission, stillbirth, death

    14. 14 Nutrition and Micronutrients in Pregnancy Calcium Supplementation: Conclusions Calcium decreases risk of hypertension, pre-eclampsia, low birth weight, and chronic hypertension in children Recommend for high risk women with low calcium intake, if pre-eclampsia is important in the population Calcium has other health benefits not related to pregnancy: Maintaining bone strength Proper muscle contraction Blood clotting Cell membrane function Healthy teeth Foods abundant in calcium include: dairy products, dark green vegetables, nuts, grains and beans.Foods abundant in calcium include: dairy products, dark green vegetables, nuts, grains and beans.

    15. 15 Nutrition and Micronutrients in Pregnancy Summary of Nutritional Review Findings Evidence of nutritional intervention effectiveness Iron supplementation Periconceptional folic acid intake Iodine use Balanced energy/protein supplementation Calcium Confirmatory studies to examine effectiveness Vitamin A Zinc

    16. 16 Nutrition and Micronutrients in Pregnancy References Atallah AN, GJ Hofmeyr and L Duley. 2000. Calcium supplements during pregnancy for prevention of hypertensive disorders and related problems (Cochrane Review), in The Cochrane Library, Issue 3. Bucher HC et al. 1996. Effect of calcium supplementation on pregnancy-induced hypertension and preeclampsia: a meta-analysis of randomized controlled trials. JAMA 275(4): 1113–1117. Cunningham FG et al. 1997. Williams Obstetrics, 20th ed. Appleton & Lange: Stamford, Connecticut. Czeizel AE. 1993. Controlled studies of multivitamin supplementation on pregnancy outcomes. Ann N Y Acad Sci 678: 266–275. Czeizel AE and I Dudas. 1992. Prevention of the first occurrence of neural-tube defects by periconceptional vitamin supplementation. N Engl J Med 327 (26): 1832–35. de Onis M, J Villar and M Gülmezoglu. 1998. Nutritional intervention to prevent intrauterine growth retardation: Evidence from randomized controlled trials. Eur J Clin Nutr 52(Suppl 1): S83–S93.

    17. 17 Nutrition and Micronutrients in Pregnancy References (continued) Enkin M et al. 2000. A Guide to Effective Care in Pregnancy and Childbirth, 3rd ed. Oxford University Press: Oxford. Kulier R et al. 1998. Nutritional interventions for the prevention of maternal morbidity. Int J Gyn Obstet 63: 231–246. Lopez-Jaramillo P et al. 1997. Calcium supplementation and the risk of preeclampsia in Ecuadorian pregnant teenagers. Obstet Gynecol 90(2):162–167. Mahomed K. 2000a. Iron supplementation in pregnancy (Cochrane Review), in The Cochrane Library. Issue 4. Update Software: Oxford. Mahomed K. 2000b. Iron and folate supplementation in pregnancy (Cochrane Review), in The Cochrane Library.Issue 4. Update Software: Oxford. Mahomed K and A Gülmezoglu. 2000. Maternal iodine supplements in areas of deficiency (Cochrane Review), in The Cochrane Library. Issue 4. Update Software: Oxford.

    18. 18 Nutrition and Micronutrients in Pregnancy References (continued) Mahomed K et al. 1998. Risk factors for pre-eclampsia among Zimbabwean women: maternal arm circumference and other anthropometric measures of obesity. Paediatr Perinat Epidemiol 12: 253–262. Medical Research Council Vitamin Study Research Group. 1991. Prevention of neural tube defects: results of the Medical Research Council Vitamin Study. Lancet 338 (8760):131–137. Rothman KJ et al. 1995. Teratogenicity of high vitamin A intake. N Engl J Med 333 (21): 1369–1373. Suharno D et al. 1993. Supplementation with vitamin A and iron for nutritional anaemia in pregnant women in West Java, Indonesia. Lancet 342: 1325–1328. Susser M and Z Stein. 1994. Timing in prenatal nutrition: A reprise of the Dutch famine study. Nutrition Reviews 52 (3): 84–94. West Jr. KP et al. 1999. Double blind, cluster randomised trial of low dose supplementation with vitamin A or beta carotene on mortality related to pregnancy in Nepal. Br Med J 318: 570–575.

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