Transcript VITAMINS
Postpartum Weight Retention
1/3 of pregnant women gain more wt during
pregnancy than is recommended, particularly
overweight or obese women.
Wt loss among women postpartum is highly variable;
most women will retain 0.5 -3 kg from their previous
pregnancy
At 18 months postpartum, 20% of women will be more
than 5 kg heavier than they were before pregnancy.
nonlactating women may be attributed to enhanced
appetite due to increased prolactin levels and higher
energy demands.
The most consistent and strongest determinant of weight loss
during lactation is pregnancy wt gain.
Other factors include pre-pregnancy wt, age, parity, race,
smoking, exercise, return to work outside the home, and
lactation.
Breastfeeding results in a faster rate of postpartum weight loss
than formula feeding; 0.6–2.0 kg /12 months.
Breastfeeding facilitates changes in body composition; fat is
mobilized from the trunk and thigh areas
Exercise And Lactation
Physical activity at any age is essential to minimize the risk of
several morbidity and mortality; specifically in lactation, it
improves cardiovascular fitness, plasma lipid levels, and
insulin response. Besides, it promotes body wt regulation and
optimizes bone health
Also it has the potential to benefit psychosocial well-being in
lactation, such as improving self-esteem and reducing
depression and anxiety.
Resuming physical activity gradually, and only when a
woman’s body has healed substantially from pregnancy and
delivery (usually 4–6 weeks postpartum). They must avoid
fatigue, remain well hydrated, and watch for abnormal
bleeding or pain.
Achieving a balance of diet and
exercise for Mom And Baby
Table 18.3. Maintaining a healthy diet during lactation
is essential to ensures that macro- and micronutrient
intake is adequate to support optimal maternal health
and breastfeeding success.
A. Calcium
99% of total body ca is found in bones and teeth. Remainder
plays a role in BP regulation, muscle contraction, nerve
transmission, and
hormone secretion.
Calcium homeostasis is maintained by parathyroid hormone,
hypercalcemia, and calcitonin, hypocalcium.
Secretion of ca into breast milk averages about 200 mg/day.
During pregnancy; increased maternal bone resorption and
decreased renal ca excretion rates occur to meet the elevated
calcium demands of lactation.
The concentration of ca in breast milk decreases after 3–6 months;
greatest loss of bone mineral content occurs within the first few
months postpartum.
Ca adequate Intake during lactation is 1,000 mg/day for women (19–50
y), if < age of19;1,300 mg.
Loss of ca from maternal skeleton is not prevented by increased dietary
intake, even among women with low baseline ca intakes.
The bone mineral changes occurring during and following lactation are a
normal physiological response, and an increased requirement for
calcium is not needed.
Sources of ca; milk and other dairy products, salmon with bones, some
green leafy vegetables such as broccoli.
The absorption of supplemental calcium is greatest when ca is taken in
doses of 500 mg or less
Vitamin D
The main function of vit D is to maintain normal blood ca
& Ph; promoting bone health.
Provitamin is obtained from food, vit is synthesized in
the skin by exposure to ultraviolet light.
Human milk contains low amounts of vitamin D; 4 to 40
IU/l. Infant formula is routinely fortified with 400 IU
vitamin D per liter, while the breastfed infant is primarily
dependent upon endogenous synthesis or supplemental
sources of vitamin D.
Breastfed infants are recommended to be given a 400 IU
vitamin D supplement each day.
There is no evidence that lactation increases maternal
requirements for vitamin D; similar to nonlactating adults 200
IU/day. Currently, an intake of 2,000 IU/day for lactating
women to be the tolerable upper intake level. The tolerable
upper limit for vitamin D consumption by adults should be set
at10,000 IU/day.
Obesity is linked with poorer vitamin D status; obese subjects
may have a greater requirement for vitamin D than their nonobese
Sources of vit D in the diet include liver, fatty fish such as
salmon, and eggs yolks. Milk may be fortified with vit D.
Supplemental vitamin D is available in
two distinct forms, vitamin D2 and
vitamin D3.
C. Folate
Folate; a number of related compounds
that are involved in the metabolism of
nucleic and amino acids, and therefore
the synthesis of DNA, RNA, an
proteins.
Folic acid is a synthetic form of the vitamin, used in
vitamin supplements
and food fortification.
The average amount of folate secreted into human milk is
estimated to be 85 mcg/ liter/day. With the exception of severe
maternal folate deficiency (i.e., megaloblastic anemia), the
content of folate in human milk remains stable and appears to
be conserved at the expense of the mother’s folate stores.
A folic acid supplement taken on an empty stomach is thought
to be 100% bioavailable compared to about 50% for naturally
occurring food folate.
The recommended dietary allowance for folate for
breastfeeding women aged 14–50 years is 500 mcg per day.
Lactating women who are planning a subsequent
pregnancy, or who are not taking effective
precautions to prevent one, should be encouraged to
consume 400 mcg folic acid supplement daily for at
least 4 weeks before and 12 weeks after conception
to reduce the risk of having a subsequent child with
NTD
Overzealous use of folic acid supplements is not risk
free; may mask a vitamin B12 deficiency by correcting
its characteristic symptom, megaloblastic anemia.
Dietary Intake of Folate; without mandatory folic acid
fortification, 98% of lactating women would not have
met their requirements for folate from diet alone.
Sources of Folate; green leafy vegetables as well as
citrus fruit juices, liver, and legumes
D. Vitamin B12
Known as cobalamin, and required for RBCs formation &
normal neurological function. Similar to folate, it is involved in
DNA synthesis.
Vit B12 deficiency is associated with DNA production
disruption;
megalo-blastic anemia and neurological
complications.
Vit B12 deficiency may result from
inadequate absorption rather than a dietary deficiency; chronic
antacid use, atrophic gastritis, or pernicious anemia.
High doses of synthetic folic acid (greater than 1,000 mcg) can mask
vitamin B12 deficiency.
Megaloblastic anemia is the clinical
indicator of vitamin B12 deficiency.
Vitamin B12 is excreted in the bile and effectively reabsorbed it can take
up to 20 years for a vitamin B12
deficiency to develop due to low vitamin B12 intake. However,
deficiency due to poor absorption can take only a few years to develop.
During lactation, the concentration of vit B12 in human milk varies
widely, and reflects maternal vitamin B12 intake and status. Low
maternal intake or poor absorption rapidly leads to a low level of
vitamin B12 in human milk
Severe deficiency can occur after approximately 4 months of
age in exclusively breast-fed infants
of mothers with inadequate intake.
Symptoms of infantile vitamin
B12 deficiency include irritability,
abnormal reflexes, feeding
difficulties, reduced level of alertness
or consciousness leading to coma,
and permanent development
disabilities.
The concentration of vit B12 in human milk changes very little
after the first month postpartum; 0.33 mcg/day during the
first 6 months of lactation, and 0.25 mcg/day during the
second 6 months.
The RDA for lactating women age 14–50 years is 2.8 mcg/day;
higher
than nonpregnant, nonlactating
women (2.4 mcg/day).
Low dietary vit B12 intakes during lactation typically occur
when either the mother is a strict vegetarian or when usual
consumption of animal products is low.
Sources of Vit B12; in the diet
vit B12 is synthesized by bacteria and found primarily
in meat, eggs, fish (including shellfish), and to a lesser
extent dairy products. Plant sources, such as spirulina
(algae )طحالبand nori (seaweed), contain vitamin B12
analogues. Milk and milk products are a good source
of vitamin B12 (0.9 mcg/250 ml), while vegans are
recommended to consume a supplement (2.8 mcg/
day) and/or ensure their diet includes foods fortified
with vitamin B12.
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