Anaemia in pregnancy
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Feb 08, 2019
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anaemia in pregnancy
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ANEMIA
IN
PREGNANCY
PRESENTED BY:
Ms. Lisa Chadha
S. Y. Msc. Nursing
Pune
IN
PREGNANCY
PRESENTED BY:
Ms. Lisa Chadha
S. Y. Msc. Nursing
Pune
INTRODUCTION
•Commonest medical disorder in pregnancy.
• 18-20 pregnant women are anaemic in
developed countries as compared to 40-75 % in
developing countries .
• It is responsible for significant high maternal
and fetal mortality rate worldwide.
•Commonest medical disorder in pregnancy.
• 18-20 pregnant women are anaemic in
developed countries as compared to 40-75 % in
developing countries .
• It is responsible for significant high maternal
and fetal mortality rate worldwide.
DEFINITION
• Anemia is a condition in which
the number of red blood cells
or their oxygen carrying
capacity is insufficient to meet
the physiological needs of the
individual , which consequently
will vary by age, sex, attitude,
smoking, and pregnancy status
(WHO 2013).
• Anemia is a condition in which
the number of red blood cells
or their oxygen carrying
capacity is insufficient to meet
the physiological needs of the
individual , which consequently
will vary by age, sex, attitude,
smoking, and pregnancy status
(WHO 2013).
Anemia in pregnancy
•Anemia in pregnancy is defined as
haemoglobin (Hb) concentration is less
than 11 g/dl.
•Anemia in pregnancy is defined as
haemoglobin (Hb) concentration is less
than 11 g/dl.
CLASSIFICATION
•Mild : 9- 10.9 gm/dl
•Moderate : 7.8- 9 gm/dl
•Severe : < 7 gm/dl
•Very severe : <4 gm/dl
•Mild : 9- 10.9 gm/dl
•Moderate : 7.8- 9 gm/dl
•Severe : < 7 gm/dl
•Very severe : <4 gm/dl
CLASSIFICATION OF ANEMIA
1. Physiological Anemia
2. Pathological Anemia
Iron deficiency
Folic acid deficiency
Vitamin B12 deficiency
3. Hemorrhagic Anemia
Acute—following bleeding in early months of pregnancy or APH
Chronic—hookworm infestation, bleeding piles, etc.
1. Physiological Anemia
2. Pathological Anemia
Iron deficiency
Folic acid deficiency
Vitamin B12 deficiency
3. Hemorrhagic Anemia
Acute—following bleeding in early months of pregnancy or APH
Chronic—hookworm infestation, bleeding piles, etc.
4. Hemolytic anemia
Familial—congenital jaundice, sickel cell anemia,
etc.
Acquired—malaria, severe infection, etc
5. Bone marrow insufficiency
hypoplasia or aplasia due to radiation, drugs or
severe infection.
6. Hemoglobinopathies
Abnormal structure of one of the globin chains of the
hemoglobin molecule of globin chains of the
hemoglobin molecule ex- sickle cell disease
Familial—congenital jaundice, sickel cell anemia,
etc.
Acquired—malaria, severe infection, etc
5. Bone marrow insufficiency
hypoplasia or aplasia due to radiation, drugs or
severe infection.
6. Hemoglobinopathies
Abnormal structure of one of the globin chains of the
hemoglobin molecule of globin chains of the
hemoglobin molecule ex- sickle cell disease
PHYSIOLOGICAL ANEMIA OF
PREGNANCY
•During pregnancy, maternal plasma volume gradually expands by
50%, an increase of approximately 1,200 ml by term.
•Most of the rise takes place before 32
nd
to 34
th
week’s gestation and
thereafter there is relatively little change (Letsky, 1987).
•The total increase in red blood cells is 25%, approximately 300 ml
that occurs later in pregnancy. This relative hemo-dilution produces
a fall in haemoglobin concentration, thus presenting a picture of
iron deficiency anemia.
•However, it has been found that these changes are a physiological
alteration of pregnancy necessary for the development of fetus.
PREGNANCY
•During pregnancy, maternal plasma volume gradually expands by
50%, an increase of approximately 1,200 ml by term.
•Most of the rise takes place before 32
nd
to 34
th
week’s gestation and
thereafter there is relatively little change (Letsky, 1987).
•The total increase in red blood cells is 25%, approximately 300 ml
that occurs later in pregnancy. This relative hemo-dilution produces
a fall in haemoglobin concentration, thus presenting a picture of
iron deficiency anemia.
•However, it has been found that these changes are a physiological
alteration of pregnancy necessary for the development of fetus.
ERYTHROPOISIS
•In adults, erythropoiesis is confined to the
bone marrow.
• Red cells are formed through stages of
pronormoblasts- normoblasts-
reticulocytes-nature nonnucleated
erythrocytes
•
•The average life- span of red cells is about
120 days after which the RBC’s degenerate
and the haemoglobin are broken into
hemosiderin and bile pigment.
•In adults, erythropoiesis is confined to the
bone marrow.
• Red cells are formed through stages of
pronormoblasts- normoblasts-
reticulocytes-nature nonnucleated
erythrocytes
•
•The average life- span of red cells is about
120 days after which the RBC’s degenerate
and the haemoglobin are broken into
hemosiderin and bile pigment.
IRON REQUIREMENTS IN PREGNANCY
During pregnancy approximately 1,500
mg iron is needed for:-
Increase in maternal haemoglobin
(400-500mg)
The fetus and placenta (300-400 mg)
Replacemet of daily loss through urine, stool
and skin (250mg)
Replacement of blood lost at delivery
(200mg)
Lactation (1mg/day)
During pregnancy approximately 1,500
mg iron is needed for:-
Increase in maternal haemoglobin
(400-500mg)
The fetus and placenta (300-400 mg)
Replacemet of daily loss through urine, stool
and skin (250mg)
Replacement of blood lost at delivery
(200mg)
Lactation (1mg/day)
IRON AND FOLIC ACID REQUIREMENT IN
PREGNANCY
Elemental iron- 30 mg to 60 mg
Folic acid- 400 µg (0.4 mg)
It is recommended for pregnant women
to prevent maternal anemia, puerperal
sepsis, low birth weight, and preterm birth
of babies.
PREGNANCY
Elemental iron- 30 mg to 60 mg
Folic acid- 400 µg (0.4 mg)
It is recommended for pregnant women
to prevent maternal anemia, puerperal
sepsis, low birth weight, and preterm birth
of babies.
IRON DEFICIENCY ANEMIA
•About 95% of pregnant women with
anemia have iron deficiency type.
•A pregnant woman is said to be
anemic if her haemoglobin is less
than 10 gm/dl.
•About 95% of pregnant women with
anemia have iron deficiency type.
•A pregnant woman is said to be
anemic if her haemoglobin is less
than 10 gm/dl.
CAUSES
•Reduced intake or absorption
of iron
•Excess demand such as
multiple pregnancy
•Blood loss
•Reduced intake or absorption
of iron
•Excess demand such as
multiple pregnancy
•Blood loss
EFFECTS OF ANEMIA ON THE
MOTHER
•Reduced resistance to infection caused by
impaired cell-mediated immunity
•Reduced ability to withstand postpartum
hemorrhage
•Strain of even an uncomplicated labor may
cause cardiac failure
•Predisposition to PIH and preterm labor due to
associated malnutrition
•Reduced enjoyment of pregnancy and
motherhood owing to fatigue
•Potential threat to life.
MOTHER
•Reduced resistance to infection caused by
impaired cell-mediated immunity
•Reduced ability to withstand postpartum
hemorrhage
•Strain of even an uncomplicated labor may
cause cardiac failure
•Predisposition to PIH and preterm labor due to
associated malnutrition
•Reduced enjoyment of pregnancy and
motherhood owing to fatigue
•Potential threat to life.
EFFECTS TO FETUS/ BABY
•Intrauterine hypoxia and
growth retardation
•Prematurity
•LBW
•Anemia a few months after
birth due to poor stores
•Increased risk of perinatal
morbidity and mortality
•Intrauterine hypoxia and
growth retardation
•Prematurity
•LBW
•Anemia a few months after
birth due to poor stores
•Increased risk of perinatal
morbidity and mortality
PREVENTION OF IRON DEFICIENCY ANEMIA
•The midwife can help to
identify women at risk of
anemia by
•Accurate history of
medical, obstetric and
social life
•The midwife can help to
identify women at risk of
anemia by
•Accurate history of
medical, obstetric and
social life
MANAGEMENT
•Avoidance of frequent childbirths
•Supplementary iron therapy
•Dietary advice
•Adequate treatments to
eradicate illnesses likely to
cause anemia
•Early detection of falling
hemoglobin level
•Avoidance of frequent childbirths
•Supplementary iron therapy
•Dietary advice
•Adequate treatments to
eradicate illnesses likely to
cause anemia
•Early detection of falling
hemoglobin level
CURATIVE MANAGEMENT
•Women having haemoglobin level of 7.5 mg%
and those associated with obstetrical medical
complications must be hospitalized.
•Following therapeutic measures are to be
instituted:
•Diet
•Antibiotic therapy
•Blood transfusion
•Iron therapy which may be oral/ parental
•Oral iron: daily dose 120- 180 gm is given.
•Women having haemoglobin level of 7.5 mg%
and those associated with obstetrical medical
complications must be hospitalized.
•Following therapeutic measures are to be
instituted:
•Diet
•Antibiotic therapy
•Blood transfusion
•Iron therapy which may be oral/ parental
•Oral iron: daily dose 120- 180 gm is given.
MANAGEMENT DURING
LABOR
LABOR
1
st
stage
Special precautions
Comfortable position on bed
Light analgesia
Oxygenation to increase
oxygenation of maternal blood and
prevent fetal hypoxia
Strict asepsis
st
stage
Special precautions
Comfortable position on bed
Light analgesia
Oxygenation to increase
oxygenation of maternal blood and
prevent fetal hypoxia
Strict asepsis
2
nd
stage
Usually no problem.
IV Methergin 0.2mg
or 20 units oxytocin in
500ml RL IV and
10units of IM given.
nd
stage
Usually no problem.
IV Methergin 0.2mg
or 20 units oxytocin in
500ml RL IV and
10units of IM given.
3
rd
stage
Intensive observation.
blood loss must be replaced
by fresh pack cell and
amount must not exceed
loss amount to avoid
overloading
rd
stage
Intensive observation.
blood loss must be replaced
by fresh pack cell and
amount must not exceed
loss amount to avoid
overloading
Puerperium
Bed rest
Sign of infection detected and
treated
Pre delivery iron therapy must be
continued until patient restores.
Diet
Patient and family members must
be counseled for help at home
regarding baby care and household
chores
Bed rest
Sign of infection detected and
treated
Pre delivery iron therapy must be
continued until patient restores.
Diet
Patient and family members must
be counseled for help at home
regarding baby care and household
chores
FOLIC ACID DEFICIENCY ANEMIA
(MEGALOBLASTIC ANEMIA ):-
•Folic acid deficiency anemia happens
when body does not have enough folic
acid.
•Folic acid is one of the B vitamins, and it
helps your body make new cells,
including new red blood cells
•Deficiency of folic acid can cause
placental abruption, nueral tube defect
and congenital cardiac septal defects
(MEGALOBLASTIC ANEMIA ):-
•Folic acid deficiency anemia happens
when body does not have enough folic
acid.
•Folic acid is one of the B vitamins, and it
helps your body make new cells,
including new red blood cells
•Deficiency of folic acid can cause
placental abruption, nueral tube defect
and congenital cardiac septal defects
VITAMIN B 12 DEFICIENCY
Vitamin B
12
deficiency, also known
as hypocobalaminemia, refers to
low blood levels of vitamin B 12.
Deficiency of vitamin B 12 can also
produce megaloblastic anemia.
Deficiency is most likely in
vegetarians who eat no animal
product.
Vitamin B
12
deficiency, also known
as hypocobalaminemia, refers to
low blood levels of vitamin B 12.
Deficiency of vitamin B 12 can also
produce megaloblastic anemia.
Deficiency is most likely in
vegetarians who eat no animal
product.
SICKLE CELL ANEMIA
Sickle cell anemia is a disease in
which body produces abnormally
shaped red blood cells.
The cells are shaped like a crescent
or sickle.
They don't last as long as normal,
round red blood cells. This leads
to anemia.
The sickle cells also get stuck in
blood vessels, blocking blood flow.
This can cause pain and organ
damage
Sickle cell anemia is a disease in
which body produces abnormally
shaped red blood cells.
The cells are shaped like a crescent
or sickle.
They don't last as long as normal,
round red blood cells. This leads
to anemia.
The sickle cells also get stuck in
blood vessels, blocking blood flow.
This can cause pain and organ
damage
THALESEMIA SYNDROMES:
•The Thalesemia syndrome are commonly
found genetic disorders of the blood.
• The basic defect is reduced rate of
haemoglobin chain synthesis. This leads to
ineffective erythropoisis and increased
hemolysis with resultant inadequate
haemoglobin content.the syndrome are of
two types:
•The alpha and beta thalesemia depending on
the globin chain synthesis affected
•The Thalesemia syndrome are commonly
found genetic disorders of the blood.
• The basic defect is reduced rate of
haemoglobin chain synthesis. This leads to
ineffective erythropoisis and increased
hemolysis with resultant inadequate
haemoglobin content.the syndrome are of
two types:
•The alpha and beta thalesemia depending on
the globin chain synthesis affected
CONCLUSION
•Anemia in pregnancy is the most
commonly occurring disorder during
pregnancy, so every mother who are
pregnant must screen for anemia and
must take treatment as soon as
possible along with foods rich in iron
and also must have family support
and care throughout pregnancy.
•
•Anemia in pregnancy is the most
commonly occurring disorder during
pregnancy, so every mother who are
pregnant must screen for anemia and
must take treatment as soon as
possible along with foods rich in iron
and also must have family support
and care throughout pregnancy.
•
BIBLIOGRAPHY
•D.C Dutta’s, “ Textbook of Obstetrics”, 7
th
ed. 2013, New Central
Book Agency ( P) Ltd, London, page no:- 260- 268
•Annamma Jacob, “ A Comprehensive textbook of midwifery &
gynaecological nursing”, 3
rd
ed. 2012, Jaypee Brothers Medical
Publishers (P) Ltd., page no:323-330
•Myles, “textbook of midwies”, 6
th
ed.2014, Elvester (Ltd), page no:
273-275
•Lowdermilk, Perry& Bobak, “Maternity & Women’s Health Care”, 6
th
ed. 1996, page no:846
•www.anemiainpregnancy.com
•D.C Dutta’s, “ Textbook of Obstetrics”, 7
th
ed. 2013, New Central
Book Agency ( P) Ltd, London, page no:- 260- 268
•Annamma Jacob, “ A Comprehensive textbook of midwifery &
gynaecological nursing”, 3
rd
ed. 2012, Jaypee Brothers Medical
Publishers (P) Ltd., page no:323-330
•Myles, “textbook of midwies”, 6
th
ed.2014, Elvester (Ltd), page no:
273-275
•Lowdermilk, Perry& Bobak, “Maternity & Women’s Health Care”, 6
th
ed. 1996, page no:846
•www.anemiainpregnancy.com
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